机译:精加工深度和热等静压对选择性电子束的缺陷分布和疲劳行为的影响熔化Ti-6Al-4V
Department of Materials Science and Engineering University of Sheffield Sir Robert Hadfield Building Mappin Street Sheffield S1 3JD UK Industrial Doctoral Centre in Machining Science Advanced Manufacturing Research Centre with Boeing University of Sheffield Rotherham S60 5TZ UK;
Department of Materials Science and Engineering University of Sheffield Sir Robert Hadfield Building Mappin Street Sheffield S1 3JD UK;
Advanced Manufacturing Research Centre with Boeing University of Sheffield Rotherham S60 5TZ UK;
Materials & Technology Development Seco Tools AB SE73782 Fagersta Sweden;
Element Six Global Innovation Centre Fermi Avenue Harwell 0X11 OQR UK;
Element Six Global Innovation Centre Fermi Avenue Harwell 0X11 OQR UK;
Department of Materials Science and Engineering University of Sheffield Sir Robert Hadfield Building Mappin Street Sheffield S1 3JD UK;
Additive manufacturing; Near net shape manufacturing; Powder metallurgy; Titanium alloys;
机译:选择性电子束中的强化纹理通过热的等静压熔化Ti-6Al-4V薄板及其对拉伸骨折和性能的根本影响
机译:选择性激光熔化的Ti-6A1-4V合金的疲劳性能:表面精加工,热等静压和热处理的影响
机译:热等静压和表面光洁度对电子束熔化处理Ti6a14V的力学行为的影响
机译:没有表面加工的选择性激光熔化和热等静压Ti-6Al-4v的疲劳寿命
机译:基于线性摩擦焊和电子束添加剂制造Ti-6Al-4V在拉伸和疲劳机械性能的影响的影响
机译:封装电子束熔化生产的合金718以减少通过热等静压制造成的表面连接缺陷
机译:熔体策略对选择性电子束熔炼Ti-6al-4V组件缺陷群体影响的XCT分析