A DIN933 Hex Head Bolt is a fully threaded metric hexagon bolt conforming to the German DIN 933 standard. "Fully threaded" means the thread runs from directly beneath the head all the way to the tip — distinguishing it from DIN 931, which is partially threaded with an unthreaded shank section. The six-sided (hexagonal) head is designed to be driven by an open-end spanner, ring spanner, or socket, making it one of the most tooling-compatible fastener geometries in industrial use worldwide.
At Tuyue, DIN933 bolts form part of a broad hardware and fasteners portfolio that includes everything from stainless steel fasteners to solar mounting hardware — all manufactured and exported with traceable quality documentation.
The DIN 933 standard was published by Deutsches Institut für Normung (DIN) and has been largely superseded by or harmonized with ISO 4017 at the international level. Understanding these equivalencies is critical when specifying fasteners across different procurement markets.
| Standard | Scope | Notes |
|---|---|---|
| DIN 933 | Fully threaded hex bolt, metric coarse & fine | German national standard; still widely used in datasheets |
| ISO 4017 | Hex head screw, fully threaded (metric) | International equivalent; preferred in global specifications |
| EN ISO 4017 | European adoption of ISO 4017 | Applies in EU procurement and CE-marked assemblies |
| ASME B18.2.3.1M | Metric hex cap screw (US) | Near-equivalent; minor dimensional differences at head chamfer |
| DIN 931 | Partially threaded hex bolt | Not fully threaded — different application profile |
References: DIN Normenausschuss Mechanische Verbindungselemente; ISO Technical Committee TC 2 — Fasteners.
Selecting the correct material grade is the most consequential decision in a DIN933 bolt specification. It determines load-bearing capacity, corrosion behavior, temperature performance, and total cost of ownership.
Defined by ISO 898-1, property classes for steel bolts encode both tensile strength and yield ratio in the class number. The two digits (e.g., "8.8") represent: first digit × 100 = nominal tensile strength (MPa); first digit × second digit × 10 = nominal yield strength (MPa).
| Class | Min. Tensile (MPa) | Min. Yield (MPa) | Core Hardness (HRC) | Typical Application |
|---|---|---|---|---|
| 4.8 | 420 | 340 | — | Light general assemblies |
| 8.8 | 800 | 640 | 22–32 | General structural, automotive |
| 10.9 | 1040 | 940 | 32–39 | Heavy machinery, hydraulics |
| 12.9 | 1220 | 1100 | 38–44 | High-cycle fatigue, motorsport |
Source: ISO 898-1:2013 — Mechanical properties of fasteners made of carbon steel and alloy steel.
Stainless grades are designated by material class and strength level per ISO 3506-1. The stainless steel bolts, nuts, screws, and washers range from Tuyue covers the two most important grades for international buyers:
| Grade | Alloy | Min. Tensile (MPa) | Corrosion Resistance | Best For |
|---|---|---|---|---|
| A2-70 | 304 SS | 700 | Good (general) | Indoor, food equipment, general use |
| A4-70 | 316 SS | 700 | Excellent (chloride) | Marine, coastal, chemical plants |
| A4-80 | 316 SS | 800 | Excellent (chloride) | Offshore, pharmaceutical, high load |
Source: ISO 3506-1:2020 — Mechanical properties of corrosion-resistant stainless steel fasteners.
| Size | Grade 4.8 (N·m) | Grade 8.8 (N·m) | Grade 10.9 (N·m) | A2-70 SS (N·m) |
|---|---|---|---|---|
| M6 | 4.5 | 9.5 | 13.5 | 8.0 |
| M8 | 11 | 23 | 33 | 20 |
| M10 | 22 | 46 | 65 | 39 |
| M12 | 38 | 79 | 113 | 67 |
| M16 | 95 | 195 | 280 | 165 |
| M20 | 185 | 390 | 555 | 330 |
| M24 | 320 | 670 | 955 | 570 |
Reference: ISO 16047 — Torque/clamp force testing of fasteners; VDI 2230 Guideline — Systematic calculation of high duty bolted joints (VDI, Düsseldorf).
