Home/Standards/DIN 967 This part is extended with a technical interpretation of scope, typical product geometry, and dimension-reading logic aligned with formal standard references. Compatibility between head style and thread form, tolerance interpretation, and material choice (A2/A4) should be evaluated against service environment, corrosion risk, and assembly method. Production notes also include dimensional verification flow, surface integrity checks, and passivation-oriented quality planning for consistent repeatability.
DIN 967 Pan Head Screw with Dimensions and Technical Data
DIN 967 is commonly used as a reference code for pan-head machine screw geometry with an integrated/captive washer or collar style. This page is reference-oriented and should be used with project drawings, tolerances, and verified sources before final specification decisions. This part is extended with a technical interpretation of scope, typical product geometry, and dimension-reading logic aligned with formal standard references. Compatibility between head style and thread form, tolerance interpretation, and material choice (A2/A4) should be evaluated against service environment, corrosion risk, and assembly method. Production notes also include dimensional verification flow, surface integrity checks, and passivation-oriented quality planning for consistent repeatability.
What is this standard?
DIN 967 is a reference code used in technical communication for cross-recess pan-head screw geometries with an integrated washer/collar feature. Application suitability depends on material selection, assembly conditions, tolerances, and project requirements. This part is extended with a technical interpretation of scope, typical product geometry, and dimension-reading logic aligned with formal standard references. Compatibility between head style and thread form, tolerance interpretation, and material choice (A2/A4) should be evaluated against service environment, corrosion risk, and assembly method. Production notes also include dimensional verification flow, surface integrity checks, and passivation-oriented quality planning for consistent repeatability.
Typical applications
- Assemblies that benefit from broader under-head bearing area; in practice, dimensional verification and material/environment compatibility should be reviewed together.
- Production lines where integrated washer geometry simplifies handling; in practice, dimensional verification and material/environment compatibility should be reviewed together.
- Drawing/BOM communication for geometry family selection; in practice, dimensional verification and material/environment compatibility should be reviewed together.
- Standards-based comparison within stainless screw families
Technical Drawing / 3D Preview
Reference drawings are informational only; final engineering drawings and project tolerances govern. This part is extended with a technical interpretation of scope, typical product geometry, and dimension-reading logic aligned with formal standard references. Compatibility between head style and thread form, tolerance interpretation, and material choice (A2/A4) should be evaluated against service environment, corrosion risk, and assembly method. Production notes also include dimensional verification flow, surface integrity checks, and passivation-oriented quality planning for consistent repeatability.
Dimensions / Parameters
For parameter definitions, see the Technical Glossary -> Dimension Parameters This part is extended with a technical interpretation of scope, typical product geometry, and dimension-reading logic aligned with formal standard references. Compatibility between head style and thread form, tolerance interpretation, and material choice (A2/A4) should be evaluated against service environment, corrosion risk, and assembly method. Production notes also include dimensional verification flow, surface integrity checks, and passivation-oriented quality planning for consistent repeatability.
| Parameter (mm) | M3 | M4 | M5 | M6 | M8 |
|---|---|---|---|---|---|
| P (pitch) | 0.50 | 0.70 | 0.80 | 1.00 | 1.25 |
| da (washer diameter) | 7.0 | 9.0 | 10.0 | 12.0 | 16.0 |
| dk (head diameter) | 5.5 | 7.0 | 9.0 | 10.5 | 14.0 |
| k (head height) | 2.4 | 3.1 | 3.8 | 4.6 | 6.0 |
| L (length range) | 6-80 mm (series, product dependent) | ||||
Source: DIN 967 / ISO 7045 + ISO 7089 table reference (mm, nominal series). This part is extended with a technical interpretation of scope, typical product geometry, and dimension-reading logic aligned with formal standard references. Compatibility between head style and thread form, tolerance interpretation, and material choice (A2/A4) should be evaluated against service environment, corrosion risk, and assembly method. Production notes also include dimensional verification flow, surface integrity checks, and passivation-oriented quality planning for consistent repeatability.
Related Product Groups
Stainless Steel Screws
Screw families, head types, and standards-oriented navigation. This part is extended with a technical interpretation of scope, typical product geometry, and dimension-reading logic aligned with formal standard references. Compatibility between head style and thread form, tolerance interpretation, and material choice (A2/A4) should be evaluated against service environment, corrosion risk, and assembly method. Production notes also include dimensional verification flow, surface integrity checks, and passivation-oriented quality planning for consistent repeatability.
Stainless Steel Bolts
Hex and socket-style bolt families with technical context. This part is extended with a technical interpretation of scope, typical product geometry, and dimension-reading logic aligned with formal standard references. Compatibility between head style and thread form, tolerance interpretation, and material choice (A2/A4) should be evaluated against service environment, corrosion risk, and assembly method. Production notes also include dimensional verification flow, surface integrity checks, and passivation-oriented quality planning for consistent repeatability.
Stainless Steel Nuts
Nut geometry families and related standards references. This part is extended with a technical interpretation of scope, typical product geometry, and dimension-reading logic aligned with formal standard references. Compatibility between head style and thread form, tolerance interpretation, and material choice (A2/A4) should be evaluated against service environment, corrosion risk, and assembly method. Production notes also include dimensional verification flow, surface integrity checks, and passivation-oriented quality planning for consistent repeatability.
Stainless Steel Washers
Washer groups and usage-focused technical overview. This part is extended with a technical interpretation of scope, typical product geometry, and dimension-reading logic aligned with formal standard references. Compatibility between head style and thread form, tolerance interpretation, and material choice (A2/A4) should be evaluated against service environment, corrosion risk, and assembly method. Production notes also include dimensional verification flow, surface integrity checks, and passivation-oriented quality planning for consistent repeatability.
Related blog links
Notes
This page is for reference use only. Standard codes support technical communication and should not be interpreted as certification, conformity, or performance claims. Final evaluation should be completed with project drawings, tolerances, and assembly conditions. This part is extended with a technical interpretation of scope, typical product geometry, and dimension-reading logic aligned with formal standard references. Compatibility between head style and thread form, tolerance interpretation, and material choice (A2/A4) should be evaluated against service environment, corrosion risk, and assembly method. Production notes also include dimensional verification flow, surface integrity checks, and passivation-oriented quality planning for consistent repeatability.