Tin Pest: Elusive Threat in Lead-Free Soldering?

PDF / 475,260 Bytes
7 Pages / 595.276 x 790.866 pts Page_size
27 Downloads / 210 Views

FEATURE

Tin Pest: Elusive Threat in Lead-Free Soldering? Ronald C. Lasky

Submitted: 18 August 2010 / Published online: 19 October 2010 Ó ASM International 2010

Abstract Tin pest is the result of an allotropic transformation of tin from its b phase to its a phase at temperatures below 13 °C. This transformation is accompanied by a change in density from 7.31 to 5.77 g/cm3. The resulting expansion usually results in degradation of the affected part, as the a phase material is mechanically weak and over time becomes little more than a gray powder. The tin pest effect is cumulative unless the sample in question is exposed to temperatures above 70 °C or so, where some reversion back to white tin has been observed. However, by this point a tin sample’s physical integrity may have been destroyed by the partial b to a transformation. The transformation to a tin is inhibited strongly by soluble alloying elements such as bismuth and antimony at concentrations of about 0.5%, or lead at concentrations of about 5%. Hence, tin pest is generally observed only in quite pure tin. However, nearly pure tin alloys may become common. For example, the advent of the European Union’s RoHS law, which essentially eliminates lead from solder, has spawned lead-free alloys that can be almost pure tin and may be at risk of tin pest. This risk has caused some concern over the long-term stability of emergent, lead-free solders during low temperature service. This overview article is written in light of this concern.

R. C. Lasky (&) Indium Corporation, Clinton, NY, USA e-mail: [email protected] R. C. Lasky Dartmouth College, 8000 Cummings Hall, Hanover, NH 03755, USA

Keywords Tin pest Allotropic transformation Tin pest incidence and kinetics Cold temperature service Environmental effects on tin

Introduction Saturday, 30 November 2019 2315 h: Martha White was a technology aficionado. She has the latest in computer, mobile phone, media and other high technology equipment, and software. The weather was cold in Woodstock, Vermont and she just saw on The Weather Channel, in 3D, the images of a storm that was streaking up the coast from the Gulf of Mexico. Most TV shows were now in 3D and no special glasses were needed. Even though Martha was herself a technologist, ‘‘3D’’ amazed her. The storm was projected to be one of the worst in recent memory, maybe even worse than the March 1993 storm she remembered as a child. Well, it wouldn’t matter to her. She was planning on staying home on Sunday after walking to church and then anticipating doing all of her Christmas shopping on ‘‘CyberMonday.’’ She was going to wait to start shopping until after breakfast because she just couldn’t see staying up into the wee hours as Monday began, just to get some of the special deals the online stores gave. She decided that she needed to sleep more than to save a few dollars. As Martha slept peacefully into Sunday morning, the storm was wrecking havoc with Florida, Georgia, and the Carolinas. By 8 AM EST Sunday, its center was in North Carolina and it was movin

Data Loading...

Tin Pest: Elusive Threat in Lead-Free Soldering?

Recommend Documents

Soldering Process

Structural Pest

Pest Management

Soldering System Trends

Wave Soldering: A Study in Process Control

In Situ Soldering Attaches Nanotubes to Electrodes

Threat, Attack

Pest Resurgence

Fowl Pest

Pest Management in Tropical Forestry

Pest, Pulpa en Paniek

Integrated Pest Management (IPM)