We are pleased to announce the largest range of Single Crystals available anywhere online - a bold claim, but one we believe provides a solution to meet every need.
We are pleased to announce the largest range of Single Crystals available anywhere online - a bold claim, but one we believe provides a solution to meet every need, coupled with the fastest delivery time available.
Smaller, lighter, more precise - miniaturisation is the driving force behind many research and development projects and we're pleased to announce our partnership with Eliri to launch our new range of ultrafine wires.
Graphene has been the ‘wonder material’ for a number of years. But talk of this material has been quieter recently. In this episode, Dr Aphrodite Tomou talks to Adrian Nixon and James Baker from the Graphene Engineering Innovation Centre. Join us as we discuss space elevators, an advanced materials library, and all things graphene!
The investigation team at NASA will now observe Dimorphos (Greek word meaning two-forms) using ground-based telescopes to confirm that the Double Asteroid Redirection Test (DART)’s impact altered the asteroid’s orbit around Didymos (Greek word meaning twin). Researchers expect the impact to shorten Dimorphos’ orbit by about 1%, or roughly 10 minutes; precisely measuring how much the asteroid was deflected is one of the primary purposes of the full-scale test.
Crucibles are containers made from refractory metals or ceramics, able to withstand high degrees of heat. They are temperature resistant as well as chemically and physically stable at high temperature. This enables you to melt substances, usually metals, in a controlled manner.
At Goodfellow, we are passionate about innovation, discovery, and progress. That is why we are excited about the introduction of hybrid cars into motor racing. If you would like to learn more about what we can offer you, speak to our technical team or sales team. Whoever you connect with will be enthusiastic to help you choose the best materials for your project.
The August edition of Materials Inside focusses on hybrid and electric vehicles. We decided to head back to the BTCC and record the episode live by the trackside. Mark Daniels presents, interviewing Steve Brady and Peter Riches.
Microporous copper foam coated with a thin, hard layer of copper oxide provides outstanding performance as a low-profile heat sink in passive cooling environments.
The underlying microporous copper foam structure of the heat sinks has pore sizes between 300 and 600 microns and a relative density of around 37%, providing a much higher surface area than traditional copper foams. The black copper oxide that coats the interconnected pores of the thermally conductive copper foam dramatically increases emissivity and therefore passive cooling performance.
