The Metalysis Process-A Flexible Distributed Manufacturing Route for the Production of Novel AM Powders
The Metalysis process is a disruptive technology,offering an innovative route to produce a range of metals,alloys and intermetallic powders across the periodic table for additive manufacturing.A salient feature of this approach,is that it is possible to tailor the particle size and distribution of the product for a given additive manufacturing technique.Secondly,since the operation is conducted solely in the solid state,it is possible to combine elements of mismatched melting points and densities,which would be extremely challenging or impossible to homogenise via conventional means.The hardware to generate powders is both modular and agnostic to feedstock type,allowing adoption of a distributed manufacturing model,flexible to individual customer requirements.This paper describes several case studies,ranging from currently available materials such as Ti-6Al-4V,through to novel High Entropy Alloys(HEAs).
Extractive Metallurgy Additive Manufacturing Solid State Processing Titanium High Entropy Alloys
Benson Marshall Luke Conti Melchiorre Benson Lyndsey Repper Stephen Khan Nader Mellor Ian
Metalysis Materials Discovery Centre,Unit 4 R-Evolution@The AMP,Brindley Way,Catcliffe,Rotherham,S60 5FS.United Kingdom
国际会议
北京
英文
197-201
2018-09-16(万方平台首次上网日期,不代表论文的发表时间)