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العربية ISO 898-1 is one of the most important standards for metric bolts, screws, and studs made from carbon steel and alloy steel. For buyers, it helps define the mechanical performance behind common bolt grades such as 8.8, 10.9, and 12.9.
A bolt grade is not just a number stamped on the head. It affects tensile strength, yield strength, hardness, tightening behavior, nut matching, washer selection, coating risk, and field performance.
For industrial RFQs, ISO 898-1 should be treated as a technical requirement, not only a reference code.
What ISO 898-1 Covers
ISO 898-1 specifies mechanical and physical properties for externally threaded metric fasteners made from carbon steel or alloy steel. It applies to bolts, screws, and studs with specified property classes.
It does not apply to stainless steel fasteners. Stainless grades such as A2-70 or A4-80 are normally covered by stainless fastener standards such as ISO 3506. Buyers can review stainless steel fasteners when corrosion-resistant stainless grades are required.
For regular metric steel bolts, buyers can start from standard fasteners and then define the exact property class.
How ISO Bolt Property Classes Work
Reading the Grade Number
Metric bolt grades use two numbers. The first number relates to nominal tensile strength. The second number indicates the ratio between yield strength and tensile strength.
For example, class 8.8 means:
- Approximate nominal tensile strength: 800 MPa
- Approximate yield strength ratio: 0.8
- Approximate yield strength: 640 MPa
| ISO Property Class | Approx. Nominal Tensile Strength | Approx. Yield / Proof Strength | Common Use |
|---|---|---|---|
| 4.6 | 400 MPa | 240 MPa | Light-duty general fastening |
| 4.8 | 400 MPa | 320 MPa | Low-load assemblies |
| 5.8 | 500 MPa | 400 MPa | General machinery and brackets |
| 6.8 | 600 MPa | 480 MPa | Medium-duty applications |
| 8.8 | 800 MPa | 640 MPa | Industrial machinery, steelwork |
| 10.9 | 1000 MPa | 900 MPa | Heavy equipment, automotive, high-load joints |
| 12.9 | 1200 MPa | 1080 MPa | High-stress machinery and compact assemblies |
The table is a practical guide. Final acceptance should always follow the exact ISO 898-1 requirements, product size, and test report.
Common Bolt Grades and Selection Logic
Class 8.8 Bolts
Class 8.8 is widely used in industrial equipment, steel structures, machinery frames, brackets, and general load-bearing assemblies. It offers a strong balance between performance, availability, and cost.
For many standard applications, 8.8 is the first grade buyers should evaluate before moving to higher grades.
Class 10.9 Bolts
Class 10.9 provides higher strength and is used where stronger clamping force or higher load capacity is required.
Common applications include:
- Heavy machinery
- Vehicle assemblies
- Structural brackets
- Equipment bases
- High-load bolted joints
For these applications, buyers should review high-strength fasteners and confirm nut grade, washer hardness, and tightening method together.
Class 12.9 Bolts
Class 12.9 bolts are high-strength fasteners used in demanding mechanical assemblies. They offer high tensile strength but require stricter control.
They are less forgiving when installation is poor. Over-tightening, wrong coating, soft washers, or hydrogen embrittlement risk can create serious problems.
Use class 12.9 only when the design requires it and installation conditions are controlled.
What Buyers Should Check Beyond Bolt Grade
Nut and Washer Matching
A high-grade bolt must be matched with the correct nut and washer. A class 10.9 bolt with a low-grade nut is not a safe high-strength assembly.
Check:
- Nut property class
- Washer hardness
- Thread pitch
- Full or partial thread length
- Surface finish compatibility
- Required proof load or mechanical test report
For washer matching, buyers can review washer products.
Coating and Hydrogen Embrittlement Risk
Surface finish affects corrosion resistance, thread fit, and tightening behavior. Zinc plating, hot-dip galvanizing, zinc flake, black oxide, and PTFE coating behave differently.
For class 10.9 and 12.9 bolts, electroplating may introduce hydrogen embrittlement risk if the process is not controlled. Baking records and coating reports may be required.
For coating selection, review various coated fasteners.
Temperature and Service Conditions
ISO 898-1 properties are based on standard testing conditions. If the bolts are used in high-temperature, low-temperature, marine, chemical, or vibration-heavy environments, additional review is needed.
A bolt grade alone does not guarantee suitability for every service condition.
RFQ Checklist for ISO 898-1 Bolts
A complete RFQ should include:
| RFQ Item | What to Specify |
|---|---|
| Estándar | ISO 898-1, plus product standard such as ISO 4014 or ISO 4017 |
| Property class | 4.8, 8.8, 10.9, 12.9, or project grade |
| Size | Diameter, length, pitch, thread length |
| Material | Carbon steel or alloy steel requirement |
| Finish | Plain, black, zinc, HDG, zinc flake, PTFE |
| Matching parts | Nut grade and washer type |
| Testing | Hardness, tensile, proof load, coating report |
| Aplicación | Machinery, structure, vehicle, flange, equipment |
| Packaging | Labels, batch numbers, traceability |
For special lengths, unusual threads, or drawing-based bolts, use custom non-standard fasteners and provide drawings before quotation. For broader sourcing, review the full fastener products range.
Final Advice
ISO 898-1 bolt grades help buyers compare mechanical performance, but grade selection should not stop at tensile strength. The correct bolt must also match the nut, washer, coating, torque condition, working environment, and inspection requirement.
For safe purchasing, define the property class, product standard, size, material, finish, matching parts, and test documents before production. That is the most practical way to avoid wrong-grade delivery, assembly failure, and costly field problems.