Medical electronic equipment leaves no room for error, yet practical challenges abound: portable blood glucose monitors suffer component displacement during transport due to vibrations, leading to inaccurate readings; medical monitors exposed to disinfectants face corrosion of housings and internal components; ultrasound diagnostic probe performance fluctuates under extreme temperatures. These issues not only shorten device lifespans but could also compromise diagnostic outcomes. The IOTA LSR 3100G addition-cure electronic potting compound acts like "safety protective gear" for medical electronics—providing shock resistance, corrosion protection, extreme temperature tolerance, and superior insulation to ensure precise and stable operation.

Designed specifically for the high demands of medical electronics, this potting compound offers first-class insulation: its volume resistivity is exceptionally high, effectively preventing short circuits like a double-layered insulating glove for circuits, with a breakdown voltage exceeding 20 KV/mm for stable performance even in complex electrical environments. With a viscosity akin to thick rice porridge, it flows just right to precisely encapsulate delicate components without clogging fine interfaces or channels. Once cured, it becomes soft and elastic—gentle as medical-grade silicone, non-damaging to precision parts, and capable of absorbing operational vibrations and external impacts. Its chemical stability is outstanding, resisting corrosion from disinfectants, alcohol, and other medical chemicals without aging or cracking over prolonged exposure. It also boasts a wide temperature resistance range from -50°C to 250°C, ensuring reliable function in cold transport conditions and within devices after high-temperature sterilization.

In the medical electronics field, its adaptability is exceptional:

• Portable blood glucose monitor PCBs, once potted, absorb transport vibrations to ensure measurement accuracy.

• Medical monitor internal modules, after encapsulation, resist disinfectant corrosion for extended service life.

• Ultrasound diagnostic probes, sealed with it, maintain stable performance unaffected by temperature extremes.

• Infusion pump control modules, potted to block moisture and dust, prevent malfunctions.

• ECG monitor terminal connections, sealed to prevent poor contact and ensure continuous, accurate monitoring.

Using it is particularly hassle-free. Components A and B mix in a 1:1 ratio—simple to measure and ideal for precision medical device manufacturing. After mixing, there’s a 50–60 minute working time, ample for meticulous potting without compromising precision. Small-scale testing beforehand is recommended, avoiding substances like butyl rubber or sulfur-containing materials that could hinder curing. It cures completely at room temperature within 24 hours, requiring no additional heat and posing no risk to delicate components. Store in a cool place below 30°C—unopened, it has a shelf life of ≥12 months. If sedimentation occurs during long-term storage, simply stir until uniform before use. Environmentally friendly and odor-free, it meets medical device eco-standards and is suitable for both small-batch customization and large-scale production.