In the medical device industry, material selection is not merely an engineering decision—it is a patient safety imperative. Among the growing palette of medical-grade polymers, Liquid Silicone Rubber (LSR) has emerged as a material of choice for critical applications ranging from implantable devices to precision sealing components.
But what makes LSR unique? And how does it compare to alternatives like PVC, TPU, or conventional rubber? More importantly, how does its injection molding process differ from other soft plastics, and what products benefit from this technology?
This blog post explores these questions through the lens of manufacturing practicality, regulatory compliance, and real-world application.
In daily household appliances, small filter screens and dust-proof covers often get overlooked, yet they play an irreplaceable role in filtration, ventilation and dust isolation. Today we are sharing our customized single-cavity injection mold specially designed for plastic filter mesh and filter cover production, along with the core advantages of injection molding this type of thin-wall filter part.
READ MOREIntroduction: Transparency Is Not Just About Looks
When a product requires clarity, the first instinct is often to choose the clearest material available. But in injection molding, transparency is only the starting point.
Most manufacturers believe a mold trial is simple: run the mold, produce a few samples, check appearance and dimensions, confirm assembly fits, get approval, and call it a day.
But every experienced tooling and injection molding engineer knows the harsh truth:
The worst-case scenario is not bad samples during trial runs — it is perfect trial samples and collapsed mass production.
Nowadays, NFC (Near Field Communication) embedded plastic parts have become standard for smart home appliances, automotive interiors, brand anti-counterfeiting, medical devices, and industrial asset management. However, many product engineers and mold manufacturers only know two common methods: post-molding sticker attachment and basic in-mold insertion.
In fact, there are 8 mature industrial-grade processes to combine NFC tags with injection-molded products. Each method differs greatly in cost, durability, waterproof performance, yield rate, and mass production adaptability.
This blog systematically sorts out all NFC + injection molding integration technologies, helping you select the most reliable and cost-effective solution for your project.
In plastic product manufacturing, especially for injection-molded housings and components, two mainstream joining and sealing processes dominate mass production: glue sealing and ultrasonic welding. Both methods can assemble and seal plastic parts, but they differ drastically in working principles, compatibility with injection molding defects, production efficiency, structural design requirements, and long-term reliability.
For product designers, mold engineers, and production managers, choosing the right process directly impacts yield rate, waterproof performance, production cost, and product service life. This blog will analyze the two processes centered oninjection molding product characteristics to help you make optimal manufacturing decisions.