 Computers: CPU, GPU and other core chips will generate a lot of heat when running. Thermal conductive materials such as thermal grease and thermal pads can quickly transfer the heat generated by the chip to the heat sink, and then dissipate the heat through cooling devices such as fans to ensure stable operation of the computer and prevent performance degradation or hardware damage due to overheating.
 Smartphones: The processor, battery and other components of the mobile phone will also generate heat when working. Thermal conductive graphite sheets, thermal conductive gels and other materials can evenly disperse the heat, improve the heat dissipation efficiency of the mobile phone, enhance user experience and extend battery life.
 Home appliances: Control panels, compressors and other components such as air conditioners, refrigerators and washing machines require thermal conductive materials to dissipate heat to ensure the normal operation and service life of home appliances.

 5G base stations: Power amplifiers, filters and other equipment in 5G base stations will generate a lot of heat during operation, and have extremely high requirements for heat dissipation. High-performance thermal conductive materials such as thermal conductive ceramics and phase change thermal conductive materials are widely used to ensure that base station equipment can maintain stable working performance in high temperature environments and ensure stable transmission of communication signals.
 Optical communication equipment: Lasers, detectors and other components in optical communication equipment such as optical modules and fiber amplifiers are extremely sensitive to temperature. Thermal conductive materials can effectively control the temperature of these components to ensure the transmission quality and reliability of optical communication systems.

 New energy vehicle battery system: The battery pack will generate heat during the charging and discharging process. In order to ensure the performance and safety of the battery, thermal conductive pads, thermal conductive glue and other materials are needed to transfer the heat generated by the battery to the heat dissipation system to keep the battery pack within a suitable temperature range.
 Automotive electronic system: The engine control unit (ECU), on-board display, audio system and other electronic equipment of the car will also generate heat when working. Thermal conductive materials can help these devices dissipate heat, improve their reliability and stability, and ensure the normal driving of the car.

 Power equipment: Transformers, distribution cabinets, inverters and other power equipment will generate a lot of heat during operation. Thermal conductive materials can quickly conduct heat to prevent equipment from being damaged due to overheating, and improve the safety and stability of the power system.
 Industrial automation equipment: Industrial automation equipment such as PLC controllers, servo drives, sensors, etc. also need thermal conductive materials to dissipate heat during operation to ensure the accuracy and reliability of the equipment and improve production efficiency.

 Aircraft engines: Aircraft engines will generate extremely high temperatures during operation, and high-temperature resistant and high-thermal conductive materials are needed to dissipate heat to ensure the performance and reliability of the engine. For example, new thermal conductive materials such as ceramic-based composite materials have been widely used in thermal barrier coatings, combustion chambers and other components of aircraft engines.
 Satellite electronic equipment: When satellites are operating in space, they face extreme temperature environments. Their electronic equipment such as communication modules and power systems need to use high-performance thermal conductive materials to ensure temperature stability and ensure the normal operation of satellites.

 Medical imaging equipment: High-power electronic components in medical imaging equipment such as CT and MRI will generate heat when working. Thermal conductive materials can dissipate the heat in time to ensure the imaging quality and stability of the equipment and provide doctors with accurate diagnosis basis.
 Medical electronic equipment: Batteries and electronic circuits in medical electronic equipment such as pacemakers and defibrillators will also generate heat when working. The application of thermal conductive materials can ensure that these devices operate within a safe temperature range and protect the life safety of patients.