23MnB4 vs 60SiCr7: 44% composition overlap. Significantly different materials serving different application areas.
23MnB4 vs 60SiCr7
Side-by-side chemical composition and mechanical property comparison.
Overview
23MnB4
1.5535
Cold-heading boron steel — optimized for cold forming of high-strength fasteners. Boron gives hardenability equivalent to much more expensive Cr-Mo alloys. Supplied spheroidized for cold heading, then quenched+tempered after forming. Property class 10.9 bolts are commonly made from this grade. Used for high-strength bolts (M8-M24), screws, studs, and threaded fasteners for automotive and construction.
60SiCr7
1.7108
Silicon-chromium valve spring steel — the highest fatigue life among EN 10089 spring steels. High Si (1.50-1.80%) provides excellent resistance to relaxation at elevated temperatures (up to ~250°C). Superior to 51CrV4 for high-stress, high-cycle applications. Used for automotive valve springs, heavy-duty coil springs, torsion bars, and stabilizers. ≈ AISI 9260.
| 23MnB4 | 60SiCr7 | |
|---|---|---|
| Material Number | 1.5535 | 1.7108 |
| Category | Alloy Steel | Alloy Steel |
| Standard | EN 10263-4 | EN 10089 |
Chemical composition (wt%)
| Element | 23MnB4 | 60SiCr7 | Overlap |
|---|---|---|---|
| C | 0.2–0.27% | 0.57–0.65% | No overlap |
| Si | 0–0.4% | 1.5–1.8% | No overlap |
| Mn | 0.8–1.1% | 0.7–1% | Partial |
| P | 0–0.025% | 0–0.025% | OK |
Mechanical properties
| Property | 23MnB4 | 60SiCr7 | Unit |
|---|---|---|---|
| tensile_strength | 830–1040 | 1200–1400 | MPa |
| yield_strength | 660–830 | 1050–1200 | MPa |
| elongation | 9–14 | ≥ 6 | % |
Compatibility Assessment
23MnB4 and 60SiCr7 have significantly different compositions (44% overlap). These materials are not interchangeable and serve different application areas.
Automated assessment based on composition analysis
Frequently Asked Questions
Is 23MnB4 the same as 60SiCr7?
23MnB4 and 60SiCr7 have a 44% composition overlap. They are generally not directly interchangeable.
Can I replace 23MnB4 with 60SiCr7?
Generally not recommended. The compositions differ significantly (44% overlap). These materials have different alloying concepts and are intended for different applications.
What is the difference between 23MnB4 and 60SiCr7?
The main differences are in the following elements: C, Si, Mn. 23MnB4 is a Alloy Steel grade, while 60SiCr7 is a Alloy Steel grade.
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Data provided for reference only. Always verify against the applicable specification for critical applications.
All data is for reference only. Equivalents indicate similarity, not identity. Always verify against the applicable specification for safety-critical applications. materialref.com accepts no liability for decisions based on this data.