Product Details:
Plate Thickness | 6 - 16 mm |
Back Gauge Travel | 750 mm |
Rake Angle | 1.30 - 2 |
Motor Power | 10 - 25 mm |
Hyd Oil | 200 - 500 L |
Length | 3040 - 4320 mm |
Width | 1610 - 2050 mm |
Height | 1620 - 2230 mm |
Working Hieght | 800 mm |
trokes per Minute at Full length | 8 - 18 |
Number of Holding cyl | 12 - 13 |
Number of Front Sheet Supports | 3 - 4 |
Length of Squaring Arm | 1000 mm |
Weight | Upto 15 mt |
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.
Product Details:
Minimum Order Quantity | 1 nos |
Application | Shearing Machine |
Shearing Thickness | 6 MM x 3000 MM |
Max Shear Thickness | 5-6 mm, 1-2 mm, 2-3 mm, 3-4 mm, 4-5 mm, >6 mm |
Material to be Sheared | Copper, Iron, Stainless Steel, Aluminum, Carbon Steel |
Max Shear Width | 2000-3000 mm |
Back Gauge Range | 750 |
Suitable For Welding Rod | 2-3mm, 1-2mm, 3-4mm |
Motor | 10 HP |
Cutting Material | Copper Iron, Copper |
Model Number | MHPL630 |
Stroke Per Minute | 24-6 |
Adjustable Rake | Yes |
Automatic Grade | Automatic |
Power Supply | 210 volt |
I deal in | New Only |
Hyd oil | 300 ltr |
Lenght | 3585 MM |
Widht | 1610 MM |
Height | 1950 MM |
Working Height | 850 MM |
No of holding cylinder | 14 |
No. of Front Cylinder | 4 |
Length of squaring Arm | 1000 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.
Additional Information:
Product Details:
Minimum Order Quantity | 1 Unit |
Application | NC Shearing machine |
Product Type | 10 Mm x 2500 mm |
Length | 3095 mm |
Material to be Sheared | Stainless Steel, Aluminum, Copper, Iron, Carbon Steel |
Max Shear Thickness | 4-5 mm, 5-6 mm, 3-4 mm |
Max Shear Width | 2000-3000 mm |
Suitable For Welding Rod | 2-3mm, 3-4mm |
Cutting Capacity | 10 MM |
I deal in | New Only |
Brand | Micro |
Automatic Grade | Automatic |
Length of cut | 2500 mm |
motor Hp | 20 hp |
Hyd oil | 250 ltr |
Width | 2010 mm |
Height | 2150 mm |
Working Height | 850 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.
Additional Information:
Product Details:
Minimum Order Quantity | 1 not |
Application | Shearing Machine |
Product Type | 10 MM x 2500 MM |
Max Shear Thickness | 5-6 mm, 4-5 mm, >6 mm |
Material to be Sheared | Aluminum, Stainless Steel, Carbon Steel, Copper, Iron |
Max Shear Width | 2000-3000 mm |
Suitable For Welding Rod | 3-4mm |
Back Gauge Range | 750 |
Capacity | 10 MM x 2500 MM |
Automation Grade | Automatic |
Motor | 20 Hp |
Voltage | 210 vol |
Model Number | MHPL1025 |
Stroke Per Minute | 20-6 |
I deal in | New Only |
Automatic Grade | Automatic |
Power Supply | 220 kg/cm2 |
Height | 2150 MM |
Working Height | 850 MM |
No of holding cyl | 12 |
No of front sheet | 3 |
length of squaring Arm | 1000 MM |
Hyd Oil | 250 |
Length | 3095 MM |
Width | 2010 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.
Additional Information:
Product Details:
Minimum Order Quantity | 1 Unit |
Application | NC Shearing Machine |
Product Type | 6 Mm x 2500 Mm |
Cutting Material | Aluminium, Iron, Stainless Steel, Copper |
Length | 3085 mm |
Operation Mode | Automatic |
Max Shear Thickness | 5 to 6 mm |
Max Shear Width | 2000-3000 mm |
Strokes per min | 28-8 |
Brand | Micro |
Automation Grade | Automatic |
Cutting Capacity | 6 MM |
I deal in | New Only |
Length of cut | 2500 mm |
Motor Hp | 10 hp |
width | 1610 mm |
Hyd Oil | 250 |
Height | 1950 mm |
Working Height | 850 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.
Additional Information:
Product Details:
Minimum Order Quantity | 1 Unit |
Application | NC Shearing Machine |
Product Type | 16 MM x 3000 mm |
Material to be Sheared | Stainless Steel, Copper, Iron, Aluminum, Carbon Steel |
Max Shear Thickness | 5-6 mm, 4-5 mm |
Max Shear Width | 2000-3000 mm |
Suitable For Welding Rod | 2-3mm, 3-4mm |
Cutting Capacity | 16 mm |
I deal in | New Only |
Brand | Micro |
Automatic Grade | Automatic |
Length of cut | 3000mm |
motor hp | 25 Hp |
Hyd Oil | 300 ltr |
Width | 2010 mm |
height | 2150 mm |
Working Height | 850 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.
Additional Information:
Product Details:
Minimum Order Quantity | 1 Unit |
Application | NC Shearing machine |
Product Type | 10 Mm x 2000 mm |
Length | 2595 mm |
Material to be Sheared | Stainless Steel, Copper, Aluminum, Iron, Carbon Steel |
Max Shear Thickness | 4-5 mm, 5-6 mm, 3-4 mm |
Max Shear Width | 1000-2000 mm |
Suitable For Welding Rod | 2-3mm |
Cutting Capacity | 10 MM |
I deal in | New Only |
Brand | MIcro |
Automatic Grade | Automatic |
Motor Hp | 20 Hp |
Hyd Oil | 200 ltr |
Width | 2010 mm |
Length of Cut | 2000 mm |
Height | 2150 mm |
Working Height | 850 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.
Additional Information:
Product Details:
Minimum Order Quantity | 1 not |
Application | Shearing Machine |
Product Type | 10 MM x 3000 MM |
Max Shear Thickness | 4-5 mm, 5-6 mm, 2-3 mm, 1-2 mm, 3-4 mm |
Material to be Sheared | Iron, Stainless Steel, Aluminum, Copper |
Max Shear Width | 2000-3000 mm |
Back Gauge Range | 750 |
Suitable For Welding Rod | 3-4mm |
Capacity | 10 MM X 3000 MM |
Motor | 20 HP |
Voltage | 210 vol |
Stroke Per Minute | 18-6 |
I deal in | New Only |
Automatic Grade | Automatic |
Power Supply | 220 Kg/cm2 |
Hyd oil | 300 |
Length | 3595 MM |
Width | 2010 MM |
Height | 2150 MM |
Working Height | 850 MM |
No of holding cyl | 14 |
No of front sheet | 4 |
Length of Squaring Arm | 1000 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.
Additional Information:
Product Details:
Minimum Order Quantity | 1 Unit |
Application | NC Shearing machine |
Product Type | 10 Mm x 3000 mm |
Length | 3595 mm |
Material to be Sheared | Copper, Carbon Steel, Stainless Steel, Iron, Aluminum |
Max Shear Thickness | 5-6 mm, 4-5 mm, 3-4 mm |
Max Shear Width | 2000-3000 mm |
Suitable For Welding Rod | 2-3mm, 3-4mm |
Cutting Capacity | 10 MM |
I deal in | New Only |
Adjustable Rake | Yes |
Brand | Micro |
Automatic Grade | Automatic |
motor hp | 20 hp |
width | 2010 MM |
length of cut | 3000 mm |
Hyd oil | 300 ltr |
Heigth | 2150 mm |
Working height | 850 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.
Additional Information:
Product Details:
Minimum Order Quantity | 1 Unit |
Application | NC Shearing Machine |
Product Type | 4 MM x 2500 MM |
Length | 3060 MM |
Material to be Sheared | Copper, Aluminum, Stainless Steel, Carbon Steel, Iron |
Max Shear Thickness | 3-4 mm, 4-5 mm |
Max Shear Width | 2000-3000 mm |
Suitable For Welding Rod | 2-3mm, 3-4mm |
Cutting Capacity | 4 MM |
I deal in | New Only |
Brand | Micro |
Automatic Grade | Automatic |
Length of cut | 2500 MM |
Motor Hp | 7.5 HP |
Hyd Oil | 250 |
Width | 1410 MM |
Height | 1850 MM |
Working Height | 850mm |
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.
Additional Information:
Product Details:
Minimum Order Quantity | 1 Unit |
Application | NC Shearing Machine |
Product Type | 16 MM x 2500 MM |
Material to be Sheared | Copper, Iron, Aluminum, Carbon Steel, Stainless Steel |
Max Shear Thickness | 4-5 mm, 3-4 mm, 5-6 mm |
Max Shear Width | 2000-3000 mm |
Suitable For Welding Rod | 2-3mm, 3-4mm |
Cutting Capacity | 16 MM |
I deal in | New Only |
Brand | Micro |
Automatic Grade | Automatic |
Length of cut | 2500 mm |
Motor hp | 25 hp |
Hyd Oil | 250 ltr |
Width | 2010 MM |
Height | 2150 Mm |
Working Height | 850 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.
Additional Information:
Product Details:
Minimum Order Quantity | 1 Unit |
Application | NC- Shearing machine |
Product Type | 6 MM x 2000 MM |
Length | 2585 mm |
Material to be Sheared | Copper, Stainless Steel, Aluminum, Iron |
Max Shear Width | 1000-2000 mm |
Suitable For Welding Rod | 2-3mm, 3-4mm |
Cutting Capacity | 6 MM |
I deal in | New Only |
Brand | Micro |
Automatic Grade | Automatic |
height | 1950 mm |
Working Height | 850 mm |
Length of cut | 2000 mm |
Motor Hp | 10 HP |
Hyd Oil | 200 |
Width | 1610 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.
Additional Information:
Product Details:
Minimum Order Quantity | 1 not |
Application | Shearing machine |
Product Type | 8 MM x 2000 MM |
Shearing Thickness | 8 MM x 2000 MM |
Max Shear Thickness | 3-4 mm, 2-3 mm, >6 mm, 5-6 mm, 1-2 mm, 4-5 mm |
Material to be Sheared | Stainless Steel, Iron, Copper, Aluminum |
Max Shear Width | 1000-2000 mm |
Back Gauge Range | 750 |
Suitable For Welding Rod | 3-4mm |
Cutting Force | 8 MM |
Maximum Rake Angle | 2 |
Cutting Material | Copper, Copper Iron, Stainless Steel |
Motor Power | 15 HP |
Stroke Per Minute | 24-8 |
Automatic Grade | Automatic |
I deal in | New Only |
Hyd Oil | 200 ltrs |
Lenght | 2585 mm |
Width | 2010 mm |
Height | 2150 MM |
Workinh height | 850 MM |
No. of cylinder | 10 |
No. of front sheet | 3 |
Lenght of Squaring Arm | 1000 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.
Additional Information:
Product Details:
Minimum Order Quantity | 1 Unit |
Application | NC Shearing Machine |
Product Type | 8 MM X 2500 MM |
Length | 3085 MM |
Material to be Sheared | Aluminum, Iron, Copper |
Max Shear Thickness | 3-4 mm, 4-5 mm |
Max Shear Width | 2000-3000 mm |
Suitable For Welding Rod | 3-4mm |
Cutting Capacity | 8 MM |
I deal in | New Only |
Brand | Micro |
Automatic Grade | Automatic |
Length of Cut | 2500 mm |
Motor Hp | 15 HP |
Hyd Oil | 250 |
Width | 2010 mm |
Height | 2150 mm |
working Height | 850 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.
Additional Information:
Product Details:
Minimum Order Quantity | 1 not |
Application | Shearing machine |
Product Type | 6 MM X 2000 MM |
Max Shear Thickness | 4-5 mm, 1-2 mm, 2-3 mm, 5-6 mm, 3-4 mm |
Material to be Sheared | Copper, Iron, Aluminum, Carbon Steel, Stainless Steel |
Max Shear Width | 1000-2000 mm |
Suitable For Welding Rod | 2-3mm, 1-2mm, 3-4mm |
Back Gauge Range | 750 |
Capacity | 6 MM X 2000 MM |
Automation Grade | Automatic |
Motor | 10 HP |
Model Number | MHPL620 |
Stroke Per Minute | 22-7 |
I deal in | New Only |
Power Supply | 210 vol |
Hyd Oil | 200 Ltrs |
Lenght | 2585 MM |
Width | 1610 MM |
Height | 1950 MM |
Working height | 850 MM |
no of front sheet | 3 |
Length of Squaring Arm | 1000 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.
Additional Information:
Product Details:
Minimum Order Quantity | 1 Unit |
Application | NC Shearing machine |
Product Type | 8 MM X 3000 MM |
Length | 3585 mm |
Material to be Sheared | Copper, Iron, Aluminum, Carbon Steel, Stainless Steel |
Max Shear Thickness | 2-3 mm |
Max Shear Width | 2000-3000 mm |
Suitable For Welding Rod | 2-3mm |
I deal in | New Only |
Brand | Micro |
Automatic Grade | Automatic |
Capacity | 8 mm |
Length of cut | 3000 mm |
motor Hp | 15 Hp |
Hyd Oil | 300 |
width | 2010 mm |
Height | 2150 mm |
Working Height | 850 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.
Additional Information:
Product Details:
Minimum Order Quantity | 1 not |
Application | Shearing machine |
Product Type | 4 MM x 2500 MM |
Shearing Thickness | 4 MM x 2500 MM |
Max Shear Thickness | 3-4 mm, 2-3 mm, 4-5 mm, 1-2 mm |
Material to be Sheared | Copper, Iron, Aluminum, Carbon Steel |
Max Shear Width | 2000-3000 mm |
Suitable For Welding Rod | 2-3mm |
Back Gauge Range | 750 |
Capacity | 4 MM X 2500 MM |
Motor | 7.5 HP |
Voltage | 210 volt |
Model Number | MHPL420 |
Stroke Per Minute | 22-8 |
I deal in | New Only |
Automatic Grade | Automatic |
Power Supply | 220 kg/cm2 |
Hyd Oil | 250 |
Lenght | 3060 MM |
Width | 1410 MM |
Height | 1850 MM |
No of holding cyl | 12 |
no of front sheet | 3 |
Length of Squaring Arm | 1000 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.
Additional Information:
Product Details:
Minimum Order Quantity | 1 Unit |
Application | NC Shearing machine |
Product Type | 4 MM x 2000 MM |
Length | 2560 mm |
Material to be Sheared | Carbon Steel, Copper, Aluminum, Stainless Steel, Iron |
Max Shear Thickness | 4-5 mm, 5-6 mm |
Max Shear Width | 1000-2000 mm |
Suitable For Welding Rod | 3-4mm, 1-2mm |
Cutting Capacity | 4 MM |
I deal in | New Only |
Brand | Micro |
Automatic Grade | Automatic |
Length of Cut | 2000 mm |
Motor Hp | 7.5 Hp |
Hyd Oil | 200 Ltr |
Width | 1410 mm |
Working Height | 850 MM |
Height | 1850 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.
Additional Information:
Product Details:
Minimum Order Quantity | 1 not |
Application | Shearing machine |
Product Type | 6 MM X 2500 MM |
Shearing Thickness | 6 MM X 2500 MM |
Max Shear Thickness | 1-2 mm, 3-4 mm, 4-5 mm, 2-3 mm |
Material to be Sheared | Iron, Stainless Steel, Aluminum, Carbon Steel, Copper |
Max Shear Width | 2000-3000 mm |
Back Gauge Range | 750 MM |
Suitable For Welding Rod | 2-3mm |
Capacity | 6 MM |
Motor | 10 HP |
Stroke Per Minute | 28-8 |
I deal in | New Only |
Automatic Grade | Automatic |
Power Supply | 210 vol |
Hyd oil | 250 ltr |
Lenght | 3085 MM |
Width | 1610 MM |
Height | 1950 MM |
Working height | 850 MM |
No of holding cylinder | 12 |
no of front cylinder | 3 |
length of squaring arm | 1000 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.
Additional Information:
Product Details:
Minimum Order Quantity | 1 Unit |
Application | NC- Shearing machine |
Product Type | 6 MM x 3000 MM |
Length | 3585 mm |
Material to be Sheared | Carbon Steel, Copper, Aluminum, Iron, Stainless Steel |
Max Shear Thickness | 3-4 mm, 4-5 mm, 2-3 mm |
Max Shear Width | 2000-3000 mm |
Suitable For Welding Rod | 3-4mm |
Cutting Capacity | 6 MM |
I deal in | New Only |
Brand | Micro |
Automatic Grade | Automatic |
Motor Hp | 10 hp |
Hyd Oil | 300 |
Length of cut | 3000 mm |
Width | 1610 mm |
Height | 1950 mm |
Working Height | 850 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.
Additional Information:
Product Details:
Minimum Order Quantity | 1 Unit |
Application | NC Shearing Machine |
Product Type | 8 MM x 2000 MM |
Length | 2585 mm |
Material to be Sheared | Stainless Steel, Copper, Aluminum, Iron |
Max Shear Thickness | 5-6 mm |
Max Shear Width | 1000-2000 mm |
Suitable For Welding Rod | 2-3mm |
Cutting Capacity | 8 MM |
I deal in | New Only |
Brand | Micro |
Automatic Grade | Automatic |
Length of cut | 2000 MM |
Motor hp | 15 HP |
Hyd oil | 200 |
Width | 2010 mm |
Height | 2150 mm |
Working Height | 850 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.
Additional Information:
Product Details:
Minimum Order Quantity | 1 not |
Application | Shearing Machine |
Product Type | 4 MM X 2000 MM |
Max Shear Thickness | 1-2 mm, >6 mm, 2-3 mm, 3-4 mm, 4-5 mm, 5-6 mm |
Material to be Sheared | Carbon Steel, Copper, Stainless Steel, Iron, Aluminum |
Max Shear Width | 1000-2000 mm |
Back Gauge Range | 750 |
Suitable For Welding Rod | 2-3mm |
Capacity | 4 MM X 2000 MM |
Motor | 7.5 HP |
Voltage | 210 volt |
Stroke Per Minute | 24-10 |
I deal in | New Only |
Automatic Grade | Automatic |
Power Supply | 210 kg/cm2 |
Hyd oil | 200 |
Lenght | 2560 MM |
Width | 1410 MM |
Height | 1850 MM |
Working Height | 850 MM |
No of holding cyl | 10 |
no of front sheet | 3 |
length of squaring Arm | 1000 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.
Additional Information:
Product Details:
Minimum Order Quantity | 1 not |
Application | Shearing machine |
Product Type | 10 MM x 2000 MM |
Shearing Thickness | 10 MM x 2000 MM |
Max Shear Thickness | 5-6 mm, >6 mm |
Material to be Sheared | Copper, Iron, Aluminum, Carbon Steel |
Max Shear Width | 1000-2000 mm |
Suitable For Welding Rod | 3-4mm |
Back Gauge Range | 750 |
Capacity | 10 MM x 2000 MM |
Motor | 15 Hp |
Cutting Material | Stainless Steel, Copper Iron, Copper |
Model Number | MHPL1020 |
Stroke Per Minute | 24-8 |
Voltage | 210 Volt |
Automatic Grade | Automatic |
Power Supply | 210 kg/cm2 |
I deal in | New Only |
Hyd oil | 200 |
Length | 2595 MM |
Width | 2010 MM |
Height | 2150 MM |
Working Height | 850 MM |
No of holding cyl | 10 |
No of front sheet | 3 |
Length of squaring arm | 1000 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.
Additional Information: