Indium Corporations Milo Lazi, product development specialist, will share his industry knowledge on metal thermal interface materials (TIMs) in high-performance applications at SEMI-THERM, March 21-25, San Jose, Calif., U.S.
Because of their high bulk thermal conductivity, metal TIMs have been explored and used in niche applications for many years. As we continue to see the advancement of high-performance integrated circuit packages, managing heat dissipation continues to be a critical part of the design. As polymeric TIMs are reaching physical limits relative to thermal conductivity, there is a need for higher performing materials. Metal TIMs will play a critical role in addressing this need.
In this presentation, Lazi will discuss the needs of several package styles as well as some specialized systems. Through the discussion of their heat dissipation challenges, he will provide data on how specially-designed metal TIMs could be part of that solution. Because there are widely divergent needs for TIMs, five categories of metal TIMs technology are available to address sub-sets of these needs. A detailed review of these material categories, performance attributes, and key assembly parameters will be discussed, enabling the attendee to make intelligent decisions on when to consider metal TIMs and which category of metal TIM might be the most appropriate for a given application.
Lazi will also give a vendor presentation on The Power of m2TIMs. Solid liquid hybrid (SLH) TIMs are a combination of metals that are solid at room temperature with those that are liquid at room temperature. These materials are separated into two categories: m2TIMs (liquid metal with solid metal preforms) and hybrid liquid pastes. In this presentation, Lazi will show that adding solid metal to liquid metal can improve the properties of TIMs. That type of leakage-free TIM (none of the material will pump out) will be less prone to oxidation and will be able to survive a larger number of thermal cycles. Overall, thermal conductivity will be higher due to the higher conductivity of solid metals. Lazi will show how different types of solid metals in m2TIMssolder preforms, compressible TIMs, and reinforced matrixed solder composites (preforms with a copper matrix)can be used in different TIM applications. He will show which type of m2TIMs are recommended for different types of TIMs: TIM1, TIM2, and TIM1.5 (or TIM0). Finally, he will show which kind of automated process for high-volume production is best suited for each of these m2TIMs.
For more information about Indium Corporations technical knowledge, thermal solutions, and experts, visit booth #500 at the show.
Lazi provides technical support, including guidance and recommendations to customers related to process steps, equipment, techniques, and materials. In addition, he delivers technical training to staff and industry partners. Lazi attended the University of Nis, School of Electronic Engineering, where he earned his bachelors degree in electrical engineering and masters degree (M. Eng.) in electronic engineering. Lazi is a founder of the non-profit organization Urban Youth Forum, which encourages students to plan, develop, and execute projects involving environmental protection through the recycling of electronic waste.
關於 Indium Corporation
Indium Corporation 是全球電子、半導體、薄膜和熱管理市場的主要材料精煉商、冶煉商、製造商和供應商。產品包括焊料和助熔劑、銅钎、熱介面材料、濺鍍靶材、铟、鎵、錫金屬和無機化合物,以及 NanoFoil 。公司成立於 1934 年,擁有全球性的技術支援,工廠分佈於中國、德國、印度、馬來西亞、新加坡、南韓、英國和美國。
如需更多關於 Indium Corporation 的資訊,請造訪www.indium.com或寄電子郵件給Jingya Huang。您也可以透過www.linkedin.com/company/indium-corporation/或@IndiumCorp 追蹤我們的專家,From One Engineer To Another (#FOETA)。
About SEMI-THERM
SEMI-THERM is an international forum dedicated to the thermal management and characterization of electronic components and systems. It provides knowledge covering all thermal length scales from IC to facility level. The symposium fosters the exchange of knowledge between thermal engineers, professionals, and leading experts from the industry as well as the exchange of information on the latest academic and industrial advances in electronics thermal management.
