Micro Hydro Technic Private Limited
Micro Hydro Technic Private Limited
Sector 10A, Gurgaon, Gurugram, Haryana
GST No. 06AADCM9466C1ZF
TrustSEAL Verified
Call 0804895759036% Response Rate
SEND EMAIL

Hydraulic Shear

OEM Manufacturer of a wide range of products which include fixed rake angle hydraulic shears, hydraulic guillotine shearing machine, nc - gulliotione shearing machine, guillotine shearing machine and hydraulic guillotine shearing machine.

Fixed Rake Angle Hydraulic Shears

Fixed Rake Angle Hydraulic Shears
  • Fixed Rake Angle Hydraulic Shears
Get Best Quote
Approx. Price: Rs 6 Lakh / PieceGet Latest Price

Product Details:

Plate Thickness6 - 16 mm
Back Gauge Travel750 mm
Rake Angle1.30 - 2
Motor Power10 - 25 mm
Hyd Oil200 - 500 L
Length3040 - 4320 mm
Width1610 - 2050 mm
Height1620 - 2230 mm
Working Hieght800 mm
trokes per Minute at Full length8 - 18
Number of Holding cyl12 - 13
Number of Front Sheet Supports3 - 4
Length of Squaring Arm1000 mm
WeightUpto 15 mt

General Overview

Shearing, also known as die cutting, is a process which cuts stock without the formation of chips or the use of burning or melting. In strict technical terms, the process of “shearing” involves the use of straight cutting bladesorm of sheet metal or plates, however rods can also be sheared. Shearing-type operations include: blanking, piercing, roll slitting, and trimming.

The machine used is called a squaring shear, power shear, or guillotine. The machine may be foot powered (or less commonly hand powered), or mechanically or hydraulically powered. It works by first clamping the material with a ram. A moving blade then comes down across a fixed blade to shear the material. For larger shears the moving blade may be set on an angle or “rocked” in order to shear the material progressively from one side to the other; this angle is referred to as the shear angle. This decreases the amount of force required, but increases the stroke. A 5 degree shear angle decreases the force by about 20%. The amount of energy used is still the same. The moving blade may also be inclined 0.5 to 2.5°, this angle is called the rake angle, to keep the material from becoming wedged between the blades, however it compromises the squareness of the edge. As far as equipment is concerned, the machine consists of a shear table, work-holding device, upper and lower blades, and a gauging device. The shear table is the part of the machinery that the workpiece rests on while being sheared. The work-holding device is used to hold the workpiece in place and keep it from moving or buckling while under stress. The upper and lower blades are the piece of machinery that actually do the cutting, while the gauging device is used to ensure that the workpiece is being cut where it is supposed to be.

 

A Schematic Showing Positive (Left) and Negative (Right) Rake Angles.

 

The design of press tools is an engineering compromise. A sharp edge, strength and durability are ideal, however a sharp edge is no

t very strong or durable so blades for metal work tend to be square-edged rather than knife-edged. Typical workpiece materials include aluminum, brass, bronze, and mild steel because of their outstanding shearability ratings, however, stainless steel is not used as much due to its tendencies to work-harden.

Other types of geometrical possibilities include the squaring shear, angle shear, bow-tie shear and bar shear. All of these have many different uses and are all used regularly in certain manufacturing fields.

We have with us rich industry experience in successfully handling the demands of precision engineered and optimum functionality based range of Shearing Presses. These are designed and developed to shear plates with clean square edges. Further, these come with close working tolerances with options of different rake angles. With our capability of offering these in different sizes, the superior box construction of these Shearing Machines provides in them desired structural rigidity.

Here, our rich industry experience allows us to offer these machines in customized finish specifications so as to meet client’s specific work process requirements. Further, the offered machines being powerful and at the same time simple to operate, these come with most hold- down and shearing capabilities than any other industrial shear machine available in the market.

Request
Callback
Send Enquiry

Hydraulic Guillotine Shearing Machine

Hydraulic Guillotine Shearing Machine
  • Hydraulic Guillotine Shearing Machine
Get Best Quote
Approx. Price: Rs 7.5 Lakh / nosGet Latest Price

Product Details:

Minimum Order Quantity1 nos
ApplicationShearing Machine
Shearing Thickness6 MM x 3000 MM
Max Shear Thickness5-6 mm, 1-2 mm, 2-3 mm, 3-4 mm, 4-5 mm, >6 mm
Material to be ShearedCopper, Iron, Stainless Steel, Aluminum, Carbon Steel
Max Shear Width2000-3000 mm
Back Gauge Range750
Suitable For Welding Rod2-3mm, 1-2mm, 3-4mm
Motor10 HP
Cutting MaterialCopper Iron, Copper
Model NumberMHPL630
Stroke Per Minute24-6
Adjustable RakeYes
Automatic GradeAutomatic
Power Supply210 volt
I deal inNew Only
Hyd oil300 ltr
Lenght3585 MM
Widht1610 MM
Height1950 MM
Working Height850 MM
No of holding cylinder14
No. of Front Cylinder4
Length of squaring Arm1000 mm

GENERAL OVERVIEW :-

Shearing, also known as die cutting, is a process which cuts stock without the formation of chips or the use of burning or melting. In strict technical terms, the process of “shearing” involves the use of straight cutting bladesorm of sheet metal or plates, however rods can also be sheared. Shearing-type operations include: blanking, piercing, roll slitting, and trimming.
The machine used is called a squaring shear, power shear, or guillotine. The machine may be foot powered (or less commonly hand powered), or mechanically or hydraulically powered. It works by first clamping the material with a ram. A moving blade then comes down across a fixed blade to shear the material. For larger shears the moving blade may be set on an angle or “rocked” in order to shear the material progressively from one side to the other; this angle is referred to as the shear angle. This decreases the amount of force required, but increases the stroke. A 5 degree shear angle decreases the force by about 20%. The amount of energy used is still the same. The moving blade may also be inclined 0.5 to 2.5°, this angle is called the rake angle, to keep the material from becoming wedged between the blades, however it compromises the squareness of the edge. As far as equipment is concerned, the machine consists of a shear table, work-holding device, upper and lower blades, and a gauging device. The shear table is the part of the machinery that the workpiece rests on while being sheared. The work-holding device is used to hold the workpiece in place and keep it from moving or buckling while under stress. The upper and lower blades are the piece of machinery that actually do the cutting, while the gauging device is used to ensure that the workpiece is being cut where it is supposed to be.

 

A schematic showing positive (left) and negative (right) rake angles.

The design of press tools is an engineering compromise. A sharp edge, strength and durability are ideal, however a sharp edge is not very strong or durable so blades for metal work tend to be square-edged rather than knife-edged. Typical workpiece materials include aluminum, brass, bronze, and mild steel because of their outstanding shearability ratings, however, stainless steel is not used as much due to its tendencies to work-harden.
Other types of geometrical possibilities include the squaring shear, angle shear, bow-tie shear and bar shear. All of these have many different uses and are all used regularly in certain manufacturing fields.

 

We have with us rich industry experience in successfully handling the demands of precision engineered and optimum functionality based range of Shearing Presses. These are designed and developed to shear plates with clean square edges. Further, these come with close working tolerances with options of different rake angles. With our capability of offering these in different sizes, the superior box construction of these Shearing Machines provides in them desired structural rigidity.

Here, our rich industry experience allows us to offer these machines in customized finish specifications so as to meet client’s specific work process requirements. Further, the offered machines being powerful and at the same time simple to operate, these come with most hold- down and shearing capabilities than any other industrial shear machine available in the market.

Request
Callback


Additional Information:

  • Production Capacity: 6 MM X 3000 MM
  • Delivery Time: Ex- Stock
Send Enquiry

NC - Gulliotione Shearing Machine

NC - Gulliotione Shearing Machine
  • NC - Gulliotione Shearing Machine
Get Best Quote
Approx. Price: Rs 15.25 Lakh / UnitGet Latest Price

Product Details:

Minimum Order Quantity1 Unit
ApplicationNC Shearing machine
Product Type10 Mm x 2500 mm
Length3095 mm
Material to be ShearedStainless Steel, Aluminum, Copper, Iron, Carbon Steel
Max Shear Thickness4-5 mm, 5-6 mm, 3-4 mm
Max Shear Width2000-3000 mm
Suitable For Welding Rod2-3mm, 3-4mm
Cutting Capacity10 MM
I deal inNew Only
BrandMicro
Automatic GradeAutomatic
Length of cut2500 mm
motor Hp20 hp
Hyd oil250 ltr
Width2010 mm
Height2150 mm
Working Height850 mm

GENERAL OVERVIEW :-

Shearing, also known as die cutting, is a process which cuts stock without the formation of chips or the use of burning or melting. In strict technical terms, the process of “shearing” involves the use of straight cutting bladesorm of sheet metal or plates, however rods can also be sheared. Shearing-type operations include: blanking, piercing, roll slitting, and trimming.
The machine used is called a squaring shear, power shear, or guillotine. The machine may be foot powered (or less commonly hand powered), or mechanically or hydraulically powered. It works by first clamping the material with a ram. A moving blade then comes down across a fixed blade to shear the material. For larger shears the moving blade may be set on an angle or “rocked” in order to shear the material progressively from one side to the other; this angle is referred to as the shear angle. This decreases the amount of force required, but increases the stroke. A 5 degree shear angle decreases the force by about 20%. The amount of energy used is still the same. The moving blade may also be inclined 0.5 to 2.5°, this angle is called the rake angle, to keep the material from becoming wedged between the blades, however it compromises the squareness of the edge. As far as equipment is concerned, the machine consists of a shear table, work-holding device, upper and lower blades, and a gauging device. The shear table is the part of the machinery that the workpiece rests on while being sheared. The work-holding device is used to hold the workpiece in place and keep it from moving or buckling while under stress. The upper and lower blades are the piece of machinery that actually do the cutting, while the gauging device is used to ensure that the workpiece is being cut where it is supposed to be.

 

A schematic showing positive (left) and negative (right) rake angles.

The design of press tools is an engineering compromise. A sharp edge, strength and durability are ideal, however a sharp edge is not very strong or durable so blades for metal work tend to be square-edged rather than knife-edged. Typical workpiece materials include aluminum, brass, bronze, and mild steel because of their outstanding shearability ratings, however, stainless steel is not used as much due to its tendencies to work-harden.
Other types of geometrical possibilities include the squaring shear, angle shear, bow-tie shear and bar shear. All of these have many different uses and are all used regularly in certain manufacturing fields.

 

We have with us rich industry experience in successfully handling the demands of precision engineered and optimum functionality based range of Shearing Presses. These are designed and developed to shear plates with clean square edges. Further, these come with close working tolerances with options of different rake angles. With our capability of offering these in different sizes, the superior box construction of these Shearing Machines provides in them desired structural rigidity.

Here, our rich industry experience allows us to offer these machines in customized finish specifications so as to meet client’s specific work process requirements. Further, the offered machines being powerful and at the same time simple to operate, these come with most hold- down and shearing capabilities than any other industrial shear machine available in the market.

Request
Callback


Additional Information:

  • Production Capacity: 10 MM X 2500 MM
  • Delivery Time: Ex- Stock
Send Enquiry

NC - Gulliotione Shearing Machine

NC - Gulliotione Shearing Machine
  • NC - Gulliotione Shearing Machine
Get Best Quote
Approx. Price: Rs 7.45 Lakh / UnitGet Latest Price

Product Details:

Minimum Order Quantity1 Unit
ApplicationNC Shearing Machine
Product Type6 Mm x 2500 Mm
Cutting MaterialAluminium, Iron, Stainless Steel, Copper
Length3085 mm
Operation ModeAutomatic
Max Shear Thickness5 to 6 mm
Max Shear Width2000-3000 mm
Strokes per min28-8
BrandMicro
Automation GradeAutomatic
Cutting Capacity6 MM
I deal inNew Only
Length of cut2500 mm
Motor Hp10 hp
width1610 mm
Hyd Oil250
Height1950 mm
Working Height850 mm

GENERAL OVERVIEW :-

Shearing, also known as die cutting, is a process which cuts stock without the formation of chips or the use of burning or melting. In strict technical terms, the process of “shearing” involves the use of straight cutting bladesorm of sheet metal or plates, however rods can also be sheared. Shearing-type operations include: blanking, piercing, roll slitting, and trimming.
The machine used is called a squaring shear, power shear, or guillotine. The machine may be foot powered (or less commonly hand powered), or mechanically or hydraulically powered. It works by first clamping the material with a ram. A moving blade then comes down across a fixed blade to shear the material. For larger shears the moving blade may be set on an angle or “rocked” in order to shear the material progressively from one side to the other; this angle is referred to as the shear angle. This decreases the amount of force required, but increases the stroke. A 5 degree shear angle decreases the force by about 20%. The amount of energy used is still the same. The moving blade may also be inclined 0.5 to 2.5°, this angle is called the rake angle, to keep the material from becoming wedged between the blades, however it compromises the squareness of the edge. As far as equipment is concerned, the machine consists of a shear table, work-holding device, upper and lower blades, and a gauging device. The shear table is the part of the machinery that the workpiece rests on while being sheared. The work-holding device is used to hold the workpiece in place and keep it from moving or buckling while under stress. The upper and lower blades are the piece of machinery that actually do the cutting, while the gauging device is used to ensure that the workpiece is being cut where it is supposed to be.

 

A schematic showing positive (left) and negative (right) rake angles.

The design of press tools is an engineering compromise. A sharp edge, strength and durability are ideal, however a sharp edge is not very strong or durable so blades for metal work tend to be square-edged rather than knife-edged. Typical workpiece materials include aluminum, brass, bronze, and mild steel because of their outstanding shearability ratings, however, stainless steel is not used as much due to its tendencies to work-harden.
Other types of geometrical possibilities include the squaring shear, angle shear, bow-tie shear and bar shear. All of these have many different uses and are all used regularly in certain manufacturing fields.

 

We have with us rich industry experience in successfully handling the demands of precision engineered and optimum functionality based range of Shearing Presses. These are designed and developed to shear plates with clean square edges. Further, these come with close working tolerances with options of different rake angles. With our capability of offering these in different sizes, the superior box construction of these Shearing Machines provides in them desired structural rigidity.

Here, our rich industry experience allows us to offer these machines in customized finish specifications so as to meet client’s specific work process requirements. Further, the offered machines being powerful and at the same time simple to operate, these come with most hold- down and shearing capabilities than any other industrial shear machine available in the market.

Request
Callback


Additional Information:

  • Production Capacity: 6 MM X 2500 MM
  • Delivery Time: Ex- Stock
Send Enquiry

Guillotine Shearing Machine

Guillotine Shearing Machine
  • Guillotine Shearing Machine
Get Best Quote
Approx. Price: Rs 12.95 Lakh / notGet Latest Price

Product Details:

Minimum Order Quantity1 not
ApplicationShearing Machine
Product Type10 MM x 2500 MM
Max Shear Thickness5-6 mm, 4-5 mm, >6 mm
Material to be ShearedAluminum, Stainless Steel, Carbon Steel, Copper, Iron
Max Shear Width2000-3000 mm
Suitable For Welding Rod3-4mm
Back Gauge Range750
Capacity10 MM x 2500 MM
Automation GradeAutomatic
Motor20 Hp
Voltage210 vol
Model NumberMHPL1025
Stroke Per Minute20-6
I deal inNew Only
Automatic GradeAutomatic
Power Supply220 kg/cm2
Height2150 MM
Working Height850 MM
No of holding cyl12
No of front sheet3
length of squaring Arm1000 MM
Hyd Oil250
Length3095 MM
Width2010 MM

GENERAL OVERVIEW :-

Shearing, also known as die cutting, is a process which cuts stock without the formation of chips or the use of burning or melting. In strict technical terms, the process of “shearing” involves the use of straight cutting bladesorm of sheet metal or plates, however rods can also be sheared. Shearing-type operations include: blanking, piercing, roll slitting, and trimming.
The machine used is called a squaring shear, power shear, or guillotine. The machine may be foot powered (or less commonly hand powered), or mechanically or hydraulically powered. It works by first clamping the material with a ram. A moving blade then comes down across a fixed blade to shear the material. For larger shears the moving blade may be set on an angle or “rocked” in order to shear the material progressively from one side to the other; this angle is referred to as the shear angle. This decreases the amount of force required, but increases the stroke. A 5 degree shear angle decreases the force by about 20%. The amount of energy used is still the same. The moving blade may also be inclined 0.5 to 2.5°, this angle is called the rake angle, to keep the material from becoming wedged between the blades, however it compromises the squareness of the edge. As far as equipment is concerned, the machine consists of a shear table, work-holding device, upper and lower blades, and a gauging device. The shear table is the part of the machinery that the workpiece rests on while being sheared. The work-holding device is used to hold the workpiece in place and keep it from moving or buckling while under stress. The upper and lower blades are the piece of machinery that actually do the cutting, while the gauging device is used to ensure that the workpiece is being cut where it is supposed to be.

 

A schematic showing positive (left) and negative (right) rake angles.

The design of press tools is an engineering compromise. A sharp edge, strength and durability are ideal, however a sharp edge is not very strong or durable so blades for metal work tend to be square-edged rather than knife-edged. Typical workpiece materials include aluminum, brass, bronze, and mild steel because of their outstanding shearability ratings, however, stainless steel is not used as much due to its tendencies to work-harden.
Other types of geometrical possibilities include the squaring shear, angle shear, bow-tie shear and bar shear. All of these have many different uses and are all used regularly in certain manufacturing fields.

 

We have with us rich industry experience in successfully handling the demands of precision engineered and optimum functionality based range of Shearing Presses. These are designed and developed to shear plates with clean square edges. Further, these come with close working tolerances with options of different rake angles. With our capability of offering these in different sizes, the superior box construction of these Shearing Machines provides in them desired structural rigidity.

Here, our rich industry experience allows us to offer these machines in customized finish specifications so as to meet client’s specific work process requirements. Further, the offered machines being powerful and at the same time simple to operate, these come with most hold- down and shearing capabilities than any other industrial shear machine available in the market.

Request
Callback


Additional Information:

  • Production Capacity: 10 MM X 2500 MM
  • Delivery Time: Ex- Stock
Send Enquiry

NC - Gulliotione Shearing Machine

NC - Gulliotione Shearing Machine
  • NC - Gulliotione Shearing Machine
Get Best Quote
Approx. Price: Rs 38 Lakh / UnitGet Latest Price

Product Details:

Minimum Order Quantity1 Unit
ApplicationNC Shearing Machine
Product Type16 MM x 3000 mm
Material to be ShearedStainless Steel, Copper, Iron, Aluminum, Carbon Steel
Max Shear Thickness5-6 mm, 4-5 mm
Max Shear Width2000-3000 mm
Suitable For Welding Rod2-3mm, 3-4mm
Cutting Capacity16 mm
I deal inNew Only
BrandMicro
Automatic GradeAutomatic
Length of cut3000mm
motor hp25 Hp
Hyd Oil300 ltr
Width2010 mm
height2150 mm
Working Height850 mm

GENERAL OVERVIEW :-

Shearing, also known as die cutting, is a process which cuts stock without the formation of chips or the use of burning or melting. In strict technical terms, the process of “shearing” involves the use of straight cutting bladesorm of sheet metal or plates, however rods can also be sheared. Shearing-type operations include: blanking, piercing, roll slitting, and trimming.
The machine used is called a squaring shear, power shear, or guillotine. The machine may be foot powered (or less commonly hand powered), or mechanically or hydraulically powered. It works by first clamping the material with a ram. A moving blade then comes down across a fixed blade to shear the material. For larger shears the moving blade may be set on an angle or “rocked” in order to shear the material progressively from one side to the other; this angle is referred to as the shear angle. This decreases the amount of force required, but increases the stroke. A 5 degree shear angle decreases the force by about 20%. The amount of energy used is still the same. The moving blade may also be inclined 0.5 to 2.5°, this angle is called the rake angle, to keep the material from becoming wedged between the blades, however it compromises the squareness of the edge. As far as equipment is concerned, the machine consists of a shear table, work-holding device, upper and lower blades, and a gauging device. The shear table is the part of the machinery that the workpiece rests on while being sheared. The work-holding device is used to hold the workpiece in place and keep it from moving or buckling while under stress. The upper and lower blades are the piece of machinery that actually do the cutting, while the gauging device is used to ensure that the workpiece is being cut where it is supposed to be.

 

A schematic showing positive (left) and negative (right) rake angles.

The design of press tools is an engineering compromise. A sharp edge, strength and durability are ideal, however a sharp edge is not very strong or durable so blades for metal work tend to be square-edged rather than knife-edged. Typical workpiece materials include aluminum, brass, bronze, and mild steel because of their outstanding shearability ratings, however, stainless steel is not used as much due to its tendencies to work-harden.
Other types of geometrical possibilities include the squaring shear, angle shear, bow-tie shear and bar shear. All of these have many different uses and are all used regularly in certain manufacturing fields.

 

We have with us rich industry experience in successfully handling the demands of precision engineered and optimum functionality based range of Shearing Presses. These are designed and developed to shear plates with clean square edges. Further, these come with close working tolerances with options of different rake angles. With our capability of offering these in different sizes, the superior box construction of these Shearing Machines provides in them desired structural rigidity.

Here, our rich industry experience allows us to offer these machines in customized finish specifications so as to meet client’s specific work process requirements. Further, the offered machines being powerful and at the same time simple to operate, these come with most hold- down and shearing capabilities than any other industrial shear machine available in the market.

Request
Callback


Additional Information:

  • Production Capacity: 16 MM X 3000 MM
  • Delivery Time: Ex- Stock
Send Enquiry

NC - Gulliotione Shearing Machine

NC - Gulliotione Shearing Machine
  • NC - Gulliotione Shearing Machine
Get Best Quote
Approx. Price: Rs 15 Lakh / UnitGet Latest Price

Product Details:

Minimum Order Quantity1 Unit
ApplicationNC Shearing machine
Product Type10 Mm x 2000 mm
Length2595 mm
Material to be ShearedStainless Steel, Copper, Aluminum, Iron, Carbon Steel
Max Shear Thickness4-5 mm, 5-6 mm, 3-4 mm
Max Shear Width1000-2000 mm
Suitable For Welding Rod2-3mm
Cutting Capacity10 MM
I deal inNew Only
BrandMIcro
Automatic GradeAutomatic
Motor Hp20 Hp
Hyd Oil200 ltr
Width2010 mm
Length of Cut2000 mm
Height2150 mm
Working Height850 mm

GENERAL OVERVIEW :-

Shearing, also known as die cutting, is a process which cuts stock without the formation of chips or the use of burning or melting. In strict technical terms, the process of “shearing” involves the use of straight cutting bladesorm of sheet metal or plates, however rods can also be sheared. Shearing-type operations include: blanking, piercing, roll slitting, and trimming.
The machine used is called a squaring shear, power shear, or guillotine. The machine may be foot powered (or less commonly hand powered), or mechanically or hydraulically powered. It works by first clamping the material with a ram. A moving blade then comes down across a fixed blade to shear the material. For larger shears the moving blade may be set on an angle or “rocked” in order to shear the material progressively from one side to the other; this angle is referred to as the shear angle. This decreases the amount of force required, but increases the stroke. A 5 degree shear angle decreases the force by about 20%. The amount of energy used is still the same. The moving blade may also be inclined 0.5 to 2.5°, this angle is called the rake angle, to keep the material from becoming wedged between the blades, however it compromises the squareness of the edge. As far as equipment is concerned, the machine consists of a shear table, work-holding device, upper and lower blades, and a gauging device. The shear table is the part of the machinery that the workpiece rests on while being sheared. The work-holding device is used to hold the workpiece in place and keep it from moving or buckling while under stress. The upper and lower blades are the piece of machinery that actually do the cutting, while the gauging device is used to ensure that the workpiece is being cut where it is supposed to be.

 

A schematic showing positive (left) and negative (right) rake angles.

The design of press tools is an engineering compromise. A sharp edge, strength and durability are ideal, however a sharp edge is not very strong or durable so blades for metal work tend to be square-edged rather than knife-edged. Typical workpiece materials include aluminum, brass, bronze, and mild steel because of their outstanding shearability ratings, however, stainless steel is not used as much due to its tendencies to work-harden.
Other types of geometrical possibilities include the squaring shear, angle shear, bow-tie shear and bar shear. All of these have many different uses and are all used regularly in certain manufacturing fields.

 

We have with us rich industry experience in successfully handling the demands of precision engineered and optimum functionality based range of Shearing Presses. These are designed and developed to shear plates with clean square edges. Further, these come with close working tolerances with options of different rake angles. With our capability of offering these in different sizes, the superior box construction of these Shearing Machines provides in them desired structural rigidity.

Here, our rich industry experience allows us to offer these machines in customized finish specifications so as to meet client’s specific work process requirements. Further, the offered machines being powerful and at the same time simple to operate, these come with most hold- down and shearing capabilities than any other industrial shear machine available in the market.

Request
Callback


Additional Information:

  • Production Capacity: 10 MM X 2000 MM
  • Delivery Time: Ex- Stock
Send Enquiry

Hydraulic Guillotine Shearing Machine

Hydraulic Guillotine Shearing  Machine
  • Hydraulic Guillotine Shearing  Machine
Get Best Quote
Approx. Price: Rs 13.25 Lakh / notGet Latest Price

Product Details:

Minimum Order Quantity1 not
ApplicationShearing Machine
Product Type10 MM x 3000 MM
Max Shear Thickness4-5 mm, 5-6 mm, 2-3 mm, 1-2 mm, 3-4 mm
Material to be ShearedIron, Stainless Steel, Aluminum, Copper
Max Shear Width2000-3000 mm
Back Gauge Range750
Suitable For Welding Rod3-4mm
Capacity10 MM X 3000 MM
Motor20 HP
Voltage210 vol
Stroke Per Minute18-6
I deal inNew Only
Automatic GradeAutomatic
Power Supply220 Kg/cm2
Hyd oil300
Length3595 MM
Width2010 MM
Height2150 MM
Working Height850 MM
No of holding cyl14
No of front sheet4
Length of Squaring Arm1000 MM

GENERAL OVERVIEW :-

Shearing, also known as die cutting, is a process which cuts stock without the formation of chips or the use of burning or melting. In strict technical terms, the process of “shearing” involves the use of straight cutting bladesorm of sheet metal or plates, however rods can also be sheared. Shearing-type operations include: blanking, piercing, roll slitting, and trimming.
The machine used is called a squaring shear, power shear, or guillotine. The machine may be foot powered (or less commonly hand powered), or mechanically or hydraulically powered. It works by first clamping the material with a ram. A moving blade then comes down across a fixed blade to shear the material. For larger shears the moving blade may be set on an angle or “rocked” in order to shear the material progressively from one side to the other; this angle is referred to as the shear angle. This decreases the amount of force required, but increases the stroke. A 5 degree shear angle decreases the force by about 20%. The amount of energy used is still the same. The moving blade may also be inclined 0.5 to 2.5°, this angle is called the rake angle, to keep the material from becoming wedged between the blades, however it compromises the squareness of the edge. As far as equipment is concerned, the machine consists of a shear table, work-holding device, upper and lower blades, and a gauging device. The shear table is the part of the machinery that the workpiece rests on while being sheared. The work-holding device is used to hold the workpiece in place and keep it from moving or buckling while under stress. The upper and lower blades are the piece of machinery that actually do the cutting, while the gauging device is used to ensure that the workpiece is being cut where it is supposed to be.

 

A schematic showing positive (left) and negative (right) rake angles.

The design of press tools is an engineering compromise. A sharp edge, strength and durability are ideal, however a sharp edge is not very strong or durable so blades for metal work tend to be square-edged rather than knife-edged. Typical workpiece materials include aluminum, brass, bronze, and mild steel because of their outstanding shearability ratings, however, stainless steel is not used as much due to its tendencies to work-harden.
Other types of geometrical possibilities include the squaring shear, angle shear, bow-tie shear and bar shear. All of these have many different uses and are all used regularly in certain manufacturing fields.

 

We have with us rich industry experience in successfully handling the demands of precision engineered and optimum functionality based range of Shearing Presses. These are designed and developed to shear plates with clean square edges. Further, these come with close working tolerances with options of different rake angles. With our capability of offering these in different sizes, the superior box construction of these Shearing Machines provides in them desired structural rigidity.

Here, our rich industry experience allows us to offer these machines in customized finish specifications so as to meet client’s specific work process requirements. Further, the offered machines being powerful and at the same time simple to operate, these come with most hold- down and shearing capabilities than any other industrial shear machine available in the market.

Request
Callback


Additional Information:

  • Production Capacity: 10 MM X 3000 MM
  • Delivery Time: Ex- Stock
Send Enquiry

NC - Gulliotione Shearing Machine

NC - Gulliotione Shearing Machine
  • NC - Gulliotione Shearing Machine
Get Best Quote
Approx. Price: Rs 16.45 Lakh / UnitGet Latest Price

Product Details:

Minimum Order Quantity1 Unit
ApplicationNC Shearing machine
Product Type10 Mm x 3000 mm
Length3595 mm
Material to be ShearedCopper, Carbon Steel, Stainless Steel, Iron, Aluminum
Max Shear Thickness5-6 mm, 4-5 mm, 3-4 mm
Max Shear Width2000-3000 mm
Suitable For Welding Rod2-3mm, 3-4mm
Cutting Capacity10 MM
I deal inNew Only
Adjustable RakeYes
BrandMicro
Automatic GradeAutomatic
motor hp20 hp
width2010 MM
length of cut3000 mm
Hyd oil300 ltr
Heigth2150 mm
Working height850 mm

GENERAL OVERVIEW :-

Shearing, also known as die cutting, is a process which cuts stock without the formation of chips or the use of burning or melting. In strict technical terms, the process of “shearing” involves the use of straight cutting bladesorm of sheet metal or plates, however rods can also be sheared. Shearing-type operations include: blanking, piercing, roll slitting, and trimming.
The machine used is called a squaring shear, power shear, or guillotine. The machine may be foot powered (or less commonly hand powered), or mechanically or hydraulically powered. It works by first clamping the material with a ram. A moving blade then comes down across a fixed blade to shear the material. For larger shears the moving blade may be set on an angle or “rocked” in order to shear the material progressively from one side to the other; this angle is referred to as the shear angle. This decreases the amount of force required, but increases the stroke. A 5 degree shear angle decreases the force by about 20%. The amount of energy used is still the same. The moving blade may also be inclined 0.5 to 2.5°, this angle is called the rake angle, to keep the material from becoming wedged between the blades, however it compromises the squareness of the edge. As far as equipment is concerned, the machine consists of a shear table, work-holding device, upper and lower blades, and a gauging device. The shear table is the part of the machinery that the workpiece rests on while being sheared. The work-holding device is used to hold the workpiece in place and keep it from moving or buckling while under stress. The upper and lower blades are the piece of machinery that actually do the cutting, while the gauging device is used to ensure that the workpiece is being cut where it is supposed to be.

 

A schematic showing positive (left) and negative (right) rake angles.

The design of press tools is an engineering compromise. A sharp edge, strength and durability are ideal, however a sharp edge is not very strong or durable so blades for metal work tend to be square-edged rather than knife-edged. Typical workpiece materials include aluminum, brass, bronze, and mild steel because of their outstanding shearability ratings, however, stainless steel is not used as much due to its tendencies to work-harden.
Other types of geometrical possibilities include the squaring shear, angle shear, bow-tie shear and bar shear. All of these have many different uses and are all used regularly in certain manufacturing fields.

 

We have with us rich industry experience in successfully handling the demands of precision engineered and optimum functionality based range of Shearing Presses. These are designed and developed to shear plates with clean square edges. Further, these come with close working tolerances with options of different rake angles. With our capability of offering these in different sizes, the superior box construction of these Shearing Machines provides in them desired structural rigidity.

Here, our rich industry experience allows us to offer these machines in customized finish specifications so as to meet client’s specific work process requirements. Further, the offered machines being powerful and at the same time simple to operate, these come with most hold- down and shearing capabilities than any other industrial shear machine available in the market.

Request
Callback


Additional Information:

  • Production Capacity: 10 MM X 3000 MM
  • Delivery Time: Ex- Stock
Send Enquiry

NC - Gulliotione Shearing Machine

NC - Gulliotione Shearing Machine
  • NC - Gulliotione Shearing Machine
Get Best Quote
Approx. Price: Rs 5.65 Lakh / UnitGet Latest Price

Product Details:

Minimum Order Quantity1 Unit
ApplicationNC Shearing Machine
Product Type4 MM x 2500 MM
Length3060 MM
Material to be ShearedCopper, Aluminum, Stainless Steel, Carbon Steel, Iron
Max Shear Thickness3-4 mm, 4-5 mm
Max Shear Width2000-3000 mm
Suitable For Welding Rod2-3mm, 3-4mm
Cutting Capacity4 MM
I deal inNew Only
BrandMicro
Automatic GradeAutomatic
Length of cut2500 MM
Motor Hp7.5 HP
Hyd Oil250
Width1410 MM
Height1850 MM
Working Height850mm

GENERAL OVERVIEW :-

Shearing, also known as die cutting, is a process which cuts stock without the formation of chips or the use of burning or melting. In strict technical terms, the process of “shearing” involves the use of straight cutting bladesorm of sheet metal or plates, however rods can also be sheared. Shearing-type operations include: blanking, piercing, roll slitting, and trimming.
The machine used is called a squaring shear, power shear, or guillotine. The machine may be foot powered (or less commonly hand powered), or mechanically or hydraulically powered. It works by first clamping the material with a ram. A moving blade then comes down across a fixed blade to shear the material. For larger shears the moving blade may be set on an angle or “rocked” in order to shear the material progressively from one side to the other; this angle is referred to as the shear angle. This decreases the amount of force required, but increases the stroke. A 5 degree shear angle decreases the force by about 20%. The amount of energy used is still the same. The moving blade may also be inclined 0.5 to 2.5°, this angle is called the rake angle, to keep the material from becoming wedged between the blades, however it compromises the squareness of the edge. As far as equipment is concerned, the machine consists of a shear table, work-holding device, upper and lower blades, and a gauging device. The shear table is the part of the machinery that the workpiece rests on while being sheared. The work-holding device is used to hold the workpiece in place and keep it from moving or buckling while under stress. The upper and lower blades are the piece of machinery that actually do the cutting, while the gauging device is used to ensure that the workpiece is being cut where it is supposed to be.

 

A schematic showing positive (left) and negative (right) rake angles.

The design of press tools is an engineering compromise. A sharp edge, strength and durability are ideal, however a sharp edge is not very strong or durable so blades for metal work tend to be square-edged rather than knife-edged. Typical workpiece materials include aluminum, brass, bronze, and mild steel because of their outstanding shearability ratings, however, stainless steel is not used as much due to its tendencies to work-harden.
Other types of geometrical possibilities include the squaring shear, angle shear, bow-tie shear and bar shear. All of these have many different uses and are all used regularly in certain manufacturing fields.

 

We have with us rich industry experience in successfully handling the demands of precision engineered and optimum functionality based range of Shearing Presses. These are designed and developed to shear plates with clean square edges. Further, these come with close working tolerances with options of different rake angles. With our capability of offering these in different sizes, the superior box construction of these Shearing Machines provides in them desired structural rigidity.

Here, our rich industry experience allows us to offer these machines in customized finish specifications so as to meet client’s specific work process requirements. Further, the offered machines being powerful and at the same time simple to operate, these come with most hold- down and shearing capabilities than any other industrial shear machine available in the market.

Request
Callback


Additional Information:

  • Production Capacity: 4 MM X 2500 MM
  • Delivery Time: Ex- Stock
Send Enquiry

NC - Gulliotione Shearing Machine

NC - Gulliotione Shearing Machine
  • NC - Gulliotione Shearing Machine
Get Best Quote
Approx. Price: Rs 35 Lakh / UnitGet Latest Price

Product Details:

Minimum Order Quantity1 Unit
ApplicationNC Shearing Machine
Product Type16 MM x 2500 MM
Material to be ShearedCopper, Iron, Aluminum, Carbon Steel, Stainless Steel
Max Shear Thickness4-5 mm, 3-4 mm, 5-6 mm
Max Shear Width2000-3000 mm
Suitable For Welding Rod2-3mm, 3-4mm
Cutting Capacity16 MM
I deal inNew Only
BrandMicro
Automatic GradeAutomatic
Length of cut2500 mm
Motor hp25 hp
Hyd Oil250 ltr
Width2010 MM
Height2150 Mm
Working Height850 MM

GENERAL OVERVIEW :-

Shearing, also known as die cutting, is a process which cuts stock without the formation of chips or the use of burning or melting. In strict technical terms, the process of “shearing” involves the use of straight cutting bladesorm of sheet metal or plates, however rods can also be sheared. Shearing-type operations include: blanking, piercing, roll slitting, and trimming.
The machine used is called a squaring shear, power shear, or guillotine. The machine may be foot powered (or less commonly hand powered), or mechanically or hydraulically powered. It works by first clamping the material with a ram. A moving blade then comes down across a fixed blade to shear the material. For larger shears the moving blade may be set on an angle or “rocked” in order to shear the material progressively from one side to the other; this angle is referred to as the shear angle. This decreases the amount of force required, but increases the stroke. A 5 degree shear angle decreases the force by about 20%. The amount of energy used is still the same. The moving blade may also be inclined 0.5 to 2.5°, this angle is called the rake angle, to keep the material from becoming wedged between the blades, however it compromises the squareness of the edge. As far as equipment is concerned, the machine consists of a shear table, work-holding device, upper and lower blades, and a gauging device. The shear table is the part of the machinery that the workpiece rests on while being sheared. The work-holding device is used to hold the workpiece in place and keep it from moving or buckling while under stress. The upper and lower blades are the piece of machinery that actually do the cutting, while the gauging device is used to ensure that the workpiece is being cut where it is supposed to be.

 

A schematic showing positive (left) and negative (right) rake angles.

The design of press tools is an engineering compromise. A sharp edge, strength and durability are ideal, however a sharp edge is not very strong or durable so blades for metal work tend to be square-edged rather than knife-edged. Typical workpiece materials include aluminum, brass, bronze, and mild steel because of their outstanding shearability ratings, however, stainless steel is not used as much due to its tendencies to work-harden.
Other types of geometrical possibilities include the squaring shear, angle shear, bow-tie shear and bar shear. All of these have many different uses and are all used regularly in certain manufacturing fields.

 

We have with us rich industry experience in successfully handling the demands of precision engineered and optimum functionality based range of Shearing Presses. These are designed and developed to shear plates with clean square edges. Further, these come with close working tolerances with options of different rake angles. With our capability of offering these in different sizes, the superior box construction of these Shearing Machines provides in them desired structural rigidity.

Here, our rich industry experience allows us to offer these machines in customized finish specifications so as to meet client’s specific work process requirements. Further, the offered machines being powerful and at the same time simple to operate, these come with most hold- down and shearing capabilities than any other industrial shear machine available in the market.

Request
Callback


Additional Information:

  • Production Capacity: 16 MM X 2500 MM
  • Delivery Time: Ex- Stock
Send Enquiry

NC - Gulliotione Shearing Machine

NC - Gulliotione Shearing Machine
  • NC - Gulliotione Shearing Machine
Get Best Quote
Approx. Price: Rs 6.6 Lakh / UnitGet Latest Price

Product Details:

Minimum Order Quantity1 Unit
ApplicationNC- Shearing machine
Product Type6 MM x 2000 MM
Length2585 mm
Material to be ShearedCopper, Stainless Steel, Aluminum, Iron
Max Shear Width1000-2000 mm
Suitable For Welding Rod2-3mm, 3-4mm
Cutting Capacity6 MM
I deal inNew Only
BrandMicro
Automatic GradeAutomatic
height1950 mm
Working Height850 mm
Length of cut2000 mm
Motor Hp10 HP
Hyd Oil200
Width1610 mm

GENERAL OVERVIEW :-

Shearing, also known as die cutting, is a process which cuts stock without the formation of chips or the use of burning or melting. In strict technical terms, the process of “shearing” involves the use of straight cutting bladesorm of sheet metal or plates, however rods can also be sheared. Shearing-type operations include: blanking, piercing, roll slitting, and trimming.
The machine used is called a squaring shear, power shear, or guillotine. The machine may be foot powered (or less commonly hand powered), or mechanically or hydraulically powered. It works by first clamping the material with a ram. A moving blade then comes down across a fixed blade to shear the material. For larger shears the moving blade may be set on an angle or “rocked” in order to shear the material progressively from one side to the other; this angle is referred to as the shear angle. This decreases the amount of force required, but increases the stroke. A 5 degree shear angle decreases the force by about 20%. The amount of energy used is still the same. The moving blade may also be inclined 0.5 to 2.5°, this angle is called the rake angle, to keep the material from becoming wedged between the blades, however it compromises the squareness of the edge. As far as equipment is concerned, the machine consists of a shear table, work-holding device, upper and lower blades, and a gauging device. The shear table is the part of the machinery that the workpiece rests on while being sheared. The work-holding device is used to hold the workpiece in place and keep it from moving or buckling while under stress. The upper and lower blades are the piece of machinery that actually do the cutting, while the gauging device is used to ensure that the workpiece is being cut where it is supposed to be.

 

A schematic showing positive (left) and negative (right) rake angles.

The design of press tools is an engineering compromise. A sharp edge, strength and durability are ideal, however a sharp edge is not very strong or durable so blades for metal work tend to be square-edged rather than knife-edged. Typical workpiece materials include aluminum, brass, bronze, and mild steel because of their outstanding shearability ratings, however, stainless steel is not used as much due to its tendencies to work-harden.
Other types of geometrical possibilities include the squaring shear, angle shear, bow-tie shear and bar shear. All of these have many different uses and are all used regularly in certain manufacturing fields.

 

We have with us rich industry experience in successfully handling the demands of precision engineered and optimum functionality based range of Shearing Presses. These are designed and developed to shear plates with clean square edges. Further, these come with close working tolerances with options of different rake angles. With our capability of offering these in different sizes, the superior box construction of these Shearing Machines provides in them desired structural rigidity.

Here, our rich industry experience allows us to offer these machines in customized finish specifications so as to meet client’s specific work process requirements. Further, the offered machines being powerful and at the same time simple to operate, these come with most hold- down and shearing capabilities than any other industrial shear machine available in the market.

Request
Callback


Additional Information:

  • Production Capacity: 6 MM X 2000 MM
  • Delivery Time: Ex- Stock
Send Enquiry

Hydraulic Guillotine Shearing Machine

Hydraulic Guillotine Shearing  Machine
  • Hydraulic Guillotine Shearing  Machine
Get Best Quote
Approx. Price: Rs 7.65 Lakh / notGet Latest Price

Product Details:

Minimum Order Quantity1 not
ApplicationShearing machine
Product Type8 MM x 2000 MM
Shearing Thickness8 MM x 2000 MM
Max Shear Thickness3-4 mm, 2-3 mm, >6 mm, 5-6 mm, 1-2 mm, 4-5 mm
Material to be ShearedStainless Steel, Iron, Copper, Aluminum
Max Shear Width1000-2000 mm
Back Gauge Range750
Suitable For Welding Rod3-4mm
Cutting Force8 MM
Maximum Rake Angle2
Cutting MaterialCopper, Copper Iron, Stainless Steel
Motor Power15 HP
Stroke Per Minute24-8
Automatic GradeAutomatic
I deal inNew Only
Hyd Oil200 ltrs
Lenght2585 mm
Width2010 mm
Height2150 MM
Workinh height850 MM
No. of cylinder10
No. of front sheet3
Lenght of Squaring Arm1000 mm

Shearing, also known as die cutting, is a process which cuts stock without the formation of chips or the use of burning or melting. In strict technical terms, the process of “shearing” involves the use of straight cutting bladesorm of sheet metal or plates, however rods can also be sheared. Shearing-type operations include: blanking, piercing, roll slitting, and trimming.
The machine used is called a squaring shear, power shear, or guillotine. The machine may be foot powered (or less commonly hand powered), or mechanically or hydraulically powered. It works by first clamping the material with a ram. A moving blade then comes down across a fixed blade to shear the material. For larger shears the moving blade may be set on an angle or “rocked” in order to shear the material progressively from one side to the other; this angle is referred to as the shear angle. This decreases the amount of force required, but increases the stroke. A 5 degree shear angle decreases the force by about 20%. The amount of energy used is still the same. The moving blade may also be inclined 0.5 to 2.5°, this angle is called the rake angle, to keep the material from becoming wedged between the blades, however it compromises the squareness of the edge. As far as equipment is concerned, the machine consists of a shear table, work-holding device, upper and lower blades, and a gauging device. The shear table is the part of the machinery that the workpiece rests on while being sheared. The work-holding device is used to hold the workpiece in place and keep it from moving or buckling while under stress. The upper and lower blades are the piece of machinery that actually do the cutting, while the gauging device is used to ensure that the workpiece is being cut where it is supposed to be.

 

A schematic showing positive (left) and negative (right) rake angles.

The design of press tools is an engineering compromise. A sharp edge, strength and durability are ideal, however a sharp edge is not very strong or durable so blades for metal work tend to be square-edged rather than knife-edged. Typical workpiece materials include aluminum, brass, bronze, and mild steel because of their outstanding shearability ratings, however, stainless steel is not used as much due to its tendencies to work-harden.
Other types of geometrical possibilities include the squaring shear, angle shear, bow-tie shear and bar shear. All of these have many different uses and are all used regularly in certain manufacturing fields.

 

We have with us rich industry experience in successfully handling the demands of precision engineered and optimum functionality based range of Shearing Presses. These are designed and developed to shear plates with clean square edges. Further, these come with close working tolerances with options of different rake angles. With our capability of offering these in different sizes, the superior box construction of these Shearing Machines provides in them desired structural rigidity.

Here, our rich industry experience allows us to offer these machines in customized finish specifications so as to meet client’s specific work process requirements. Further, the offered machines being powerful and at the same time simple to operate, these come with most hold- down and shearing capabilities than any other industrial shear machine available in the market.

Request
Callback


Additional Information:

  • Production Capacity: 8 MM X 2000 MM
  • Delivery Time: Ex- Stock
Send Enquiry

NC - Gulliotione Shearing Machine

NC - Gulliotione Shearing Machine
  • NC - Gulliotione Shearing Machine
Get Best Quote
Approx. Price: Rs 11.25 Lakh / UnitGet Latest Price

Product Details:

Minimum Order Quantity1 Unit
ApplicationNC Shearing Machine
Product Type8 MM X 2500 MM
Length3085 MM
Material to be ShearedAluminum, Iron, Copper
Max Shear Thickness3-4 mm, 4-5 mm
Max Shear Width2000-3000 mm
Suitable For Welding Rod3-4mm
Cutting Capacity8 MM
I deal inNew Only
BrandMicro
Automatic GradeAutomatic
Length of Cut2500 mm
Motor Hp15 HP
Hyd Oil250
Width2010 mm
Height2150 mm
working Height850 mm

GENERAL OVERVIEW :-

Shearing, also known as die cutting, is a process which cuts stock without the formation of chips or the use of burning or melting. In strict technical terms, the process of “shearing” involves the use of straight cutting bladesorm of sheet metal or plates, however rods can also be sheared. Shearing-type operations include: blanking, piercing, roll slitting, and trimming.
The machine used is called a squaring shear, power shear, or guillotine. The machine may be foot powered (or less commonly hand powered), or mechanically or hydraulically powered. It works by first clamping the material with a ram. A moving blade then comes down across a fixed blade to shear the material. For larger shears the moving blade may be set on an angle or “rocked” in order to shear the material progressively from one side to the other; this angle is referred to as the shear angle. This decreases the amount of force required, but increases the stroke. A 5 degree shear angle decreases the force by about 20%. The amount of energy used is still the same. The moving blade may also be inclined 0.5 to 2.5°, this angle is called the rake angle, to keep the material from becoming wedged between the blades, however it compromises the squareness of the edge. As far as equipment is concerned, the machine consists of a shear table, work-holding device, upper and lower blades, and a gauging device. The shear table is the part of the machinery that the workpiece rests on while being sheared. The work-holding device is used to hold the workpiece in place and keep it from moving or buckling while under stress. The upper and lower blades are the piece of machinery that actually do the cutting, while the gauging device is used to ensure that the workpiece is being cut where it is supposed to be.

 

A schematic showing positive (left) and negative (right) rake angles.

The design of press tools is an engineering compromise. A sharp edge, strength and durability are ideal, however a sharp edge is not very strong or durable so blades for metal work tend to be square-edged rather than knife-edged. Typical workpiece materials include aluminum, brass, bronze, and mild steel because of their outstanding shearability ratings, however, stainless steel is not used as much due to its tendencies to work-harden.
Other types of geometrical possibilities include the squaring shear, angle shear, bow-tie shear and bar shear. All of these have many different uses and are all used regularly in certain manufacturing fields.

 

We have with us rich industry experience in successfully handling the demands of precision engineered and optimum functionality based range of Shearing Presses. These are designed and developed to shear plates with clean square edges. Further, these come with close working tolerances with options of different rake angles. With our capability of offering these in different sizes, the superior box construction of these Shearing Machines provides in them desired structural rigidity.

Here, our rich industry experience allows us to offer these machines in customized finish specifications so as to meet client’s specific work process requirements. Further, the offered machines being powerful and at the same time simple to operate, these come with most hold- down and shearing capabilities than any other industrial shear machine available in the market.

Request
Callback


Additional Information:

  • Production Capacity: 8 MM X 2500 MM
  • Delivery Time: Ex- Stock
Send Enquiry

Hydraulic Guillotine Shearing Machine

Hydraulic Guillotine Shearing Machine
  • Hydraulic Guillotine Shearing Machine
Get Best Quote
Approx. Price: Rs 6.25 Lakh / notGet Latest Price

Product Details:

Minimum Order Quantity1 not
ApplicationShearing machine
Product Type6 MM X 2000 MM
Max Shear Thickness4-5 mm, 1-2 mm, 2-3 mm, 5-6 mm, 3-4 mm
Material to be ShearedCopper, Iron, Aluminum, Carbon Steel, Stainless Steel
Max Shear Width1000-2000 mm
Suitable For Welding Rod2-3mm, 1-2mm, 3-4mm
Back Gauge Range750
Capacity6 MM X 2000 MM
Automation GradeAutomatic
Motor10 HP
Model NumberMHPL620
Stroke Per Minute22-7
I deal inNew Only
Power Supply210 vol
Hyd Oil200 Ltrs
Lenght2585 MM
Width1610 MM
Height1950 MM
Working height850 MM
no of front sheet3
Length of Squaring Arm1000 mm

GENERAL OVERVIEW :-

Shearing, also known as die cutting, is a process which cuts stock without the formation of chips or the use of burning or melting. In strict technical terms, the process of “shearing” involves the use of straight cutting bladesorm of sheet metal or plates, however rods can also be sheared. Shearing-type operations include: blanking, piercing, roll slitting, and trimming.
The machine used is called a squaring shear, power shear, or guillotine. The machine may be foot powered (or less commonly hand powered), or mechanically or hydraulically powered. It works by first clamping the material with a ram. A moving blade then comes down across a fixed blade to shear the material. For larger shears the moving blade may be set on an angle or “rocked” in order to shear the material progressively from one side to the other; this angle is referred to as the shear angle. This decreases the amount of force required, but increases the stroke. A 5 degree shear angle decreases the force by about 20%. The amount of energy used is still the same. The moving blade may also be inclined 0.5 to 2.5°, this angle is called the rake angle, to keep the material from becoming wedged between the blades, however it compromises the squareness of the edge. As far as equipment is concerned, the machine consists of a shear table, work-holding device, upper and lower blades, and a gauging device. The shear table is the part of the machinery that the workpiece rests on while being sheared. The work-holding device is used to hold the workpiece in place and keep it from moving or buckling while under stress. The upper and lower blades are the piece of machinery that actually do the cutting, while the gauging device is used to ensure that the workpiece is being cut where it is supposed to be.

 

A schematic showing positive (left) and negative (right) rake angles.

The design of press tools is an engineering compromise. A sharp edge, strength and durability are ideal, however a sharp edge is not very strong or durable so blades for metal work tend to be square-edged rather than knife-edged. Typical workpiece materials include aluminum, brass, bronze, and mild steel because of their outstanding shearability ratings, however, stainless steel is not used as much due to its tendencies to work-harden.
Other types of geometrical possibilities include the squaring shear, angle shear, bow-tie shear and bar shear. All of these have many different uses and are all used regularly in certain manufacturing fields.

 

We have with us rich industry experience in successfully handling the demands of precision engineered and optimum functionality based range of Shearing Presses. These are designed and developed to shear plates with clean square edges. Further, these come with close working tolerances with options of different rake angles. With our capability of offering these in different sizes, the superior box construction of these Shearing Machines provides in them desired structural rigidity.

Here, our rich industry experience allows us to offer these machines in customized finish specifications so as to meet client’s specific work process requirements. Further, the offered machines being powerful and at the same time simple to operate, these come with most hold- down and shearing capabilities than any other industrial shear machine available in the market.

Request
Callback


Additional Information:

  • Production Capacity: 6 MM X 2000 MM
  • Delivery Time: Ex- Stock
Send Enquiry

NC - Gulliotione Shearing Machine

NC - Gulliotione Shearing Machine
  • NC - Gulliotione Shearing Machine
Get Best Quote
Approx. Price: Rs 12.45 Lakh / UnitGet Latest Price

Product Details:

Minimum Order Quantity1 Unit
ApplicationNC Shearing machine
Product Type8 MM X 3000 MM
Length3585 mm
Material to be ShearedCopper, Iron, Aluminum, Carbon Steel, Stainless Steel
Max Shear Thickness2-3 mm
Max Shear Width2000-3000 mm
Suitable For Welding Rod2-3mm
I deal inNew Only
BrandMicro
Automatic GradeAutomatic
Capacity8 mm
Length of cut3000 mm
motor Hp15 Hp
Hyd Oil300
width2010 mm
Height2150 mm
Working Height850 mm

GENERAL OVERVIEW :-

Shearing, also known as die cutting, is a process which cuts stock without the formation of chips or the use of burning or melting. In strict technical terms, the process of “shearing” involves the use of straight cutting bladesorm of sheet metal or plates, however rods can also be sheared. Shearing-type operations include: blanking, piercing, roll slitting, and trimming.
The machine used is called a squaring shear, power shear, or guillotine. The machine may be foot powered (or less commonly hand powered), or mechanically or hydraulically powered. It works by first clamping the material with a ram. A moving blade then comes down across a fixed blade to shear the material. For larger shears the moving blade may be set on an angle or “rocked” in order to shear the material progressively from one side to the other; this angle is referred to as the shear angle. This decreases the amount of force required, but increases the stroke. A 5 degree shear angle decreases the force by about 20%. The amount of energy used is still the same. The moving blade may also be inclined 0.5 to 2.5°, this angle is called the rake angle, to keep the material from becoming wedged between the blades, however it compromises the squareness of the edge. As far as equipment is concerned, the machine consists of a shear table, work-holding device, upper and lower blades, and a gauging device. The shear table is the part of the machinery that the workpiece rests on while being sheared. The work-holding device is used to hold the workpiece in place and keep it from moving or buckling while under stress. The upper and lower blades are the piece of machinery that actually do the cutting, while the gauging device is used to ensure that the workpiece is being cut where it is supposed to be.

 

A schematic showing positive (left) and negative (right) rake angles.

The design of press tools is an engineering compromise. A sharp edge, strength and durability are ideal, however a sharp edge is not very strong or durable so blades for metal work tend to be square-edged rather than knife-edged. Typical workpiece materials include aluminum, brass, bronze, and mild steel because of their outstanding shearability ratings, however, stainless steel is not used as much due to its tendencies to work-harden.
Other types of geometrical possibilities include the squaring shear, angle shear, bow-tie shear and bar shear. All of these have many different uses and are all used regularly in certain manufacturing fields.

 

We have with us rich industry experience in successfully handling the demands of precision engineered and optimum functionality based range of Shearing Presses. These are designed and developed to shear plates with clean square edges. Further, these come with close working tolerances with options of different rake angles. With our capability of offering these in different sizes, the superior box construction of these Shearing Machines provides in them desired structural rigidity.

Here, our rich industry experience allows us to offer these machines in customized finish specifications so as to meet client’s specific work process requirements. Further, the offered machines being powerful and at the same time simple to operate, these come with most hold- down and shearing capabilities than any other industrial shear machine available in the market.

Request
Callback


Additional Information:

  • Production Capacity: 8 MM X 3000 MM
  • Delivery Time: Ex- Stock
Send Enquiry

Hydraulic Guillotine Shearing Machine

Hydraulic Guillotine Shearing Machine
  • Hydraulic Guillotine Shearing Machine
Get Best Quote
Approx. Price: Rs 5.75 Lakh / notGet Latest Price

Product Details:

Minimum Order Quantity1 not
ApplicationShearing machine
Product Type4 MM x 2500 MM
Shearing Thickness4 MM x 2500 MM
Max Shear Thickness3-4 mm, 2-3 mm, 4-5 mm, 1-2 mm
Material to be ShearedCopper, Iron, Aluminum, Carbon Steel
Max Shear Width2000-3000 mm
Suitable For Welding Rod2-3mm
Back Gauge Range750
Capacity4 MM X 2500 MM
Motor7.5 HP
Voltage210 volt
Model NumberMHPL420
Stroke Per Minute22-8
I deal inNew Only
Automatic GradeAutomatic
Power Supply220 kg/cm2
Hyd Oil250
Lenght3060 MM
Width1410 MM
Height1850 MM
No of holding cyl12
no of front sheet3
Length of Squaring Arm1000 MM

GENERAL OVERVIEW :-

Shearing, also known as die cutting, is a process which cuts stock without the formation of chips or the use of burning or melting. In strict technical terms, the process of “shearing” involves the use of straight cutting bladesorm of sheet metal or plates, however rods can also be sheared. Shearing-type operations include: blanking, piercing, roll slitting, and trimming.
The machine used is called a squaring shear, power shear, or guillotine. The machine may be foot powered (or less commonly hand powered), or mechanically or hydraulically powered. It works by first clamping the material with a ram. A moving blade then comes down across a fixed blade to shear the material. For larger shears the moving blade may be set on an angle or “rocked” in order to shear the material progressively from one side to the other; this angle is referred to as the shear angle. This decreases the amount of force required, but increases the stroke. A 5 degree shear angle decreases the force by about 20%. The amount of energy used is still the same. The moving blade may also be inclined 0.5 to 2.5°, this angle is called the rake angle, to keep the material from becoming wedged between the blades, however it compromises the squareness of the edge. As far as equipment is concerned, the machine consists of a shear table, work-holding device, upper and lower blades, and a gauging device. The shear table is the part of the machinery that the workpiece rests on while being sheared. The work-holding device is used to hold the workpiece in place and keep it from moving or buckling while under stress. The upper and lower blades are the piece of machinery that actually do the cutting, while the gauging device is used to ensure that the workpiece is being cut where it is supposed to be.

 

A schematic showing positive (left) and negative (right) rake angles.

The design of press tools is an engineering compromise. A sharp edge, strength and durability are ideal, however a sharp edge is not very strong or durable so blades for metal work tend to be square-edged rather than knife-edged. Typical workpiece materials include aluminum, brass, bronze, and mild steel because of their outstanding shearability ratings, however, stainless steel is not used as much due to its tendencies to work-harden.
Other types of geometrical possibilities include the squaring shear, angle shear, bow-tie shear and bar shear. All of these have many different uses and are all used regularly in certain manufacturing fields.

 

We have with us rich industry experience in successfully handling the demands of precision engineered and optimum functionality based range of Shearing Presses. These are designed and developed to shear plates with clean square edges. Further, these come with close working tolerances with options of different rake angles. With our capability of offering these in different sizes, the superior box construction of these Shearing Machines provides in them desired structural rigidity.

Here, our rich industry experience allows us to offer these machines in customized finish specifications so as to meet client’s specific work process requirements. Further, the offered machines being powerful and at the same time simple to operate, these come with most hold- down and shearing capabilities than any other industrial shear machine available in the market.

Request
Callback


Additional Information:

  • Production Capacity: 4 MM X 2500 MM
  • Delivery Time: Ex- Stock
Send Enquiry

NC - Gulliotione Shearing Machine

NC - Gulliotione Shearing Machine
  • NC - Gulliotione Shearing Machine
Get Best Quote
Approx. Price: Rs 4 Lakh / UnitGet Latest Price

Product Details:

Minimum Order Quantity1 Unit
ApplicationNC Shearing machine
Product Type4 MM x 2000 MM
Length2560 mm
Material to be ShearedCarbon Steel, Copper, Aluminum, Stainless Steel, Iron
Max Shear Thickness4-5 mm, 5-6 mm
Max Shear Width1000-2000 mm
Suitable For Welding Rod3-4mm, 1-2mm
Cutting Capacity4 MM
I deal inNew Only
BrandMicro
Automatic GradeAutomatic
Length of Cut2000 mm
Motor Hp7.5 Hp
Hyd Oil200 Ltr
Width1410 mm
Working Height850 MM
Height1850 MM

GENERAL OVERVIEW :-

Shearing, also known as die cutting, is a process which cuts stock without the formation of chips or the use of burning or melting. In strict technical terms, the process of “shearing” involves the use of straight cutting bladesorm of sheet metal or plates, however rods can also be sheared. Shearing-type operations include: blanking, piercing, roll slitting, and trimming.
The machine used is called a squaring shear, power shear, or guillotine. The machine may be foot powered (or less commonly hand powered), or mechanically or hydraulically powered. It works by first clamping the material with a ram. A moving blade then comes down across a fixed blade to shear the material. For larger shears the moving blade may be set on an angle or “rocked” in order to shear the material progressively from one side to the other; this angle is referred to as the shear angle. This decreases the amount of force required, but increases the stroke. A 5 degree shear angle decreases the force by about 20%. The amount of energy used is still the same. The moving blade may also be inclined 0.5 to 2.5°, this angle is called the rake angle, to keep the material from becoming wedged between the blades, however it compromises the squareness of the edge. As far as equipment is concerned, the machine consists of a shear table, work-holding device, upper and lower blades, and a gauging device. The shear table is the part of the machinery that the workpiece rests on while being sheared. The work-holding device is used to hold the workpiece in place and keep it from moving or buckling while under stress. The upper and lower blades are the piece of machinery that actually do the cutting, while the gauging device is used to ensure that the workpiece is being cut where it is supposed to be.

 

A schematic showing positive (left) and negative (right) rake angles.

The design of press tools is an engineering compromise. A sharp edge, strength and durability are ideal, however a sharp edge is not very strong or durable so blades for metal work tend to be square-edged rather than knife-edged. Typical workpiece materials include aluminum, brass, bronze, and mild steel because of their outstanding shearability ratings, however, stainless steel is not used as much due to its tendencies to work-harden.
Other types of geometrical possibilities include the squaring shear, angle shear, bow-tie shear and bar shear. All of these have many different uses and are all used regularly in certain manufacturing fields.

 

We have with us rich industry experience in successfully handling the demands of precision engineered and optimum functionality based range of Shearing Presses. These are designed and developed to shear plates with clean square edges. Further, these come with close working tolerances with options of different rake angles. With our capability of offering these in different sizes, the superior box construction of these Shearing Machines provides in them desired structural rigidity.

Here, our rich industry experience allows us to offer these machines in customized finish specifications so as to meet client’s specific work process requirements. Further, the offered machines being powerful and at the same time simple to operate, these come with most hold- down and shearing capabilities than any other industrial shear machine available in the market.

Request
Callback


Additional Information:

  • Production Capacity: 4 MM X 2000 MM
  • Delivery Time: Ex- Stock
Send Enquiry

Hydraulic Guillotine Shearing Machine

Hydraulic Guillotine Shearing Machine
  • Hydraulic Guillotine Shearing Machine
Get Best Quote
Approx. Price: Rs 6.5 Lakh / notGet Latest Price

Product Details:

Minimum Order Quantity1 not
ApplicationShearing machine
Product Type6 MM X 2500 MM
Shearing Thickness6 MM X 2500 MM
Max Shear Thickness1-2 mm, 3-4 mm, 4-5 mm, 2-3 mm
Material to be ShearedIron, Stainless Steel, Aluminum, Carbon Steel, Copper
Max Shear Width2000-3000 mm
Back Gauge Range750 MM
Suitable For Welding Rod2-3mm
Capacity6 MM
Motor10 HP
Stroke Per Minute28-8
I deal inNew Only
Automatic GradeAutomatic
Power Supply210 vol
Hyd oil250 ltr
Lenght3085 MM
Width1610 MM
Height1950 MM
Working height850 MM
No of holding cylinder12
no of front cylinder3
length of squaring arm1000 mm

GENERAL OVERVIEW :-

Shearing, also known as die cutting, is a process which cuts stock without the formation of chips or the use of burning or melting. In strict technical terms, the process of “shearing” involves the use of straight cutting bladesorm of sheet metal or plates, however rods can also be sheared. Shearing-type operations include: blanking, piercing, roll slitting, and trimming.
The machine used is called a squaring shear, power shear, or guillotine. The machine may be foot powered (or less commonly hand powered), or mechanically or hydraulically powered. It works by first clamping the material with a ram. A moving blade then comes down across a fixed blade to shear the material. For larger shears the moving blade may be set on an angle or “rocked” in order to shear the material progressively from one side to the other; this angle is referred to as the shear angle. This decreases the amount of force required, but increases the stroke. A 5 degree shear angle decreases the force by about 20%. The amount of energy used is still the same. The moving blade may also be inclined 0.5 to 2.5°, this angle is called the rake angle, to keep the material from becoming wedged between the blades, however it compromises the squareness of the edge. As far as equipment is concerned, the machine consists of a shear table, work-holding device, upper and lower blades, and a gauging device. The shear table is the part of the machinery that the workpiece rests on while being sheared. The work-holding device is used to hold the workpiece in place and keep it from moving or buckling while under stress. The upper and lower blades are the piece of machinery that actually do the cutting, while the gauging device is used to ensure that the workpiece is being cut where it is supposed to be.

 

A schematic showing positive (left) and negative (right) rake angles.

The design of press tools is an engineering compromise. A sharp edge, strength and durability are ideal, however a sharp edge is not very strong or durable so blades for metal work tend to be square-edged rather than knife-edged. Typical workpiece materials include aluminum, brass, bronze, and mild steel because of their outstanding shearability ratings, however, stainless steel is not used as much due to its tendencies to work-harden.
Other types of geometrical possibilities include the squaring shear, angle shear, bow-tie shear and bar shear. All of these have many different uses and are all used regularly in certain manufacturing fields.

 

We have with us rich industry experience in successfully handling the demands of precision engineered and optimum functionality based range of Shearing Presses. These are designed and developed to shear plates with clean square edges. Further, these come with close working tolerances with options of different rake angles. With our capability of offering these in different sizes, the superior box construction of these Shearing Machines provides in them desired structural rigidity.

Here, our rich industry experience allows us to offer these machines in customized finish specifications so as to meet client’s specific work process requirements. Further, the offered machines being powerful and at the same time simple to operate, these come with most hold- down and shearing capabilities than any other industrial shear machine available in the market.

Request
Callback


Additional Information:

  • Production Capacity: 6 MM X 2500 MM
  • Delivery Time: Ex- Stock
Send Enquiry

NC - Gulliotione Shearing Machine

NC - Gulliotione Shearing Machine
  • NC - Gulliotione Shearing Machine
Get Best Quote
Approx. Price: Rs 8.95 Lakh / UnitGet Latest Price

Product Details:

Minimum Order Quantity1 Unit
ApplicationNC- Shearing machine
Product Type6 MM x 3000 MM
Length3585 mm
Material to be ShearedCarbon Steel, Copper, Aluminum, Iron, Stainless Steel
Max Shear Thickness3-4 mm, 4-5 mm, 2-3 mm
Max Shear Width2000-3000 mm
Suitable For Welding Rod3-4mm
Cutting Capacity6 MM
I deal inNew Only
BrandMicro
Automatic GradeAutomatic
Motor Hp10 hp
Hyd Oil300
Length of cut3000 mm
Width1610 mm
Height1950 mm
Working Height850 Mm

GENERAL OVERVIEW :-

Shearing, also known as die cutting, is a process which cuts stock without the formation of chips or the use of burning or melting. In strict technical terms, the process of “shearing” involves the use of straight cutting bladesorm of sheet metal or plates, however rods can also be sheared. Shearing-type operations include: blanking, piercing, roll slitting, and trimming.
The machine used is called a squaring shear, power shear, or guillotine. The machine may be foot powered (or less commonly hand powered), or mechanically or hydraulically powered. It works by first clamping the material with a ram. A moving blade then comes down across a fixed blade to shear the material. For larger shears the moving blade may be set on an angle or “rocked” in order to shear the material progressively from one side to the other; this angle is referred to as the shear angle. This decreases the amount of force required, but increases the stroke. A 5 degree shear angle decreases the force by about 20%. The amount of energy used is still the same. The moving blade may also be inclined 0.5 to 2.5°, this angle is called the rake angle, to keep the material from becoming wedged between the blades, however it compromises the squareness of the edge. As far as equipment is concerned, the machine consists of a shear table, work-holding device, upper and lower blades, and a gauging device. The shear table is the part of the machinery that the workpiece rests on while being sheared. The work-holding device is used to hold the workpiece in place and keep it from moving or buckling while under stress. The upper and lower blades are the piece of machinery that actually do the cutting, while the gauging device is used to ensure that the workpiece is being cut where it is supposed to be.

 

A schematic showing positive (left) and negative (right) rake angles.

The design of press tools is an engineering compromise. A sharp edge, strength and durability are ideal, however a sharp edge is not very strong or durable so blades for metal work tend to be square-edged rather than knife-edged. Typical workpiece materials include aluminum, brass, bronze, and mild steel because of their outstanding shearability ratings, however, stainless steel is not used as much due to its tendencies to work-harden.
Other types of geometrical possibilities include the squaring shear, angle shear, bow-tie shear and bar shear. All of these have many different uses and are all used regularly in certain manufacturing fields.

 

We have with us rich industry experience in successfully handling the demands of precision engineered and optimum functionality based range of Shearing Presses. These are designed and developed to shear plates with clean square edges. Further, these come with close working tolerances with options of different rake angles. With our capability of offering these in different sizes, the superior box construction of these Shearing Machines provides in them desired structural rigidity.

Here, our rich industry experience allows us to offer these machines in customized finish specifications so as to meet client’s specific work process requirements. Further, the offered machines being powerful and at the same time simple to operate, these come with most hold- down and shearing capabilities than any other industrial shear machine available in the market.

Request
Callback


Additional Information:

  • Production Capacity: 6 MM X 3000 MM
  • Delivery Time: Ex- Stock
Send Enquiry

NC - Gulliotione Shearing Machine

NC - Gulliotione Shearing Machine
  • NC - Gulliotione Shearing Machine
Get Best Quote
Approx. Price: Rs 10 Lakh / UnitGet Latest Price

Product Details:

Minimum Order Quantity1 Unit
ApplicationNC Shearing Machine
Product Type8 MM x 2000 MM
Length2585 mm
Material to be ShearedStainless Steel, Copper, Aluminum, Iron
Max Shear Thickness5-6 mm
Max Shear Width1000-2000 mm
Suitable For Welding Rod2-3mm
Cutting Capacity8 MM
I deal inNew Only
BrandMicro
Automatic GradeAutomatic
Length of cut2000 MM
Motor hp15 HP
Hyd oil200
Width2010 mm
Height2150 mm
Working Height850 mm

GENERAL OVERVIEW :-

Shearing, also known as die cutting, is a process which cuts stock without the formation of chips or the use of burning or melting. In strict technical terms, the process of “shearing” involves the use of straight cutting bladesorm of sheet metal or plates, however rods can also be sheared. Shearing-type operations include: blanking, piercing, roll slitting, and trimming.
The machine used is called a squaring shear, power shear, or guillotine. The machine may be foot powered (or less commonly hand powered), or mechanically or hydraulically powered. It works by first clamping the material with a ram. A moving blade then comes down across a fixed blade to shear the material. For larger shears the moving blade may be set on an angle or “rocked” in order to shear the material progressively from one side to the other; this angle is referred to as the shear angle. This decreases the amount of force required, but increases the stroke. A 5 degree shear angle decreases the force by about 20%. The amount of energy used is still the same. The moving blade may also be inclined 0.5 to 2.5°, this angle is called the rake angle, to keep the material from becoming wedged between the blades, however it compromises the squareness of the edge. As far as equipment is concerned, the machine consists of a shear table, work-holding device, upper and lower blades, and a gauging device. The shear table is the part of the machinery that the workpiece rests on while being sheared. The work-holding device is used to hold the workpiece in place and keep it from moving or buckling while under stress. The upper and lower blades are the piece of machinery that actually do the cutting, while the gauging device is used to ensure that the workpiece is being cut where it is supposed to be.

 

A schematic showing positive (left) and negative (right) rake angles.

The design of press tools is an engineering compromise. A sharp edge, strength and durability are ideal, however a sharp edge is not very strong or durable so blades for metal work tend to be square-edged rather than knife-edged. Typical workpiece materials include aluminum, brass, bronze, and mild steel because of their outstanding shearability ratings, however, stainless steel is not used as much due to its tendencies to work-harden.
Other types of geometrical possibilities include the squaring shear, angle shear, bow-tie shear and bar shear. All of these have many different uses and are all used regularly in certain manufacturing fields.

 

We have with us rich industry experience in successfully handling the demands of precision engineered and optimum functionality based range of Shearing Presses. These are designed and developed to shear plates with clean square edges. Further, these come with close working tolerances with options of different rake angles. With our capability of offering these in different sizes, the superior box construction of these Shearing Machines provides in them desired structural rigidity.

Here, our rich industry experience allows us to offer these machines in customized finish specifications so as to meet client’s specific work process requirements. Further, the offered machines being powerful and at the same time simple to operate, these come with most hold- down and shearing capabilities than any other industrial shear machine available in the market.

Request
Callback


Additional Information:

  • Production Capacity: 8 MM X 2000 MM
  • Delivery Time: Ex- Stock
Send Enquiry

Hydraulic Guillotine Shearing Machine

Hydraulic Guillotine Shearing Machine
  • Hydraulic Guillotine Shearing Machine
Get Best Quote
Approx. Price: Rs 4.15 Lakh / notGet Latest Price

Product Details:

Minimum Order Quantity1 not
ApplicationShearing Machine
Product Type4 MM X 2000 MM
Max Shear Thickness1-2 mm, >6 mm, 2-3 mm, 3-4 mm, 4-5 mm, 5-6 mm
Material to be ShearedCarbon Steel, Copper, Stainless Steel, Iron, Aluminum
Max Shear Width1000-2000 mm
Back Gauge Range750
Suitable For Welding Rod2-3mm
Capacity4 MM X 2000 MM
Motor7.5 HP
Voltage210 volt
Stroke Per Minute24-10
I deal inNew Only
Automatic GradeAutomatic
Power Supply210 kg/cm2
Hyd oil200
Lenght2560 MM
Width1410 MM
Height1850 MM
Working Height850 MM
No of holding cyl10
no of front sheet3
length of squaring Arm1000 mm

GENERAL OVERVIEW :-

Shearing, also known as die cutting, is a process which cuts stock without the formation of chips or the use of burning or melting. In strict technical terms, the process of “shearing” involves the use of straight cutting bladesorm of sheet metal or plates, however rods can also be sheared. Shearing-type operations include: blanking, piercing, roll slitting, and trimming.
The machine used is called a squaring shear, power shear, or guillotine. The machine may be foot powered (or less commonly hand powered), or mechanically or hydraulically powered. It works by first clamping the material with a ram. A moving blade then comes down across a fixed blade to shear the material. For larger shears the moving blade may be set on an angle or “rocked” in order to shear the material progressively from one side to the other; this angle is referred to as the shear angle. This decreases the amount of force required, but increases the stroke. A 5 degree shear angle decreases the force by about 20%. The amount of energy used is still the same. The moving blade may also be inclined 0.5 to 2.5°, this angle is called the rake angle, to keep the material from becoming wedged between the blades, however it compromises the squareness of the edge. As far as equipment is concerned, the machine consists of a shear table, work-holding device, upper and lower blades, and a gauging device. The shear table is the part of the machinery that the workpiece rests on while being sheared. The work-holding device is used to hold the workpiece in place and keep it from moving or buckling while under stress. The upper and lower blades are the piece of machinery that actually do the cutting, while the gauging device is used to ensure that the workpiece is being cut where it is supposed to be.

 

A schematic showing positive (left) and negative (right) rake angles.

The design of press tools is an engineering compromise. A sharp edge, strength and durability are ideal, however a sharp edge is not very strong or durable so blades for metal work tend to be square-edged rather than knife-edged. Typical workpiece materials include aluminum, brass, bronze, and mild steel because of their outstanding shearability ratings, however, stainless steel is not used as much due to its tendencies to work-harden.
Other types of geometrical possibilities include the squaring shear, angle shear, bow-tie shear and bar shear. All of these have many different uses and are all used regularly in certain manufacturing fields.

 

We have with us rich industry experience in successfully handling the demands of precision engineered and optimum functionality based range of Shearing Presses. These are designed and developed to shear plates with clean square edges. Further, these come with close working tolerances with options of different rake angles. With our capability of offering these in different sizes, the superior box construction of these Shearing Machines provides in them desired structural rigidity.

Here, our rich industry experience allows us to offer these machines in customized finish specifications so as to meet client’s specific work process requirements. Further, the offered machines being powerful and at the same time simple to operate, these come with most hold- down and shearing capabilities than any other industrial shear machine available in the market.

Request
Callback


Additional Information:

  • Production Capacity: 4 MM X 2000 MM
  • Delivery Time: Ex- Stock
Send Enquiry

Hydraulic Guillotine Shearing Machine

Hydraulic Guillotine Shearing Machine
  • Hydraulic Guillotine Shearing Machine
Get Best Quote
Approx. Price: Rs 8.5 Lakh / notGet Latest Price

Product Details:

Minimum Order Quantity1 not
ApplicationShearing machine
Product Type10 MM x 2000 MM
Shearing Thickness10 MM x 2000 MM
Max Shear Thickness5-6 mm, >6 mm
Material to be ShearedCopper, Iron, Aluminum, Carbon Steel
Max Shear Width1000-2000 mm
Suitable For Welding Rod3-4mm
Back Gauge Range750
Capacity10 MM x 2000 MM
Motor15 Hp
Cutting MaterialStainless Steel, Copper Iron, Copper
Model NumberMHPL1020
Stroke Per Minute24-8
Voltage210 Volt
Automatic GradeAutomatic
Power Supply210 kg/cm2
I deal inNew Only
Hyd oil200
Length2595 MM
Width2010 MM
Height2150 MM
Working Height850 MM
No of holding cyl10
No of front sheet3
Length of squaring arm1000 mm

GENERAL OVERVIEW :-

Shearing, also known as die cutting, is a process which cuts stock without the formation of chips or the use of burning or melting. In strict technical terms, the process of “shearing” involves the use of straight cutting bladesorm of sheet metal or plates, however rods can also be sheared. Shearing-type operations include: blanking, piercing, roll slitting, and trimming.
The machine used is called a squaring shear, power shear, or guillotine. The machine may be foot powered (or less commonly hand powered), or mechanically or hydraulically powered. It works by first clamping the material with a ram. A moving blade then comes down across a fixed blade to shear the material. For larger shears the moving blade may be set on an angle or “rocked” in order to shear the material progressively from one side to the other; this angle is referred to as the shear angle. This decreases the amount of force required, but increases the stroke. A 5 degree shear angle decreases the force by about 20%. The amount of energy used is still the same. The moving blade may also be inclined 0.5 to 2.5°, this angle is called the rake angle, to keep the material from becoming wedged between the blades, however it compromises the squareness of the edge. As far as equipment is concerned, the machine consists of a shear table, work-holding device, upper and lower blades, and a gauging device. The shear table is the part of the machinery that the workpiece rests on while being sheared. The work-holding device is used to hold the workpiece in place and keep it from moving or buckling while under stress. The upper and lower blades are the piece of machinery that actually do the cutting, while the gauging device is used to ensure that the workpiece is being cut where it is supposed to be.

 

A schematic showing positive (left) and negative (right) rake angles.

The design of press tools is an engineering compromise. A sharp edge, strength and durability are ideal, however a sharp edge is not very strong or durable so blades for metal work tend to be square-edged rather than knife-edged. Typical workpiece materials include aluminum, brass, bronze, and mild steel because of their outstanding shearability ratings, however, stainless steel is not used as much due to its tendencies to work-harden.
Other types of geometrical possibilities include the squaring shear, angle shear, bow-tie shear and bar shear. All of these have many different uses and are all used regularly in certain manufacturing fields.

 

We have with us rich industry experience in successfully handling the demands of precision engineered and optimum functionality based range of Shearing Presses. These are designed and developed to shear plates with clean square edges. Further, these come with close working tolerances with options of different rake angles. With our capability of offering these in different sizes, the superior box construction of these Shearing Machines provides in them desired structural rigidity.

Here, our rich industry experience allows us to offer these machines in customized finish specifications so as to meet client’s specific work process requirements. Further, the offered machines being powerful and at the same time simple to operate, these come with most hold- down and shearing capabilities than any other industrial shear machine available in the market.

Request
Callback


Additional Information:

  • Production Capacity: 10 MM X 2000 MM
  • Delivery Time: Ex- Stock
Send Enquiry
X

Product Videos

Watch More Videos

Explore More Products

View All Products


Reach Us
Sumit Kumar (Managing Director & CEO)
Micro Hydro Technic Private Limited
D-64, HSIDC, Sector 37 Phase VI, Udyog Vihar
Sector 10A, Gurgaon - 122001, Gurugram, Haryana, India


Call Us


Send E-mail