Case Study of Silicon Adhesive: Efficient Solution for Enhancing Inductance Reinforcement of Controller Circuit Boards

BackgroundIn modern electronic devices, the controller circuit board is one of the core components, and its performance stability and reliability directly affect the operational efficiency of the entire system. However, in practical applications, due to the complex and variable working environment (such as temperature fluctuations, vibrations, etc.), the inductive components on the controller circuit board are easily affected by external factors and may become loose or damaged, thereby affecting the normal operation of the entire system. Therefore, how to effectively enhance the stability of these key components has become an urgent problem to be solved. ChallengeRapid curing requirement: In order to not affect production efficiency, the reinforcement material used must be able to complete the curing process in a short period of time.Fluid characteristic requirements: The ideal reinforcement material should have good flowability so that it can evenly cover around the inductor without unnecessary diffusion due to excessive flow.Strong environmental adaptability: considering the various use scenarios that electronic products may face, reinforcement materials also need to have excellent temperature resistance and aging resistance.SolutionAfter comprehensive consideration, we have chosen SIPC 1823 silicone adhesive sealant as the solution for this project. This product not only meets all the technical requirements mentioned above, but also has received widespread praise for its unique performance advantages:Rapid solidification of Nanjing University system: Developed based on advanced Nanjing University chemical system, SIPC 1823 can achieve complete solidification in a relatively short time, greatly reducing the waiting time on the production line.Slimming of paste body: This product presents a state between liquid and solid – paste body sagging, which ensures sufficient fluidity to adapt to inductance components of different shapes and sizes, while avoiding waste problems caused by excessive flow.High transparency and environmental friendliness: In addition to excellent physical performance, SIPC 1823 also has extremely high transparency, which…