Add to ORKGNugroho, Aris Widyo. 2013. Investigation of the production and mechanical properties of porous Beta Titanium alloy compacts prepared by powder metallurgy processes for biomedical applications. Ph.D. Curtin University, Department of Mechanical Engineering. Permanent Link: The attached document may provide the author's accepted version of a published work. See Citation for details of the published work.
In this work, metastable beta Ti\u2013Nb\u2013Zr(Ta) ingots were manufactured by vacuum arc melting....
46.50; Translated from Japanese (Sumitomo Met. v. 38(3) p. 83-91)SIGLEAvailable from British Library...
Titanium and its alloys are characterized by an exceptional combination of properties like high str...
Titanium, a relatively new engineering metal, has been employed principally in high demanding indust...
This project aims in the study of the application of powder metallurgy for the production of biomate...
"Stress shielding" caused by the mismatch of modulus between the implant and natural bones, is one o...
Titanium and its alloys have a high specific strength, excellent corrosion resistance, and good bioc...
Title: Utilization of field-assisted sintering technique for fabrication of metastable beta titanium...
Titanium and its alloys are common biomedical materials owing to their combination ofmechanical prop...
Titanium and its alloys are known to be widely used for biomedical applications due to their biocomp...
The demand of biomaterials has been continuously increasing due to ever-increasing aged population i...
Metallic biomedical implants such as titanium-based alloys are very useful for orthopaedic applicat...
Recently, people devote to the development of beta titanium alloys which have better biocompatibilit...
In recent years, different beta titanium alloys have been developed for biomedical applications with...
Data availability: Data supporting the findings of this study are available in the main text and sup...
In this work, metastable beta Ti\u2013Nb\u2013Zr(Ta) ingots were manufactured by vacuum arc melting....
46.50; Translated from Japanese (Sumitomo Met. v. 38(3) p. 83-91)SIGLEAvailable from British Library...
Titanium and its alloys are characterized by an exceptional combination of properties like high str...
Titanium, a relatively new engineering metal, has been employed principally in high demanding indust...
This project aims in the study of the application of powder metallurgy for the production of biomate...
"Stress shielding" caused by the mismatch of modulus between the implant and natural bones, is one o...
Titanium and its alloys have a high specific strength, excellent corrosion resistance, and good bioc...
Title: Utilization of field-assisted sintering technique for fabrication of metastable beta titanium...
Titanium and its alloys are common biomedical materials owing to their combination ofmechanical prop...
Titanium and its alloys are known to be widely used for biomedical applications due to their biocomp...
The demand of biomaterials has been continuously increasing due to ever-increasing aged population i...
Metallic biomedical implants such as titanium-based alloys are very useful for orthopaedic applicat...
Recently, people devote to the development of beta titanium alloys which have better biocompatibilit...
In recent years, different beta titanium alloys have been developed for biomedical applications with...
Data availability: Data supporting the findings of this study are available in the main text and sup...
In this work, metastable beta Ti\u2013Nb\u2013Zr(Ta) ingots were manufactured by vacuum arc melting....
46.50; Translated from Japanese (Sumitomo Met. v. 38(3) p. 83-91)SIGLEAvailable from British Library...
Titanium and its alloys are characterized by an exceptional combination of properties like high str...