Drawing Force Calculator

Drawing Force Calculator:

Enter the values of constant, C_(in), thickness of the material, T_(in) and tensile strength of the material, S_(lbf/in2) to determine the value of drawing Force, FD_(lbf).

Enter Process Constant :		in
Enter Thickness of the Material :		in
Enter Tensile Strength :		lbf/in2
Result – Drawing Force :		lbf

Drawing Force Formula:

The drawing force in a manufacturing context refers to the force required to draw material through a die to reduce its cross-section. This process is common in wire and sheet metal manufacturing.

Drawing Force, FD_(lbf) in pounds-force, is calculated by multiplying the process constant, C_(in) in inches, the thickness of the material, T_(in) in inches, and the ultimate tensile strength of the material, S_(lbf/in2) in pounds-force per square inch.

Drawing Force, FD_(lbf) = C_(in) * T_(in) * S_(lbf/in2)

FD_(lbf) = drawing force in pounds-force, lbf.

C_(in) = process constant in inches, in.

T_(in) = thickness of the material in inches, in.

S_(lbf/in2) = tensile strength in pounds-force per square inches,

Drawing Force:

1. Calculate the force required to draw a wire through a die.

Given: C_(in) =  0.3 inches, T_(in) = 0.1 inches, S_(lbf/in2) = 50,000 lbf/in².

Drawing Force, FD_(lbf) = C_(in) * T_(in) * S_(lbf/in2)

FD_(lbf) = 0.3 * 0.1 * 50,000

FD_(lbf) = 1500lbf.

2. Assume you have a drawing force of 1,200 pounds-force, a process and material constant of 0.2 inches, and the thickness of the material is 0.1 inches. Calculate the ultimate tensile strength of the material.

Given: C_(in) =  0.2 inches, T_(in) = 0.1 inches, FD_(lbf) = 1200lbf.

Drawing Force, FD_(lbf) = C_(in) * T_(in) * S_(lbf/in2)

S_(lbf/in2) = FD_(lbf) / C_(in) * T_(in)

S_(lbf/in2) = 1200 / 0.2 * 0.1

S_(lbf/in2) = 60000 lbf/in².