Low-cost titanium hydride powder metallurgy. In Titanium Powder Metallurgy: Science, Technology and Applications; Qian M. and Froes H. F., Eds.; Butterworth- Heinemann: Kidlington, 2015, 124-128.O. Ivasishin, V. Moxson, Low-cost titanium hydride powder metallurgy, Titanium Powder Metall. (...
Microstructural Characterization of as-Sintered Titanium and Titanium Alloys, Titanium Powder Metallurgy 29, Elsevier Inc (2015), pp. 556-578 Google Scholar [26] ASTM B381–13 Standard Specification for Titanium and Titanium Alloys Forging ASTM International, West Conshohocken, PA (2013) Google Schola...
TitaniumLow cost alloysMechanical propertiesBlended elemental methodThis work studies a set of low cost beta alloys with the composition Ti?7Fe, processed by conventional powder metallurgy (PM). The materials were prepared by conventional blending of elemental Ti hydride?dehydride powder with three ...
The ultimate tensile strength (UTS) of SLM-parts of 8:2 ratio has been improved to 507 MPa, and the UTS of parts of 7:3 ratio has been improved to 522 MPa.doi:10.1080/00325899.2020.1847848Xin YangZhaoyang ZhangWenping GuBen WangBo XiePowder Metallurgy...
Improvement of wear resistance of low-cost powder metallurgy β-titanium alloys for biomedical applicationsBiomaterialsGas nitridingLow-cost β-Ti alloysTitanium hydrideTitanium matrix compositeWear resistanceLow wear resistance and the relative high Young's modulus reduce the lifetime of the current ...
In this work the feasibility of the production of low-cost titanium alloys is addressed by adding steel to pure titanium and processing the alloys by powder metallurgy. In particular, a spherical 4140 LCH steel powder commonly used in metal injection moulding is blended with irregular hydride-de...