Discover the power and precision of our Spring Calculator, designed to help engineers and designers create optimal spring solutions. Whether you’re calculating compression, tension, or torsion springs, our intuitive tool provides accurate and reliable results. Enhance your design process with this user-friendly calculator that supports various industry applications. By simplifying complex calculations, it saves you time while ensuring optimal spring performance. Experience the efficiency and convenience of our Spring Calculator today and take your projects to the next level.

Spring Calculator
Spring Force Calculator | Professional Spring Design Tool

Parameters

  • Minimum Working Load (P₁): The minimum force applied to the spring in Newtons.
  • Maximum Working Load (Pn): The maximum force applied to the spring in Newtons.
  • Working Stroke (h): The distance the spring travels between the minimum and maximum working load in millimeters.
  • Wire Diameter (d): The diameter of the spring wire in millimeters.
  • Mean Coil Diameter (D): The average diameter of the spring coils in millimeters.
  • Spring Type (Life): Classification of the spring based on its intended lifespan.
  • Spring Structure: The physical configuration or design of the spring.
  • Spring Material: The material used to manufacture the spring.
  • Shear Modulus (G): The material\’s resistance to shear deformation in MPa.
  • Elastic Modulus (E): The material\’s resistance to elastic deformation in MPa.
  • Tensile Strength Limit (σb): The maximum stress a material can withstand before breaking in MPa.
  • Spring Index (C): The ratio of the mean coil diameter to the wire diameter (D/d).
  • Wahl Factor (K): A correction factor used in spring stress calculations, dependent on the spring index.
  • Yield Limit (Ts): The maximum stress a material can withstand before permanent deformation occurs in MPa.

Calculator

Results

Spring Rate (P\’): 0 N/mm
Allowable Stress (τp): 0 MPa
Spring Index (C): 0
Wahl Factor (K): 0
Deflection at Minimum Load (F₁): 0 mm
Deflection at Maximum Load (Fn): 0 mm
Deflection at Solid Height (Fb): 0 mm
Load at Solid Height (Pb): 0 N
Number of Active Coils (n): 0
Total Coils (n₁): 0
Solid Height (Hb): 0 mm
Free Height (H₀): 0 mm
Pitch (t): 0 mm
Helix Angle (α): 0 degrees
Developed Length (L): 0 mm
Height-to-Diameter Ratio (b): 0
Maximum Shear Stress (τmax): 0 MPa
Fatigue Safety Factor (S): 0