Yes. Our specialized equipment and over a decade of experience enable precise machining of refractory metals such as titanium, molybdenum, and zirconium. We serve the aerospace, medical, and nuclear industries, delivering components with consistent quality.
We adhere to industry-standard tight tolerances for our manufacturing processes. For most standard projects, our typical tolerance range is ±0.01 mm, ensuring consistent quality for general industrial applications. For high-criticality components (such as aerospace and precision instrumentation parts), we can further tighten tolerances to ±0.005 mm—a specification that fully complies with the stringent benchmarks of high-precision
We use coolant systems and optimized cutting parameters to manage heat. For heat-sensitive alloys, we also deploy air-cooling or cryogenic cooling methods, preventing material deformation and ensuring machining accuracy.
Our post-machining options include surface finishing (e.g., polishing, anodizing), heat treatment for material property enhancement, and basic assembly. We also provide quality inspection reports (e.g., dimensional checks, material certification) to support your production workflow.
Standard lead times range from 2–4 weeks for most machining orders, depending on complexity and volume. For rush projects, we prioritize and adjust schedules where possible—contact us directly for urgent requests, and we’ll align timelines with your needs.
Yes. We supply material certificates (e.g., COA – Certificate of Analysis) for all orders, documenting alloy composition, mechanical properties, and compliance with industry standards (e.g., ASTM, AS9100 for aerospace). Custom reports can be arranged upon request.
While we specialize in refractory metals, extremely brittle or unstable materials (e.g., some exotic alloys with untested formulations) may pose risks. We assess feasibility on a case-by-case basis—share your material specs, and we’ll advise if machining is viable.
Absolutely. Our engineering team collaborates with clients to optimize designs for manufacturability (DFM). We review CAD files, suggest adjustments to reduce costs/time, and ensure designs align with machining capabilities for seamless production.
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