Belleville Washers
DIN 6796

Conical spring washers in hardened C60 steel · a single piece per joint replaces the flat washer + split lock washer with several times the residual force.

FIG · DIN 6796 washer · M10 C60 steel
Two DIN 6796 Belleville washers — front and back view showing the conical, frustoconical geometry
Standard range
M3 — M30
Material
C60 steel · 420–510 HV
Engineering support
In-house engineering team since 1974
01

What are DIN 6796 washers?

DIN 6796 washers —also called Belleville washers or conical spring washers— are fastening elements with a frustoconical geometry, manufactured to the German standard DIN 6796 “Conical spring washers for bolted connections”.

Their specific job is to secure bolted joints. Once the joint is tightened, the washer is almost fully compressed and permanently exerts a residual axial force that compensates for bolt elongation, thermal expansion and the micro-settling of the mating parts.

It is important to distinguish them from the DIN 2093 / EN 16983 disc spring. Although they share the conical geometry, they are not interchangeable: the 6796 is a fastening element with very short travel; the 2093 is an elastic spring with long travel. Using one where the other belongs is a common application error — see §02.

02

DIN 6796 vs DIN 2093 · the critical difference

They share the conical geometry, but their function is the opposite. Confusing them is one of the most common application errors in technical fasteners. This table sums up the difference, column by column:

DIN 6796 vs DIN 2093 comparison — key criteria
Criterion DIN 6796 · Belleville DIN 2093 · disc spring
Function Fastening element · permanent elastic locking Elastic spring · load spring
Elastic travel Very short · nearly flattened when tightened Long · designed for controlled deflection
Configuration A single piece per bolted joint Stackable in series · parallel · mixed
Force precision Reference (not exact) · works at very high stress F/s curve calculable with precision
Typical location Under the bolt head or nut Inside the housing as a mechanical element
Replaces Flat washer + DIN 127 split lock washer Helical springs in tight spaces
— Use DIN 6796 if…
  • You need to secure a bolted joint against vibration or thermal cycling.
  • You want a replacement for the DIN 127 split lock washer with several times the residual force.
  • There is only one position available under the bolt head or nut.
— Use DIN 2093 if…
  • You need an elastic spring with calculable travel and F/s curve.
  • You want to stack pieces in series or parallel to tune force and deflection.
  • The element works as a spring inside a mechanism (valve, clutch, press).
03

Technical parameters and specifications

Standard catalogue DIN 6796 washers cover nominal bolt sizes from M3 to M30. The standard defines the geometry (diameters, thickness, height), the mechanical behaviour (flattening and residual force) and the applicable tolerances.

Geometric and mechanical parameters of the DIN 6796 washer
Parameter Meaning
d₁ Internal diameter · H14 tolerance. Matches the bolt Ø (M3 — M30)
d₂ External diameter · h14 tolerance
s Material thickness
h max Maximum initial height · before the first compression
h min Minimum height after compression · after the first compression
F flat Flattening force (N) · load needed to fully flatten the washer
F res Residual spring force (N) · minimum guaranteed load in the tightened joint
Standard range M3 — M30 · custom manufacturing for special sizes

The F flat and F res values in catalogues are reference values, not individually guaranteed.

The actual force depends on the batch hardness, the geometric precision and the friction coefficient at the contact surface. The force tolerances are wide by design: the 6796 works in a very high stress range (420–510 HV) and the effective residual force comfortably exceeds the range of a conventional split lock washer at any point in the band.

FIG · DIN 6796 cross-section with dimensions d₁ d₂ s h
Cross-section of a DIN 6796 Belleville washer with dimensions d1, d2, s and h
— Catalogue specifications
  • Reference standard DIN 6796 · Conical spring washers for bolted connections.
  • Standard range M3 — M30. Custom manufacturing for special sizes.
  • Standard material Hardened and tempered C60 / C67S carbon steel.
  • Final hardness 420 — 510 HV (Vickers) · required to withstand the high stress without relaxation.
  • Tolerances d₁ per H14 · d₂ per h14 · thickness s per DIN 6796.
— Position in the joint

The DIN 6796 sits between the bolt head (or nut) and the surface of the part. As the joint is tightened, the washer becomes almost fully compressed. Its outer rim (d₂) bears on the part; its inner edge (d₁) contacts the flat face of the head or nut. The cone flattens towards the centre of the joint, exerting the residual force permanently.

FIG · bolted joint with DIN 6796 — horizontal section
Diagram of a bolted joint with DIN 6796 Belleville washers Horizontal section of a bolted joint showing the bolt head, the DIN 934 hex nut, two DIN 6796 Belleville washers in the correct orientation and the parts to be joined with V hatching radiating from the axis, with residual force F res arrows at both ends CABEZA del tornillo TUERCA hex DIN 934 ARANDELA DIN 6796 elemento de fijación ARANDELA DIN 6796 elemento de fijación PIEZAS A UNIR unión atornillada F res F res

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04

Materials · standard and special

The DIN 6796 standard is manufactured in standard carbon steel for most applications. When the environment demands it — corrosion, extreme temperature — stainless steel and nickel alloys are available.

C60 / C67S carbon steel

Catalogue standard

Hardened and tempered to 420–510 HV. Covers virtually all applications when combined with the right coating.

A2 stainless steel · 1.4301

Humidity · moderate outdoor exposure

For environments with condensation, sheltered outdoor exposure or industrial settings with high relative humidity.

A4 stainless steel · 1.4401 / 1.4571

Marine · aggressive chemical

Saline environments, offshore, chemical plants. Resistance to pitting and crevice corrosion.

Nickel alloys · Inconel X-750

> 300 °C · severe corrosion

High temperatures and highly corrosive environments where stainless steel is not enough.

The modulus of elasticity of A2/A4 stainless steel and Inconel is lower than that of standard C60. For the same geometry, the residual force in stainless or Inconel is somewhat lower than in carbon steel. Where the environment allows, compensating with a coating is the technically and economically optimal solution.

05

Available coatings

The base material (C60, A2/A4 stainless, Inconel) determines the intrinsic corrosion resistance. For carbon steel — the most common — the coating is the main protective barrier. These are the ones available at Surisa:

Coatings available for DIN 6796 washers — protection, NSS and RoHS compatibility
Coating Protection NSS · ISO 9227 Cr (VI) Typical application
Manganese phosphate Low–medium Free Storage · pre-lubrication · assembly
Electrolytic zinc plating (Zn) Medium ~120 h Free Indoor · dry environments
Zinc-nickel High 500 — 720 h Free Automotive · general industrial
Geomet 321 / 500 Very high 720 — 1,000 h Free · RoHS / ELV Automotive · wind · outdoor
Delta Protekt Very high 720 — 1,000 h Free · cadmium replacement Cadmium replacement · critical joints
Dacromet High 500 — 720 h Free Long-service-life applications
— Geomet 321 / Delta Protekt
720 — 1,000 h NSS
The standard for automotive, wind and outdoor applications with RoHS / ELV requirements. Free of hexavalent and trivalent chromium.
— Zinc-nickel
500 — 720 h NSS
A good cost/protection ratio for general industrial applications and non-outdoor automotive.
— A4 stainless as an alternative
No coating needed
In severe marine or chemical applications, switching to A4 stainless or Inconel can be more reliable than any zinc coating.
06

Applications by industry sector

The DIN 6796 washer appears in any bolted joint that needs to maintain clamping tension against vibration, thermal cycling or micro-settling of the parts. These are the sectors where Surisa supplies it most often:

01

Automotive and commercial vehicles

Chassis · engine · transmission

Safety fasteners subject to continuous vibration. The 6796 replaces the flat washer + split lock washer combination with a far higher residual force and without damaging the contact surface.

02

Wind energy

Hub · gearbox · nacelle

Joints subject to dynamic loads and critical vibration. Vibration loosening is one of the main risks: the constant residual force of the 6796 prevents it throughout the turbine's service life.

03

Heavy industrial machinery

Bedplates · gear reducers · presses

Equipment with dynamic loads that affect static joints. It maintains bolt tension against the progressive micro-settling of the mating parts.

04

Rail

Track · bogies · rolling stock

Fastenings exposed to wide thermal cycling, continuous vibration and infrequent maintenance. The 6796 maintains clamping force between interventions.

05

Steel construction

Structures · bridges · roofing

Joints subject to daily thermal cycling and traffic-induced vibration. It compensates for bolt elongation caused by the expansion of the structural parts.

06

Marine · offshore

Combined with A4 · Geomet

When combined with A4 stainless or high salt-resistance coatings, it maintains the elastic locking function in saline environments and continuous marine spray.

07

Chemical industry and refining

Flanges · pressure processes

With material suited to the fluid and process temperature (A4, Inconel). It secures the seal against thermal expansion of the piping and pressure cycling.

08

Maintenance fasteners

DIN 127 split lock washer replacement

Where the conventional split lock washer has proven insufficient, the 6796 is the direct upgrade: same location, several times the residual force, no surface damage.

07

Frequently asked questions

01 What is the difference between a DIN 6796 washer and a DIN 2093 disc spring?

They share the conical geometry, but their function is the opposite. The DIN 6796 is a rigid washer with very short travel, intended to secure a bolted joint with a single piece per bolt. The DIN 2093 is an elastic spring with long travel, designed to be stacked in series or parallel and to work as a load spring. They are not interchangeable: using a DIN 6796 as a spring, or a DIN 2093 as a fastening element, are application errors.

02 Can several DIN 6796 washers be stacked in the same joint?

No. The DIN 6796 standard is intended for use with a single washer per bolted joint, placed between the bolt head (or nut) and the surface. If the application requires elastic stacking —for example to achieve greater travel or to tune stiffness— the correct element is the DIN 2093 disc spring, which is indeed designed for series, parallel or mixed configurations.

03 Does the DIN 6796 replace the conventional split lock washer?

Yes, and with advantages. A DIN 6796 exerts a residual force several times higher than that of a split lock washer (DIN 127) of the same nominal size. It also does not damage the contact surface the way toothed lock washers do, and it maintains tension throughout the service life of the joint, not just at the moment of initial tightening. That is why it is the preferred element in critical and vibration-prone joints.

04 Which coating should I choose for my working environment?

For dry indoor use, electrolytic zinc plating is enough. For automotive and general industrial applications, zinc-nickel offers a good cost/protection ratio. In demanding environments, outdoor automotive, wind or applications with RoHS / ELV requirements (free of hexavalent chromium), Geomet 321/500 and Delta Protekt coatings are the current standard, reaching between 500 and 1,000 hours in the ISO 9227 salt spray chamber. For severe marine or chemical environments, it usually pays to use A4 stainless directly.

05 Are they made in special sizes or materials?

Yes. Beyond the standard M3 to M30 catalogue in C60 steel, we manufacture DIN 6796 washers in non-standard sizes, in stainless steels (A2, A4), in Inconel-type nickel alloys for high temperature, and with any technical coating the customer requires. Ask our engineering team about lead times for special manufacturing.

06 What is the standard material and hardness of the DIN 6796?

The DIN 6796 standard specifies hardened and tempered C60 carbon steel (or equivalent C67S), with a final hardness range of 420 to 510 HV (Vickers). This hardness level is needed so that the washer can withstand the high stress its function demands without permanent relaxation under prolonged static load.

07 How does the material affect the washer's residual force?

The modulus of elasticity of A2/A4 stainless steel and Inconel-type nickel alloys is lower than that of standard C60 steel. This means that, for the same geometry, a 6796 washer in stainless or Inconel exerts a somewhat lower residual force than the carbon steel version. This should be taken into account when sizing the joint: if the environment allows C60 + coating, that is usually the technically and economically optimal solution.

Let's talk about your project

Tell us about your use case and our engineering team will help you choose the optimal solution.