This Titanium Grade 5 stock sheet offers exceptional strength-to-weight ratio and superior corrosion resistance. Engineered for critical pressure and temperature control systems, it ensures reliable performance in harsh industrial settings.
| Standard | ASME B18 |
| Material | Titanium Grade 5 |
| Finish | Galvanized |
| Grade | N/A |
| Thickness | 0.626" |
| Length | 39" |
| Width | 42" |
Designed for demanding industrial environments, this Titanium Grade 5 (Ti-6Al-4V) stock sheet measures 0.626 inches in thickness, 39 inches in length, and 42 inches in width. Grade 5 titanium exhibits excellent tensile strength, fatigue resistance, and biocompatibility, making it suitable for high-pressure vessels, heat exchangers, and critical components exposed to corrosive media and extreme temperatures. Its anneal condition ensures formability while maintaining structural integrity for demanding applications in aerospace, chemical processing, and oil & gas industries.
This component strictly adheres to the tolerances, material specifications, and quality benchmarks set by the world's leading industrial manufacturers.
1. Verify material compatibility with the intended application and surrounding components. 2. Ensure proper cutting and shaping techniques are employed, utilizing appropriate tooling for titanium alloys. 3. Implement recommended welding or joining procedures specific to Titanium Grade 5 to maintain material integrity.
| Standard System | Designation |
|---|---|
| ISO Equivalent | ISO 9001:2015 Mfg |
| DIN Equivalent | Industry Standard |
| Primary Standard | ASME B18 |
| Tensile Strength | Standard Commercial Spec |
| Yield Strength | Standard Commercial Spec |
| Hardness | Varies by specific batch |
| Size / Type | Est. Weight (lbs/100) | Shipping Weight (kg) |
|---|---|---|
| Standard | Varies by dimension | Contact Sales |
| Environment | Rating |
|---|---|
| Indoor / Dry | Excellent |
| Outdoor / Exposed | Excellent |
| Marine / Saltwater | Not Recommended |
| Chemical / Acidic | Not Recommended |
| ❌ Mistake | ✅ Correct Approach |
|---|---|
| Using standard carbon steel cutting tools which can lead to excessive heat and material degradation. | Employ specialized carbide or diamond-tipped cutting tools designed for titanium, and utilize coolant to manage heat buildup during fabrication. |
| Inadequate shielding gas during welding, resulting in oxidation and compromised weld strength. | Utilize a full inert gas purge (Argon) for both the root and cap passes during welding to prevent atmospheric contamination. |
A: This Titanium Grade 5 Stock Sheet is manufactured from Titanium Grade 5.
A: High-pressure vessel construction, Heat exchanger fabrication, Corrosive fluid handling systems.
Conversion factor: 1 ft-lb ≈ 1.356 Nm
| Status | Mating Component | Standard | Torque Spec | Engineering Notes |
|---|---|---|---|---|
| No verified compatibility data found for this component. | ||||