This unique patented alloy has been developed as a lead free alternative for those now using costly SAC alloys and for those switching from lead containing Sn63/Pb37 alloys to the lead free process. SN100e is manufactured from tin, copper, and cobalt
SAC305 is a lead-free alloy that contains 96.5 % tin, 3% silver, and 0.5% copper. This alloy falls under the JEIDA recommendation for lead-free soldering. When used in wave soldering, AIM’s SAC305 bar solder offers far superior fluidity as compared t
Electronics Forum | Tue Jun 27 08:38:03 EDT 2006 | email@example.com
I tried some SN100C from AIM... On only one array. It flowed well on the chips but did not like the finish on the SOT23's on the board. I did not have enough arrays to mess around, so we switched it over to SAC305 and had no issues. I'm guessing w
Vitronics Soltec 6622CC Wave Soldering Machine (Pb Free) (2006) Brand: Vitronics Model: Soltec 6622CC Type: Wave Soldering Machine (Pb Free) Year: 2006 Serial #: 0603804401 Machine Specifications: Top preheat: Zone 2 and 3 top side Calrod
Industry News | 2020-03-19 13:12:42.0
The SMTA is pleased to announce the Best Papers from SMTA International 2019. As speakers at SMTA International, individuals make contributions to the industry by sharing their research and findings. For these exceptional achievements, a cash award and plaque are given to primary authors of all winning papers.
Industry News | 2010-09-01 21:50:50.0
Nihon Superior Co. Ltd., a supplier of advanced soldering materials to the global market, announces that SN100C wets and spreads faster than SAC305.
Technical Library | 2020-04-14 15:56:32.0
This paper will focus on the application requirements of solder printing small aperture designs, concentrating on 008004 (inch) / 0201 (metric) size components, and the results of a design of experiment printing these challenging apertures. As Moore's law continues to be applied to component miniaturization, the next installment of reduced packaging has arrived in the form of the 008004/0201 for resistors and capacitors. Component size roughly the size of a grain of sand presents specific challenges to the solder printing process. To address these challenges, each aspect of the printing process will need be examined. This includes essential machine requirements, including correct squeegee blades, tooling support, and calibrations, to meet the demanding specifications. The correct match and design of materials will be addressed, focusing on the stencil and substrate design along with solder paste and cleaning solvent requirements. A design of experiment will be reviewed that applies the machine and materials discussed, including the printer and Solder Paste Inspection (SPI) setup and the specific machine parameters used. The results of these DOE's will then be closely examined.
Events Calendar | Thu Feb 25 11:00:00 EST 2016 - Thu Feb 25 14:00:00 EST 2016 | Austin, Texas USA
Understanding the Reality of New, High Reliability Solders
High Reliability Lead-free Solder SN100C(Sn-0.7Cu-0.05Ni+Ge) High Reliability Lead-free Solder SN100C(Sn-0.7Cu-0.05Ni+Ge) While the situation varies from country to country, nearly one year after the EU RoHS Directive came into force