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High-Tensile Stainless Steel Stripping | Cold-Rolled 304 & SS316
High-Tensile Stainless Steel Stripping | Cold-Rolled 304 & SS316
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Product Detail Page: High-Tensile Stainless Steel Stripping | Cold-Rolled 304 & SS316
Technical Specifications
| Parameter | Details |
|---|---|
| Material Grades | Stainless steel stripping: SS304 (UNS S30400), SS316 (UNS S31600) |
| Thickness | 0.1 mm – 5.0 mm (±0.003 mm tolerance) |
| Width | 10 mm – 1500 mm (custom slitting available) |
| Surface Finishes | 2B (cold-rolled), BA (Bright Annealed), No.4 (brushed), HL (Hairline) |
| Hardness (HV) | SS304: 150–200 HV |
| Tensile Strength | SS304: 515–730 MPa |
| Yield Strength | SS304: ≥205 MPa |
| Elongation | SS304: 40–60% |
| Density | SS304: 8.0 g/cm³ |
| Processing | Cold Rolling, Precision Slitting, Edge Trimming, Annealing, Surface Brushing/Polishing |
| Certifications | ASTM A240, A666, EN 10088, JIS G4303, ISO 9001 |
Key Properties & Performance
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Tensile & Yield Strength
The stainless steel stripping in SS304 and SS316 grades is engineered for high-tensile applications. SS304 offers tensile strength up to 730 MPa, ideal for structural components like stainless steel transition strip in automotive frames and construction joints. SS316, with slightly lower tensile strength but superior corrosion resistance, excels in marine environments and chemical processing equipment. -
Bending & Formability
SS304’s austenitic structure allows tight-radius bends (up to 180° without cracking), making it suitable for decorative stainless steel transition strip in architectural cladding. SS316 requires controlled bending post-annealing to avoid brittleness but maintains integrity in corrosive settings like offshore platforms. -
Material Identification
- Laser Marking: Grades are etched as "304" or "316" per ASTM standards.
- Color Coding: SS316 strips have a blue edge stripe for quick differentiation.
- Mill Certificates: Traceability via heat numbers and chemical analysis reports.
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Weight Calculation Formula
Weight (kg) = Thickness (mm) × Width (mm) × Length (m) × Density (g/cm³) ÷ 1000
Example: A stainless steel stripping strip (SS304) measuring 3 mm × 1000 mm × 20 m:
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Why Does Stainless Steel Rust?
Despite its corrosion resistance, stainless steel stripping can rust under specific conditions:- Chloride Exposure: SS304 is prone to pitting in saltwater; SS316’s molybdenum content mitigates this.
- Mechanical Damage: Scratches on stainless steel transition strip surfaces disrupt the passive chromium oxide layer.
- Galvanic Corrosion: Contact with carbon steel or copper accelerates oxidation.
Applications
- Stainless steel stripping: Automotive exhaust systems, HVAC ducting, and industrial conveyor belts.
- Stainless steel transition strip: Architectural edge connectors, elevator panels, and marine railing systems.
- Stainless steel strip market: Dominates 35% of the global metal strip demand due to its versatility in construction and renewable energy sectors.
Why Choose Our Stainless Steel Stripping?
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Superior Mechanical Properties
Our stainless steel stripping exceeds ASTM tensile and yield strength benchmarks, ensuring longevity in high-stress environments like offshore rigs and aerospace frameworks. -
Precision Manufacturing
Cold-rolled to ±0.003 mm tolerance, our strips are ideal for precise applications such as medical device components and semiconductor machinery. -
Corrosion Optimization
SS316 strips include a post-annealing passivation process, enhancing chloride resistance for coastal stainless steel transition strip installations. -
Customization & Scalability
Tailor surface finishes (brushed, mirror, or embossed) and widths to meet niche demands in the stainless steel strip market. Bulk orders ship within 7–10 days. -
Sustainability
100% recyclable and compliant with RoHS directives, supporting eco-conscious manufacturing trends.
