Shaping the Future of Care
We create high-quality prototypes for medical equipment, focusing on precision, safety, and accuracy, turning concepts into physical devices
Medical Equipment Prototypes
In health care industry, prototypes for medical use allow for the testing of parts without having to invest a huge amount of capital in tooling. By extension, the cost of design iterations and changes are greatly reduced when using prototypes in the testing and design stages of medical product development
Xinprototype solutions provide the flexibility to optimize designs quickly and cost-effectively. Medical equipment prototypes directly from CAD data enable fast, frequent revisions based on real-world testing and feedback. So you can validate and verify your products sooner, and go to market faster. Let’s build a healthier world together.
Case Studies
The medical device housing was made from ABS material using vacuum casting. Finished with a white color painting, it feels clean and good appearance. Small batch production 50pcs to test markets.
The medical device housing was also made from ABS material using vacuum casting. Finished with one part is black color matte painting , and another part is chrome plate, and then assembled them.
Vacuum Casting is Important for Medical
In medical device development, speed and accuracy are critical. Vacuum casting offers both, enabling rapid replication of prototype parts with good quality. In this case, the process is ideal for creating functional models of housings, enclosures, and ergonomic components.
Using high-quality silicone molds and raw materials such as ABS, PC, or transparent PMMA, vacuum casting produces parts that mirror final production in appearance and function. This method ensures that smooth surfaces, precise dimensions, and excellent surface finishes. These are critical factors for medical devices that must meet strict standards.
Vacuum casting shortens development cycles, reduces costs, and minimizes risk. It bridges the gap between concept validation and manufacturing readiness, making it an indispensable tool in medical prototyping.
CNC Machining in Medical Prototyping
Precision 5 Axis CNC machining enables the creation of complex geometries with micron-level accuracy, ensuring that every curve, hole, and surface aligns perfectly with the intended design.
From intricate surgical tools to robust diagnostic housings, CNC machining transforms digital concepts into tangible prototypes that match production-level quality. High-grade materials such as food-grade stainless steel, titanium, and aluminum are shaped with exceptional control, delivering parts that withstand rigorous testing and meet strict regulatory standards.
By combining speed, repeatability, and design flexibility, CNC machining reduces development cycles and accelerates approval timelines.
Prototypes That Protect Lives
Precision-crafted components bring medical innovations to life. High-accuracy machining, vacuum casting, injection molding, and 3D printing transform ideas into reliable parts for diagnostic machines, surgical tools, patient monitors, rehabilitation devices, and laboratory instruments.
Materials like biocompatible plastics, stainless steel, aluminum, and titanium meet stringent safety and hygiene requirements. Each prototype is produced with the same attention to cleanliness and dimensional accuracy as final production.
Startups and R&D teams benefit from rapid prototyping that shortens testing and approval cycles. Low-volume runs allow for market trials and limited releases before scaling to full production, reducing risk while ensuring every detail is ready for the clinical environment.
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