Silanex always lead the industry technology progress in field of thermal
|2008||Dialectical relationship between thermal conductivity and heat dissipation|
|2009||Improve heat flux density and conductivity efficiency|
|2010||Ceramic substrates replaced aluminum plate|
|2011||No direct relation between Tc and Tj|
Whole-lamp structure will become simpler, structural integration and automation
production became mainstream
|2013||High density SMD packaging technology became mainstream|
|2014||Gradually formed innovative technology integration system|
|2015||LED chip size will be continuously smaller|
Silanex dedicated to heat and structural integration solutions and has applied to many fields
LED lighting, solar photovoltaic, optical communication, fuel cells, thermoelectric semiconductor, fiber laser, security and wearable devices, etc.
As the global has put an eye on low-carbon economy, LED lighting product will usher into a rapid and precious development opportunity due to its advantages in the field of saving energy and reducing consumption.
Under the current situation of low-carbon economy, LED lighting products are growing popular in market and gradually replacing the traditional incandescent lamp, meanwhile the thermal program generated by LED characteristics has also become the focus.
Against the common LED problems, Silanex researched and developed thermal conductive adhesive materials, mainly used in bonding source and radiator with function of fixed structure and increasing conductivity performance.
Optical communication technology is growing mature. Optical fiber communication is the main transport of all kinds of network communication and has played a vital role in the construction of information superhighway. Communication devices require high demands on high temperature reliability and components paste precision. Silanex thermal conductive adhesive possesses many advantages such as low shrinkage rate, good temperature resistance and good long-term reliability which is widely used in optical communication industry
Thermoelectric semiconductor has a wide range of application fields including military, medical, industrial, consumer goods, telecom industry and scientific research and laboratory, for example, from food and beverage refrigerators of family picnic to the precise temperature control system of missiles or aircraft machine. Unlike ordinary radiator, thermoelectric refrigerator not only can sustain object’s temperature constancy within a widely-ranged ambient temperature, but also reduce it below the ambient temperature. As it were, the thermoelectric refrigerator is an active cooling system and ordinary radiator can only provide passive cooling. As thermoelectric refrigerator produces heat while working with rapid change of working environment temperature, Silanex’s thermal conductive adhesive can effectively improve life and efficiency of thermoelectric semiconductor devices with its high working temperature adaptability (normal work from -40℃ to +150℃ circulating temperature).
For many years people have been trying to find energy utilization with both higher efficiency and lower pollution. Fuel cell is an ideal generation technology. With its many advantages, fuel cell is also very complex, involving chemical thermodynamics, electrochemistry, catalysis, materials science, electric power system, automatic control and many other disciplines related theory. It also has a very wide-range of use. It can be applied to military, space, power plants, vehicles, mobile equipment, household and other fields. At present, Silanex cooperates with well-known military enterprises and developed a new type of fuel cell, making full use of the advantages like strong sealing and high bonding strength between different interfaces.
With crystalline silicon and thin film battery photoelectric conversion, respectively is the first and the second generation of solar energy utilization technology, has been widely used. Using optical element will gather again after sun's rays using power of concentrated solar technology, is considered to be solar power's future development trend of the third generation technology. Different from the traditional silicon and thin film, the most significant advantage of HCPV technology is its highlights electric conversion.