Surface Mount Technology Association (SMTA) | https://www.smta.org/icsr/speaker_forms/Paper-Format-Requirements.doc
] that the immersion silver surface finish selected for lead-free PCBs had the susceptibility to creep corrode when used in high sulfur and high humidity environments
Surface Mount Technology Association (SMTA) | https://www.smta.org/smtai/best_papers.cfm
Optical Highspeed Imaging" 2007: Randy Schueller, Dell "Creep Corrosion on Lead-Free Printed Circuit Boards in High Sulfur Environments" 2006
Surface Mount Technology Association (SMTA) | https://www.smta.org/knowledge/journal.cfm
. Hofmann, I. Schubert, D. Wünsch, R. Ecke, K. Vogel, K. Gottfried, D. Reuter, M. Rennau, S.E. Schulz, T. Geßner Abstract 30-1 On the Corrosion Mechanisms of Common Printed Circuit Board Surface Finishes in Three Different Sulfur-Rich Environments Matthew D. Weeks, Ph.D., David J
| https://www.eptac.com/category/upcoming-webinars/shown.bs.collapse/page/9/__/ais-highlight__/129.432%25/page/2/gtm.start/__/ais-highlight__/page/2/
disulfide is an inorganic compound composed of molybdenum and sulfur. It has already been used to create flexible electronics and a simple microprocessor. This material is also part of a large family of hundreds of promising materials for silicon replacement
| https://www.eptac.com/category/upcoming-webinars/shown.bs.collapse/page/6/134.936%25/134.936%25/__/ais-highlight__/page/2/
disulfide is an inorganic compound composed of molybdenum and sulfur. It has already been used to create flexible electronics and a simple microprocessor. This material is also part of a large family of hundreds of promising materials for silicon replacement
| https://www.eptac.com/category/upcoming-webinars/shown.bs.collapse/page/9/__/ais-highlight__/129.432%25/page/2/134.936%25/129.432%25/%3C/em%3E/page/2/
disulfide is an inorganic compound composed of molybdenum and sulfur. It has already been used to create flexible electronics and a simple microprocessor. This material is also part of a large family of hundreds of promising materials for silicon replacement
| https://www.eptac.com/category/upcoming-webinars/shown.bs.collapse/page/6/__/ais-highlight__/-27.7%25/page/2/__/ais-highlight__/-36.868%25/129.432%25/129.432%25/129.432%25/page/2/
and their batteries cool, and also keeping wearable activewear technology working. Molybdenum Disulfide Another viable silicon substitute is molybdenum disulfide. Molybdenum disulfide is an inorganic compound composed of molybdenum and sulfur. It has
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