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Thermally Managed ( up to 1000 W /m K thermal transfer rate ), CTE controlled, Very Rigid, Light Weight STABLCOR PCB / Substrate Technology
STABLCOR� is a Thermally Managed PCB / Substrate material technology with many benefits: High Thermal Conductivity with a product family that ranges from 100 W/m K up to 1000 W/m K Can more closely match the CTE mismatch that is common today bet
Innovative Materials, Superior Performance. Our printed circuit board and semiconductor packaging materials provide superior thermal and mechanical performance, a fact we’ve prided ourselves on for over 45 years. All our materials are RoHS complian
Electronics Forum | Thu Sep 14 14:37:45 EDT 2000 | Serrena Carter
Does anyone know where I can find good rule of thumb information on soldering/brazing. I am most interested learning the maximum recommended CTE mismatch between two different materials that thermally cycle between 25-100C.
Electronics Forum | Fri Sep 15 16:37:49 EDT 2000 | Dave F
Sounds like someone aimin� fo tha big hurt, if ya axes me. Two spots to place your lawn darts are: 1 J Hwang in "Modern Solder Technology � " states (p.354) that " � extreme CTE mismatch between silicon IC (~2) and the PCB (~16), solder connections
Industry News | 2018-10-15 18:42:06.0
Indium Corporation expert, Andreas Karch, will present at the IMAPS Autumn Conference, Oct. 18-19 in Munich, Germany. At the conference, Karch will deliver his presentation entitled New Solder Alloy with Extended Temperature Range for High-Reliability Applications. He will review test results that demonstrate how a new alloy excels in harsh environments, including wide temperature range and high CTE mismatch. Karch will also share data from existing application qualifications.
Industry News | 2019-03-12 08:54:28.0
(Albany, NY) March 12, 2019 YINCAE Advanced Materials is proud to announce that we will be exhibiting at this year’s IMAPS New England Symposium & Expo 2019, at the Boxboro Regency Hotel & Conference Center, in Boxborough, MA. Additionally, Dr. Wusheng Yin, President of YINCAE, will be giving a presentation on our unique product, Zero Outgassing and Flux Residue-compatible Underfill.
Technical Library | 2020-01-01 17:06:52.0
The majority of electronic failures occur due to thermally induced stresses and strains caused by excessive differences in coefficients of thermal expansion (CTE) across materials.CTE mismatches occur in both 1st and 2nd level interconnects in electronics assemblies. 1st level interconnects connect the die to a substrate. This substrate can be underfilled so there are both global and local CTE mismatches to consider. 2nd level interconnects connect the substrate, or package, to the printed circuit board (PCB). This would be considered a "board level" CTE mismatch. Several stress and strain mitigation techniques exist including the use of conformal coating.
Technical Library | 2008-11-13 00:06:32.0
The electronics industry is facing issues with hot spots, solder joint stresses and Coefficient of Thermal Expansion (CTE) mismatch between PCB and IC substrate. Flip chip type packages for example have very low CTE compared to traditional PCB material. Thus it is necessary to have low CTE printed circuit boards in order to keep solder joint intact with such low CTE packages. There are currently several materials available in the market to address thermal and CTE challenges but each material has its own advantages and limitations...
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PCB Libraries, Inc. | https://www.pcblibraries.com/forum/trimming-heels-under-the-component-body_topic12_post3020.html
?), though copper is is being used more for its superior heat transfer ability and a CTE that matches the solder much better. Is the concern in J-STD-001 that of a CTE mismatch
Heller 公司 | http://hellerindustries.com.cn/Vacuum-Void-Reduction-Reflow.pdf
thermal expansion (CTE) mismatch between the package and the PCB [20, 21]. The CTE of the PCB was measured using a thermomechanical analyzer (TMA) and the composite coefficients of thermal expansion of the 192CABGA and 84CTBGA packages were measured using