TZM Forging Billets
Elmet Technologies produces TZM forging billets that exhibit exceptional strength, high temperature resistance, and superior durability. Our high-performance materials enable manufacturing processes, such as forging, to create parts that need to be durable and heat-resistant. We regularly develop and customize billets for various partners in the aerospace, defense, and industrial sectors.
When you partner with Elmet Technologies, you receive expert technical support, fast turnaround times, and a commitment to customer success from prototype through production. Discuss your high-quality billet requirements with our team of experts today.
High Performance TZM Forging Billets
Engineered for critical, high-temperature applications, Elmet Technologies’ TZM forging billets combine molybdenum (Mo), titanium (Ti), and zirconium (Zr). The combination of these materials helps to deliver superior thermal and mechanical performance, along with exceptional hardness and creep resistance. With our quality process, we optimize each billet per exact project requirements.
Trusted Service. Proven Quality.
- End-to-end, fully-integrated production capabilities from powder to product
- ISO9001, AS9100, A2LA, and ITAR registrations, accreditations, and quality systems
- Large size and shape capabilities, with rectangular, cylindrical, and other geometries
- Project-specific, technical customer support with industry-leading engineering teams
- Specialty materials and components optimized for high-performance forging processes
- TZM forging billet and alloy material precision engineered to meet unique requirements
- An exclusive vacuum arc-casting process for high-quality, precision-manufactured parts
TZM Forging Billets: Specifications
CHARACTERISTICS
Maximum Product Dimensions
| Pressed and Sintered Billet | 29 inch diameter (74 cm)/10,000 lbs. (4536 kg) |
Minimum Density (based on 10.2 g/cc)
| Pressed and Sintered Billet | 94% |
About High-Performance TZM Alloy
Elmet Technologies’ TZM alloy is comprised of 0.50% Titanium, 0.08% Zirconium, and the balance of Molybdenum. It is engineered through advanced powder metallurgy. This unique combination significantly enhances the material’s tensile strength and resistance to creep under high-temperature conditions. TZM maintains superior performance at elevated operating temperatures, outperforming pure molybdenum, while also preserving structural integrity in addition to mechanical properties