~Composition Design Lecture Series [Thermal Conductivity Design]~
With the advanced development of electrical and electronic devices, various problems caused by heat generated internally have become apparent. As a powerful measure to address these issues, efforts are being made to impart thermal conductivity to rubber, plastics, adhesives, and greases, allowing heat to dissipate outside the system. Originally, polymers possess an inherent property that hinders thermal conductivity. Bestowing thermal conductivity to their compositions presents a significant challenge and is also a battle against high technical difficulties. As part of addressing this issue, a seminar titled "Eye-Opening Thermal Conductive Compositions Design Guide" was held in November 2011, attracting numerous participants. Following the seminar, questions and consultations continued, leading to the planning of this lecture transcript as a technical document that can be referenced on demand. The lecture transcript includes parts that could not be explained in detail during the seminar due to time constraints, as well as sections that were omitted from the program, all newly drafted and incorporated. It is structured to enable understanding and confirmation of all technical elements, from formulation design and manufacturing technology to thermal conductivity measurement and theoretical considerations.
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■Author Satoshi Watanabe, Technical Consultant, Professional Engineer [Chemical Division], Materials Technology Research Institute ■Table of Contents Before entering the main topic of the lecture, I would like to present the "Fundamental Concepts of Thermal Conductive Composition Design" - Factors influencing thermal conductivity in compositions - The relationship between thermal conductivity and carrier content - Reconsideration of coefficient b - Carrier charging and kneading work - Factors related to carrier content - Coefficient a that affects thermal conductivity - Maximizing the capabilities of carriers - How to proceed with the lecture First Scale of Understanding - First, let's correct your misunderstandings Second Scale of Understanding - Cultivating the ability to select thermal conductive materials Third Scale of Understanding - Unexpected barriers: Measuring thermal conductivity amidst risks Fourth Scale of Understanding - Pitfalls in composition design that even veterans fall into Fifth Scale of Understanding - Exceptional characteristics! But why aren’t they selling? Q&A Session ...A faithful recreation of the heated exchange between the students and the instructor on the day. Additionally, this book includes significantly more detailed explanations!
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