This industrial-grade Titanium Grade 5 stock sheet offers exceptional strength-to-weight ratio and superior corrosion resistance. Precisely manufactured to exacting standards for critical applications in aerospace, medical, and chemical processing.
| Standard | ASME B18 |
| Material | Titanium Grade 5 |
| Finish | Anodized |
| Grade | N/A |
| Thickness | 0.822" |
| Length | 16" |
| Width | 13" |
A proven choice for industrial professionals, this Titanium Grade 5 (Ti-6Al-4V) stock sheet measures 0.822 inches in thickness, 16 inches in length, and 13 inches in width. This alloy exhibits excellent tensile strength, fatigue resistance, and biocompatibility, making it suitable for extreme environments and demanding operational conditions. Its inert nature ensures high resistance to a broad spectrum of corrosive media, from saltwater to aggressive chemicals. This sheet is engineered for applications demanding reliability and longevity where conventional materials fail.
This component strictly adheres to the tolerances, material specifications, and quality benchmarks set by the world's leading industrial manufacturers.
1. Inspect sheet for any surface defects or damage prior to cutting or fabrication. 2. Utilize appropriate cutting tools and techniques for titanium alloys to prevent material deformation or excessive heat. 3. Ensure all fabrication processes comply with industry-specific standards for titanium components.
| 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 | Moderate |
| Marine / Saltwater | Not Recommended |
| Chemical / Acidic | Not Recommended |
| ❌ Mistake | ✅ Correct Approach |
|---|---|
| Using standard steel cutting tools without proper lubrication or speed settings. | Employ carbide or high-speed steel tooling with copious amounts of coolant and reduced cutting speeds to manage heat and prevent tool wear. |
| Failing to account for titanium's lower modulus of elasticity during structural design. | Incorporate design considerations for increased deflection compared to steel, potentially requiring thicker sections or stiffening features. |
A: This Titanium Grade 5 Stock Sheet is manufactured from Titanium Grade 5.
A: Aerospace structural components, Medical implants and surgical instruments, Chemical processing equipment.
Conversion factor: 1 ft-lb ≈ 1.356 Nm
| Status | Mating Component | Standard | Torque Spec | Engineering Notes |
|---|---|---|---|---|
| No verified compatibility data found for this component. | ||||