In the medical industry, healthcare professionals and patients rely on high-quality and reliable medical devices that have undergone rigorous prototyping and testing to ensure their efficacy and safety. As a result, the demand for accurate, safe, and swiftly produced components is high, so versatile manufacturing techniques can effectively address industry needs.
Vacuum casting is one such method, offering a host of benefits in medical device prototyping and short production runs. So, why should you choose vacuum casting for prototyping above traditional tooling techniques?
Medical devices often feature intricate designs with fine details, thin walls, and undercuts that are difficult to achieve using certain traditional manufacturing methods. By creating a silicone mould from a master model - typically produced via 3D printing rapid master creation and tooling techniques - vacuum casting can accurately replicate complex geometries with a high degree of fidelity. In fact, this method aims to achieve results similar in accuracy level to injection moulding. This is particularly advantageous in the production of functional prototypes and low-volume runs of medical devices.
With demand for medical devices high, reducing the time-to-market is critical and can be a decisive factor in strengthening your business’s reputation. Vacuum casting offers remarkably short turnaround times, enabling rapid prototyping and device production. Once the master model is prepared, silicone moulds can be swiftly created, often in as little as a day. Subsequent casting and curing processes are also expedited, allowing multiple parts to be produced in days. A high degree of speed and efficiency facilitates quick design iterations and accelerates the transition from prototype to final product, meeting the industry's need for rapid development cycles.
Cost-effectiveness is a significant consideration in the manufacture of medical devices, particularly during the prototyping phase. Vacuum casting is an economical choice, particularly for small batch production, utilising comparatively inexpensive silicone moulds which can be produced rapidly from master models. This eliminates the need for costly and time-consuming metal tooling which is often associated with traditional manufacturing methods: typically, the price per part ranges from £15 to £100. Consequently, vacuum casting reduces both the initial investment and overall production costs, making it an attractive option for businesses planning to develop medical device prototypes or produce low-volume runs.
Because of its versatility, vacuum casting can be used with a range of materials, allowing manufacturers to select materials that closely mimic the final product's characteristics, whether flexible or rigid. Polyurethane resins used in vacuum casting are available in different formulations, offering contrasting mechanical properties, biocompatibility, and chemical resistance. Flexibility ensures that prototypes not only look but also feel and perform like the end product, which is essential for effective testing and validation in medical applications.
Finally, it is imperative to maintain quality standards in the production of medical devices to guarantee high levels of performance and protect end-users from harm. Vacuum casting consistently delivers parts with excellent dimensional accuracy and surface finishes. Because the process operates under vacuum conditions, eliminating air bubbles and ensuring complete mould filling, prototypes are robust and capable of withstanding rigorous use.
At Complete Fabrication, we can help your business create realistic and precise medical prototypes using our state-of-the-art vacuum casting applications. For more information, please call us today on 01223 836837 or subscribe to our mailing list for the latest news.