Article - 26 Mar 2018
Dursox is a metal-free, high durability corrosion resistant coating that is ideal for protecting precision parts that need high tolerance and high heat resistance.
Article - 20 Dec 2016
H.C. Starck Solutions, suppliers of specialist metals, provide a range of technology metals to be used specifically in additive manufacturing. Additive manufacturing allows highly complex and...
Article - 17 Aug 2016
H.C. Starck Solutions are providers of high purity tantalum for use in the semiconductor industry, supplying it in several different forms designed for PVD sputtering.
Article - 25 Aug 2015
In this interview, individuals from H.C Starck Solutions talk to AZOM about the demands of the mobile device market on touch screen technology, and how their speciality alloys for sputtering targets...
Article - 14 May 2015
In this interview, individuals from H.C Starck Solutions talks about how refractory metals like niobium and tantalum can be used in superconducting applications, and how H.C. Starck Solutions apply...
Article - 14 Jan 2015
In this interview, individuals from H.C Starck Soutions talk about the benefits of H.C. Starck Soutions' spun molybdenum crucibles for growing sapphire crystals for touchscreens.
Article - 6 Dec 2013
CORNING GLASS MACOR® is a machinable glass ceramic that is specifically developed in slabs of 300x300x55mm. The only way to shape this glass ceramic is through machining and grinding process.
Article - 27 Dec 2010
Ceramic materials based on perovskite-like oxides are of significant interest because of their applications in electrical and electronic devices.
Article - 26 Nov 2008
Developed for demanding applications requiring the combination of thermal conductivity, high wear resistance and boron nitrides corrosion resistance, Grade ZSBN boron nitride is a composite material...
Article - 10 Dec 2005
High-performance ceramics offer a panoply of possibilities in motor vehicles, as innovative and high-performance materials with excellent properties, indispensable where conventional materials fail.