This Titanium Grade 5 stock sheet is engineered for critical suspending and bracing applications. Its exceptional strength-to-weight ratio and superior corrosion resistance make it ideal for harsh environments.
| Standard | DIN 933 |
| Material | Titanium Grade 5 |
| Finish | Galvanized |
| Grade | N/A |
| Thickness | 0.051" |
| Length | 17" |
| Width | 46" |
A high-performance industrial component, this Titanium Grade 5 stock sheet (ASTM B265 Grade 5) measures 0.051 inches in thickness, 17 inches in width, and 46 inches in length. Composed of approximately 90% titanium, 6% aluminum, and 4% vanadium, it exhibits an ultimate tensile strength of 128,000 psi and a yield strength of 120,000 psi. This alloy's biocompatibility, fatigue strength, and resistance to saltwater corrosion ensure reliability in aerospace, marine, and demanding structural support systems.
This component strictly adheres to the tolerances, material specifications, and quality benchmarks set by the world's leading industrial manufacturers.
1. Ensure the sheet is clean and free from debris before fabrication. 2. Utilize appropriate cutting and forming tools designed for titanium alloys, such as waterjet cutting or EDM. 3. Employ compatible welding procedures and filler materials if joining is required, adhering to aerospace or industry-specific standards.
| Standard System | Designation |
|---|---|
| ISO Equivalent | ISO 9001:2015 Mfg |
| DIN Equivalent | Industry Standard |
| Primary Standard | DIN 933 |
| 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, leading to tool wear and compromised edge quality. | Employ specialized carbide or diamond-coated cutting tools designed for titanium, or consider non-contact methods like laser or waterjet cutting. |
| Neglecting proper inert gas shielding during welding, resulting in weld contamination and reduced mechanical properties. | Ensure complete inert gas coverage (e.g., Argon) on both sides of the weld joint to prevent oxidation and embrittlement. |
A: This Titanium Grade 5 Stock Sheet is manufactured from Titanium Grade 5.
A: Aerospace structural components, Marine bracing and support structures, High-performance industrial equipment bracing.
Conversion factor: 1 ft-lb ≈ 1.356 Nm
| Status | Mating Component | Standard | Torque Spec | Engineering Notes |
|---|---|---|---|---|
| No verified compatibility data found for this component. | ||||