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A platform for research: civil engineering, architecture and urbanism
Powder metallurgy CP-Ti performances: Hydride–dehydride vs. sponge
Highlights The processing of elemental titanium powders by powder metallurgy is considered. Hydride–dehydride and sponge are shaped by cold uniaxial press and sinter. In-depth study of the physical properties, chemical analysis and mechanical behaviour. Determination of the dynamic elastic modulus by means of ultrasonic measurements.
Abstract Titanium is characterised by two contrasting aspects: outstanding combination of properties and high production costs which confine its application to high demanding sectors. The employment of powder metallurgy (P/M) techniques is one creative alternative to lower the final costs of titanium products due to some intrinsic advantages of P/M such as high yield of material and limited machining requirement. In this work the performances of hydride–dehydride (HDH) and sponge elemental titanium products obtained by cold uniaxial pressing and sintering are compared. It is found that the two materials achieved similar relative density values but HDH shows much better mechanical performances.
Powder metallurgy CP-Ti performances: Hydride–dehydride vs. sponge
Highlights The processing of elemental titanium powders by powder metallurgy is considered. Hydride–dehydride and sponge are shaped by cold uniaxial press and sinter. In-depth study of the physical properties, chemical analysis and mechanical behaviour. Determination of the dynamic elastic modulus by means of ultrasonic measurements.
Abstract Titanium is characterised by two contrasting aspects: outstanding combination of properties and high production costs which confine its application to high demanding sectors. The employment of powder metallurgy (P/M) techniques is one creative alternative to lower the final costs of titanium products due to some intrinsic advantages of P/M such as high yield of material and limited machining requirement. In this work the performances of hydride–dehydride (HDH) and sponge elemental titanium products obtained by cold uniaxial pressing and sintering are compared. It is found that the two materials achieved similar relative density values but HDH shows much better mechanical performances.
Powder metallurgy CP-Ti performances: Hydride–dehydride vs. sponge
Bolzoni, L. (author) / Ruiz-Navas, E.M. (author) / Gordo, E. (author)
2014-04-01
7 pages
Article (Journal)
Electronic Resource
English
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