AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |
Back to Blog
Pcb dendrite2/26/2024 ![]() Tin whiskers often cause failures in relays and have been found upon examination of failed relays in nuclear power facilities. In computer disk drives they can break off and cause head crashes or bearing failures. At frequencies above 6 GHz or in fast digital circuits, tin whiskers can act like miniature antennas, affecting the circuit impedance and causing reflections. Tin whiskers do not have to be airborne to damage equipment, as they are typically already growing directly in the environment where they can produce short circuits, i.e., the electronic equipment itself. Whiskers can be small enough to pass through air filters and can settle inside equipment, resulting in short circuits and system failure. ![]() These whiskers can then become airborne within the floor plenum when the tiles are disturbed, usually during maintenance. Whiskers can form on the underside of zinc electroplated floor tiles on raised floors. Zinc whiskers grow from galvanized (electroplated) metal surfaces at a rate of up to a millimeter per year with a diameter of a few micrometers. Īirborne zinc whiskers have been responsible for increased system failure rates in computer server rooms. Others have focused on the development of oxygen-barrier coatings to prevent whisker formation. This has driven the use of lead-free alloys with a focus on preventing whisker formation (see § Mitigation and elimination). The European Restriction of Hazardous Substances Directive (RoHS), which took effect on July 1, 2006, restricted the use of lead in various types of electronic and electrical equipment. The phenomenon was discovered by telephone companies in the late 1940s and it was later found that the addition of lead to tin solder provided mitigation. Whiskers can cause short circuits and arcing in electrical equipment. While the precise mechanism for whisker formation remains unknown, it is known that whisker formation does not require either dissolution of the metal or the presence of an electromagnetic field.Įffects Several mm long zinc whiskers on zinc-coated steel Dendrite growth requires moisture capable of dissolving the metal into a solution of metal ions, which are then redistributed by electromigration in the presence of an electromagnetic field. Metal whiskers differ from metallic dendrites in several respects: dendrites are fern-shaped and grow across the surface of the metal, while metal whiskers are hair-like and project normal to the surface. stresses induced by diffusion of different metals,.residual stresses caused by electroplating,.energy gained due to electrostatic polarization of metal filaments in the electric field,.The mechanism behind metal whisker growth is not well understood, but seems to be encouraged by compressive mechanical stresses including: The effect is primarily seen on elemental metals but also occurs with alloys. Metal whiskering is a crystalline metallurgical phenomenon involving the spontaneous growth of tiny, filiform hairs from a metallic surface. Mechanism Microscopic view of tin used to solder electronic components, showing a whisker Traditionally, lead has been added to slow down whisker growth in tin-based solders.įollowing the Restriction of Hazardous Substances Directive (RoHS), the European Union banned the use of lead in most consumer electronic products from 2006 due to health problems associated with lead and the "high-tech trash" problem, leading to a re-focusing on the issue of whisker formation in lead-free solders. Many techniques are used to mitigate the problem, including changes to the annealing process (heating and cooling), the addition of elements like copper and nickel, and the inclusion of conformal coatings. Germanium, zinc, cadmium, and even lead whiskers have been documented. Metal whiskers form in the presence of compressive stress. It was noticed that small metal hairs or tendrils grew between metal solder pads, causing short circuits. ![]() Tin whiskers were noticed and documented in the vacuum tube era of electronics early in the 20th century in equipment that used pure, or almost pure, tin solder in their production. Metal whiskering is a phenomenon that occurs in electrical devices when metals form long whisker-like projections over time. Phenomenon in electrical devices Silver whiskers growing out of surface-mount resistors
0 Comments
Read More
Leave a Reply. |