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To provide a comprehensive quote, we ideally need a 2D drawing (PDF) and a 3D model (STEP/IGES) of your stator/rotor design. Please also include material specifications, required tolerances, annual production volume, and any specific assembly or testing requirements. The more detail you provide, the more accurate our quote will be.

Our rapid prototyping service, using laser cutting or wire EDM, typically delivers initial samples within 7-21 days, depending on complexity and material availability. For mass production, lead times vary based on tooling requirements. Once tooling is complete and approved, production lead times are highly competitive and will be detailed in your formal quotation.

We operate under a strict code of confidentiality. We are fully prepared to sign a Non-Disclosure Agreement (NDA) before reviewing any sensitive project details. Our internal data management systems are secure, and we have a long history of trusted collaboration with global technology leaders. Your designs are safe with us.

Absolutely. We strongly encourage collaboration early in the design phase. Our engineers can provide Design for Manufacturability (DFM) feedback to help you optimize your design for cost-effectiveness, performance, and reliability. We can advise on material selection, tolerance stacking, and the ideal bonding method for your specific application.

Self-Bonding (Backlack) uses pre-coated laminations that are heated and pressed, forming a solid, seamless core with excellent magnetic properties and heat transfer. It’s ideal for high-frequency applications. Laser Welding provides superior mechanical strength by creating a weld seam along the outside of the stack. It’s excellent for very high-speed rotors but can create a small “short circuit” for eddy currents along the weld path. The best choice depends entirely on your motor’s operating conditions and performance goals. Our experts can help you decide.