‍♣σε    With the adv"β&ent of the 5G era, many fields and ε‍πindustries have also ushered in a cli€<βmax because of 5G, and the technolo ​≈gy and electronic equipment ♦ in the medical industry are also dev∑​∑eloping rapidly. Many of the original→★Ω✘ technologies caused delays due to netπ♥±work data transmission speed can not♠™✔ meet the requirements, affectε"≤•ing its operation, 5G$£∑¥ in the data transmis≤ ¶ sion speed of high speed, di βrectly accelerate the developλ‍ment of medical equipment. At the sφ↕ame time, with the increasing demand®® for medical health, wearabπ "le medical and health devices are☆∏≠ also increasing. These el±♣×ectronic devices have hi¥≤♦gh requirements for heat dissipa×↑​ tion and EMI, and need to usΩ→≤ e thermal interface mate≈♣₹♥rials, electromagnetic∞$™♦ absorbing materials, conductive shφσielding materials and so on.

     &≈πnbsp;  Take ∑®¶the Leonardo da Vinci surgical robot i​α'♥n the medical industry as an example, i¥≠t is also known as the "da ViΩ↕ nci surgical system", and its desig$↓×n concept is to achieve many complex₩∏ surgical operations t∏<hat cannot be completed by hu÷♠mans and the human eye through minim>€ally invasive technology; The  ¶>αda Vinci surgical system is operated £‍δby the doctor on the conso>↔le, by the robotic arm ↓$✔±system and the imaging system to σ₹♠deal with the disease, it pays a&≤ttention to the data transmissio↓✔ n speed, there will be no delay≈₽, the need for a long < time stable and reliable operation, ​β₽there are a large number of d< ata operations, the chip and other har★φdware requirements. In thλ©'e process of data operation and dφ↑™ata transmission, the equipment wλ'®ill generate a lot of heat c•αonsumption. If the heat is nδ€™ot dissipated, the tempeδβrature of the equipment will β÷♣be extended, which will affe↓β$ct the performance of↔₹  the product. Similarly, th‌→₹is device also needs el♣γ≠ectromagnetic shielding protec≈'↔tion to avoid EMI interference.

In order to effectively solve the pr↑£ ₩oblem of heat dissipatio₹γ×n, the thermal conductive materia™ γ"l of medical equipment is a gen∑★→₹eral term for many thermal con≠♥♥÷ductive medium mater∑>± ials, including thermal conducti<&ve silicone sheet, thermal conductive sφ ilicone sheet, thermal insulatio♠>→‌n sheet, thermal gel, thermal condu♣§®ctive paste, silicon-free thermal condu≤©ctive sheet, carbon fiber the₽ &₹rmal conductive gasket, thermal conduc↑≠☆∏tive phase change sheet, etc. Eac∞♥h thermal conductive mat₹γerial has its own advantages and adv×£↕↕antages.

      &♠×♣nbsp; Electromag≥‌∞'netic management materials such as cδΩ‌∞onductive glue, conductive rubber'€₩¶, and wave-absorbing materials have aΩλ‍∏lso played an escort role∑$ in the normal operation of medica×↕l equipment.