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The Effect of Ti/Ta Ratio and Processing Routes on the Hardness and Elastic Modulus of Porous TiNbZrTa Alloys

Authors: González-Guillén, C., Al Hawajreh Kamel, G., Degalez-Duran, E., Klyatskina, E., Naeem, M., Romero-Resendiz, L., Gonzalez, G. and Amigó Borrás, V.

Journal: Materials

Volume: 16

Issue: 23

eISSN: 1996-1944

DOI: 10.3390/ma16237362

Abstract:

TiNbZrTa alloys are promising for multidisciplinary applications, such as refractory and biomedical purposes, due to their high thermal stability and non-toxicity. Hardness and elastic modulus are among the key features for their adequate industrial applications. The influence of porosity and Ti/Ta ratio were investigated on TiNbZrTa alloys produced by three different processing routes, i.e., (i) blend element and posterior press and sintering (BE + P&S); (ii) mechanical alloying with press and sintering (MA + P&S); and (iii) arc melting and casting. Porosity decreased in the following order: casting < MA + P&S < BE + P&S. The total porosity of alloys increased with increasing Ta contents, i.e., by lowering the Ti/Ta ratio. However, the Ti/Ta ratio did not considerably affect the bonding energy or the elastic modulus. Hardness was increased significantly in dense alloys compared to porous ones. However, porosity and Ti/Ta ratio did not show a clear trend in hardness among the porous alloys.

https://eprints.bournemouth.ac.uk/39337/

Source: Scopus

The Effect of Ti/Ta Ratio and Processing Routes on the Hardness and Elastic Modulus of Porous TiNbZrTa Alloys.

Authors: González-Guillén, C., Al Hawajreh Kamel, G., Degalez-Duran, E., Klyatskina, E., Naeem, M., Romero-Resendiz, L., Gonzalez, G. and Amigó Borrás, V.

Journal: Materials (Basel)

Volume: 16

Issue: 23

ISSN: 1996-1944

DOI: 10.3390/ma16237362

Abstract:

TiNbZrTa alloys are promising for multidisciplinary applications, such as refractory and biomedical purposes, due to their high thermal stability and non-toxicity. Hardness and elastic modulus are among the key features for their adequate industrial applications. The influence of porosity and Ti/Ta ratio were investigated on TiNbZrTa alloys produced by three different processing routes, i.e., (i) blend element and posterior press and sintering (BE + P&S); (ii) mechanical alloying with press and sintering (MA + P&S); and (iii) arc melting and casting. Porosity decreased in the following order: casting < MA + P&S < BE + P&S. The total porosity of alloys increased with increasing Ta contents, i.e., by lowering the Ti/Ta ratio. However, the Ti/Ta ratio did not considerably affect the bonding energy or the elastic modulus. Hardness was increased significantly in dense alloys compared to porous ones. However, porosity and Ti/Ta ratio did not show a clear trend in hardness among the porous alloys.

https://eprints.bournemouth.ac.uk/39337/

Source: PubMed

The Effect of Ti/Ta Ratio and Processing Routes on the Hardness and Elastic Modulus of Porous TiNbZrTa Alloys

Authors: Gonzalez-Guillen, C., Al Hawajreh Kamel, G., Degalez-Duran, E., Klyatskina, E., Naeem, M., Romero-Resendiz, L., Gonzalez, G. and Borras, V.A.

Journal: MATERIALS

Volume: 16

Issue: 23

eISSN: 1996-1944

DOI: 10.3390/ma16237362

https://eprints.bournemouth.ac.uk/39337/

Source: Web of Science (Lite)

The Effect of Ti/Ta Ratio and Processing Routes on the Hardness and Elastic Modulus of Porous TiNbZrTa Alloys

Authors: Gonzalez-Guillen, C., Romero Resendiz, L., Gonzalez, G., Amigo Borras, V. and Naeem, M.

Journal: Materials

Volume: 16

Issue: 23

Pages: 7362-7373

eISSN: 1996-1944

DOI: 10.3390/ma16237362

Abstract:

TiNbZrTa alloys are promising for multidisciplinary applications, such as refractory and biomedical purposes, due to their high thermal stability and non-toxicity. Hardness and elastic modulus are among the key features for their adequate industrial applications. The influence of porosity and Ti/Ta ratio were investigated on TiNbZrTa alloys produced by three different processing routes, i.e., (i) blend element and posterior press and sintering (BE + P&S); (ii) mechanical alloying with press and sintering (MA + P&S); and (iii) arc melting and casting. Porosity decreased in the following order: casting < MA + P&S < BE + P&S. The total porosity of alloys increased with increasing Ta contents, i.e., by lowering the Ti/Ta ratio. However, the Ti/Ta ratio did not considerably affect the bonding energy or the elastic modulus. Hardness was increased significantly in dense alloys compared to porous ones. However, porosity and Ti/Ta ratio did not show a clear trend in hardness among the porous alloys.

https://eprints.bournemouth.ac.uk/39337/

Source: Manual

The Effect of Ti/Ta Ratio and Processing Routes on the Hardness and Elastic Modulus of Porous TiNbZrTa Alloys.

Authors: González-Guillén, C., Al Hawajreh Kamel, G., Degalez-Duran, E., Klyatskina, E., Naeem, M., Romero-Resendiz, L., Gonzalez, G. and Amigó Borrás, V.

Journal: Materials (Basel, Switzerland)

Volume: 16

Issue: 23

Pages: 7362

eISSN: 1996-1944

ISSN: 1996-1944

DOI: 10.3390/ma16237362

Abstract:

TiNbZrTa alloys are promising for multidisciplinary applications, such as refractory and biomedical purposes, due to their high thermal stability and non-toxicity. Hardness and elastic modulus are among the key features for their adequate industrial applications. The influence of porosity and Ti/Ta ratio were investigated on TiNbZrTa alloys produced by three different processing routes, i.e., (i) blend element and posterior press and sintering (BE + P&S); (ii) mechanical alloying with press and sintering (MA + P&S); and (iii) arc melting and casting. Porosity decreased in the following order: casting < MA + P&S < BE + P&S. The total porosity of alloys increased with increasing Ta contents, i.e., by lowering the Ti/Ta ratio. However, the Ti/Ta ratio did not considerably affect the bonding energy or the elastic modulus. Hardness was increased significantly in dense alloys compared to porous ones. However, porosity and Ti/Ta ratio did not show a clear trend in hardness among the porous alloys.

https://eprints.bournemouth.ac.uk/39337/

Source: Europe PubMed Central

The Effect of Ti/Ta Ratio and Processing Routes on the Hardness and Elastic Modulus of Porous TiNbZrTa Alloys

Authors: Gonzalez-Guillen, C., Al Hawajreh Kamel, G., Degalez-Duran, E., Klyatskina, E., Naeem, M., Romero Resendiz, L., Gonzalez, G. and Amigo Borras, V.

Journal: Materials

Volume: 16

Issue: 23

ISSN: 1996-1944

Abstract:

TiNbZrTa alloys are promising for multidisciplinary applications, such as refractory and biomedical purposes, due to their high thermal stability and non-toxicity. Hardness and elastic modulus are among the key features for their adequate industrial applications. The influence of porosity and Ti/Ta ratio were investigated on TiNbZrTa alloys produced by three different processing routes, i.e., (i) blend element and posterior press and sintering (BE + P&S); (ii) mechanical alloying with press and sintering (MA + P&S); and (iii) arc melting and casting. Porosity decreased in the following order: casting < MA + P&S < BE + P&S. The total porosity of alloys increased with increasing Ta contents, i.e., by lowering the Ti/Ta ratio. However, the Ti/Ta ratio did not considerably affect the bonding energy or the elastic modulus. Hardness was increased significantly in dense alloys compared to porous ones. However, porosity and Ti/Ta ratio did not show a clear trend in hardness among the porous alloys.

https://eprints.bournemouth.ac.uk/39337/

Source: BURO EPrints