This Titanium Grade 5 stock sheet offers exceptional strength-to-weight ratio and superior corrosion resistance. Engineered for reliability in challenging industrial applications, it provides robust solutions for suspending and bracing components.
| Standard | ASTM A106 |
| Material | Titanium Grade 5 |
| Finish | Zinc Plated |
| Grade | N/A |
| Thickness | 0.029" |
| Length | 40" |
| Width | 29" |
Designed for demanding industrial environments, this Titanium Grade 5 (Ti-6Al-4V) stock sheet measures 0.029 inches in thickness, 40 inches in length, and 29 inches in width. Its exceptional tensile strength (130 ksi minimum) and corrosion resistance make it ideal for aerospace, medical, and marine structural applications where weight reduction and longevity are critical. The alloy's biocompatibility and resistance to aggressive media ensure performance and safety in the most challenging operational conditions.
This component strictly adheres to the tolerances, material specifications, and quality benchmarks set by the world's leading industrial manufacturers.
1. Ensure the cutting area is clean and free of debris. Use appropriate cutting tools rated for titanium alloys. 2. Carefully measure and mark the desired dimensions on the stock sheet, adhering to fabrication tolerances. 3. Secure the sheet to prevent movement during cutting and further fabrication processes such as bending or drilling, using methods that avoid excessive stress concentration.
| Standard System | Designation |
|---|---|
| ISO Equivalent | ISO 9001:2015 Mfg |
| DIN Equivalent | Industry Standard |
| Primary Standard | ASTM A106 |
| 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 overheat and damage the titanium. | Employ specialized tooling designed for titanium, such as carbide or diamond-coated blades, and utilize appropriate lubrication to manage heat and ensure clean cuts. |
| Applying excessive force during bending or forming, leading to micro-fractures or deformation. | Utilize controlled bending techniques with appropriate tooling and consider annealing if significant cold working is required to maintain material integrity. |
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 supports.
Conversion factor: 1 ft-lb ≈ 1.356 Nm
| Status | Mating Component | Standard | Torque Spec | Engineering Notes |
|---|---|---|---|---|
| No verified compatibility data found for this component. | ||||