Unfortunately, my friends, we still haven’t received any information about your specific interests. Therefore, today’s topic is one we’ve chosen ourselves. I believe you will find it quite intriguing — we’ll be delving into the application of LSR Liquid Silicone in waterproof technology. When it comes to using your cellphone, water damage can be a significant concern. Typically, a phone won’t function properly after being submerged. However, the topic we’re discussing today could greatly contribute to product innovation. Let’s explore it together.
As an industrial designer, staying informed about innovative materials is crucial for creating cutting-edge products. The challenge of achieving waterproof features in product design is especially common in communication and other industries. This is evident in the design of “three-proof” mobile phones, where a combination of technology and materials addresses both technical and material aspects to meet customers’ waterproofing needs.
Liquid Silicone Rubber (LSR) emerges as a preferred material for creating waterproof structures, offering a range of impressive characteristics. These include excellent electrical insulation, resistance to aging, high mechanical strength, good elasticity, fast molding capabilities, and environmental friendliness. LSR’s versatility allows for the creation of serialized and differentiated products with different shapes and uses.
LSR finds extensive applications in various industries, with a notable presence in consumer electronics, automotive components, and medical devices. The Samsung S7 is a noteworthy example, incorporating LSR in its components to ensure effective waterproofing.
The core technology driving LSR applications is Liquid Silicone Rubber Injection Molding (LSR/LIM). This manufacturing process, involving the injection of liquid silicone rubber into a mold, is key to achieving precision in molding, particularly for creating silicone seals in smartphones.
Precision injection molding poses challenges related to mold manufacturing, temperature control, and feeding pressure. Overcoming these challenges is crucial for ensuring the final product’s waterproof functionality. Meticulous control over millimeter and micron-sized details, temperature during the demolding process, and feeding pressure is essential for achieving desired results.
Looking at the market outlook, the consumer electronics sector, with its high precision requirements, presents a significant market for LSR. As waterproof technology continues to advance, the market size for waterproof silicone structural parts is anticipated to exceed $3 billion by 2020.
Beyond smart terminals, LSR’s potential extends to the automotive industry, where it plays a crucial role in seals and surface finishing. This contributes to an estimated market size of $40.5 billion by 2020. Furthermore, in the medical field, LSR’s biological inertness makes it a valuable material for medical devices and supplies.
In conclusion, LSR is not just a material; it’s a transformative force in waterproof technology. As industries increasingly recognize its potential, we anticipate a future where LSR becomes synonymous with innovation, ensuring the durability and reliability of products across diverse sectors.
Well guys, that’s it for today, what I want most is your feedback on our blog, I hope you have a deeper understanding of LSR that can be applied to your products, and I hope that our company will be your partner, remember, we are with you.