TANAKA Kikinzoku Kogyo K.K., which operates the TANAKA Precious Metals manufacturing business, has announced that its subsidiary TANAKA Denshi Kogyo K.K., which produces various types of bonding wires, will start taking orders for gold (Au) bonding wire manufactured using only RE Series 100% recycled precious metal materials.
Metal can be formed into various designs in a variety of ways, such as casting, machining, rolling, and forging.
Researchers have designed a new theoretical model for preparing niobium metal particle accelerator structures. The model predicts how oxygen moves deeper into the niobium metal from the thin oxide layer on its surface.
Researchers have reported a rigorous layered compound KInSnS4 (InSnS-1) that can accurately detect Cs+ under both neutral and acidic settings.
Rice University researchers have arrived at a possible solution to deal with rare earth elements (REE) that are hard to get and hard to recycle.
SciAps new family of handheld LIBS and XRF are built for exploration, production and recycling of lithium and REEs for the electric vehicle and strategic metals markets.
The Measuring Division of Kaman Precision Products, Inc., the world leader in the design and manufacture of high-performance position measurement systems, announces that the KD-5600 family of eddy current measurement systems is ideal for use in COTS applications for fast steering mirrors, magnetic bearing active control, shaft vibration, image stabilization, and adaptive optics.
Supported single metal atoms have gained wide attention due to their established high efficiency in single metal catalysis. However, the preparation of such catalysts remains difficult since the neutral metal atoms strongly tend to agglomerate to metal particles in characteristic preparations.
Gold had long been considered a non-magnetic metal. But researchers at Tohoku University recently discovered that gold can in fact be magnetized by applying heat.
Researchers from the Purdue University stumbled upon a novel technique that uses a pulsing laser to produce synthetic nanodiamond patterns and films from graphite, while trying to analyze a technique to strengthen metals. Their discovery is likely to impact a wide range of applications such as biosensors, computer chips, quantum computing, and fuel cells.