Titanium is both a chemical element and a metal. It is produced by combining chemicals with titanium. The final product is a metal with a high melting point and a high strength. These two ...

Looking deep inside titanium alloy has allowed researchers at the Pacific Northwest National Laboratory (PNNL) to manipulate the alignment of atoms and develop the strongest titanium alloy ever made.

Researchers have developed a new machine-learning-assisted approach to optimize micro-electro-discharge machining (µ-EDM) of a next-generation biocompatible titanium alloy, potentially improving the ...

Have you ever wondered how airplanes, cars, oil and gas pipelines or medical devices are made? It's not just the materials they're composed of that's so important, but also the high-speed machining ...

Generally, titanium alloys that have been developed for high strength and good creep resistant properties have inferior corrosion resistance to the commercially pure material, but there are some ...

More than 1000 tonnes (2.2 million pounds) of titanium devices of every description and function are implanted in patients worldwide every year. Requirements for joint replacement continue to grow as ...