Disc Spring Stack Design | Belleville Washer Stack RFQ product image

Engineered for Reliable Load Control

Series and parallel Belleville washer stacks engineered for target load, travel, preload retention, material choice and installation height.

  • DIN 2093 geometry basis
  • Series stacks for larger travel
  • Parallel stacks for higher load
  • Combined stacks for load-travel balance

If you need to estimate load, deflection or stack arrangement, use the Disc Spring Design Calculator before sending drawings for engineering review.

Standard Sizes

Stack assemblies can be configured from standard DIN 2093 sizes from OD 6-1000 mm or custom Belleville washer geometry.

Materials

51CrV4, 60SiCr7, 50CrVA, 301, 304, 316, 17-7PH, Inconel X-750, Inconel 625, Inconel 718, Nimonic 90 and project-specific alloys.

Temperature Range

-200 deg C to +815 deg C depending on selected material, stack stress, preload level and working environment.

Recommended Applications

  • Valve actuator spring packs
  • Flange live loading systems
  • Petrochemical bolting assemblies
  • Heavy machinery overload protection

RFQ DATA CHECKLIST

Send the application data engineers need first

For a faster quotation, include the basic spring geometry, target load and service condition. If a value is not confirmed yet, send the drawing or installed photos and mark it as estimated.

  • OD / outside diameter
  • ID / inside diameter
  • Thickness and free height
  • Material or working environment
  • Quantity and delivery target
  • Target load and working deflection
  • Working temperature
  • Application, drawing or photos

Key Product Data

Series and parallel stacks
Load and travel tuning
Preload retention review
Drawing-based stack layout

Disc Spring Stack Configuration Guide

Stack typeCommon notationPrimary effectTypical use case
Single disc1 x 1Baseline load and travelSimple preload or replacement parts
Series stack1 x nIncreases travel and lowers rateActuators and assemblies needing longer working stroke
Parallel stackm x 1Increases load capacityCompact high-load preload packs
Combined stackm x nBalances load and travelValve, flange and heavy equipment spring packs

Final stack behavior depends on friction, guide clearance, lubrication, surface finish, material condition and working deflection.

Stack Material Selection Notes

Service conditionTypical material familyEngineering note
General industrial preload51CrV4 / 60SiCr7 / 50CrVACost-effective baseline when corrosion and heat are controlled.
Corrosion or outdoor exposure304 / 316 / 17-7PH stainlessUseful when rust, moisture or chemical exposure could reduce service life.
HPHT or severe valve dutyInconel X-750 / 625 / 718Reviewed when preload loss, relaxation or corrosion risk is critical.
Chemical process corrosionHastelloy C-276Used for chloride, acid and scrubber environments where standard alloys are not enough.

Disc spring stack RFQ notes

Disc spring stack design supplier and custom Belleville washer stack requests usually mean the buyer already has a target load, travel or installation envelope that a single washer cannot solve.

The key RFQ inputs are stack height, working travel, required load, series or parallel preference, guide clearance, lubrication, temperature, cycle duty and material requirement.

A calculator can help estimate the first direction, but final stack behavior should still be reviewed for friction, stress, fatigue and preload loss.

Common Product Questions

When should disc springs be stacked in series?

Series stacking is used when the assembly needs more travel at a lower combined spring rate while keeping the same load path through each disc.

When should disc springs be stacked in parallel?

Parallel stacking is used when the installation needs higher load capacity in limited axial space, but stress, friction and load sharing must be reviewed.

What information is needed to quote a disc spring stack?

Useful RFQ data includes installation height, working travel, target load, temperature, cycle duty, material preference, surface finish and any drawing or equipment interface limits.