Silicone gel has become one of the indispensable materials in many fields due to its unique physical and chemical properties, as well as its excellent performance in moisture absorption, dehumidification, moisture-proof, heat preservation, and protection.
1. Hygroscopicity and dehumidification
Silicone gel is widely used in many fields due to its excellent hygroscopicity and dehumidification properties. It can absorb a large amount of water and also release water quickly, making it play an irreplaceable role in moisture-proof and dehumidification.
2. Chemical stability and biocompatibility
Silicone gel has excellent chemical stability and can maintain its structural stability under different chemical environments. At the same time, it is extremely biocompatible, so it is often used in the medical field to make medical devices and biomedical materials.
3. Thermal stability and insulation properties
Silicone gel exhibits good thermal stability and is able to maintain its properties in high-temperature environments. This makes it widely used in high-temperature environments in electronics, aerospace and other fields. At the same time, it also has excellent insulation properties, providing good protection for electronic equipment.
4. Excellent physical elasticity
Silicone gel is lightweight, making it widely used in lightweight design and manufacturing. At the same time, it also exhibits excellent physical elasticity and can maintain its shape under forces such as extrusion and stretching, providing greater flexibility for engineering and design in various fields.
5. Environmentally friendly and sustainable
Compared with some traditional materials, silicone gel is more environmentally friendly, does not produce harmful gases during its manufacturing process, and can be reused many times. This is consistent with today's society's requirements for sustainable development and has broad application prospects in the field of environmental protection.
6. Application cases in medicine, electronics, aviation, etc.
Silicone gel has been used in drug sustained-release systems and medical devices in the pharmaceutical field; in the electronic field it is used to encapsulate and protect electronic components; in the aviation field it is used for the thermal insulation protection of spacecrafts and has been successful in many fields. application cases.