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Hydroxyapatite Matrix Composites by Hot Isostatic Pressing: Part 2. Zirconia Fibre and Powder Reinforced

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Bibliographische Detailangaben
Zeitschriftentitel: Journal of Biomimetics, Biomaterials and Tissue Engineering
Personen und Körperschaften: Ehsani, N., Sorrell, C.C., Ruys, A.J.
In: Journal of Biomimetics, Biomaterials and Tissue Engineering, 15, 2012, S. 85-100
Medientyp: E-Article
Sprache: Unbestimmt
veröffentlicht:
Trans Tech Publications, Ltd.
Schlagwörter:
author_facet Ehsani, N.
Sorrell, C.C.
Ruys, A.J.
Ehsani, N.
Sorrell, C.C.
Ruys, A.J.
author Ehsani, N.
Sorrell, C.C.
Ruys, A.J.
spellingShingle Ehsani, N.
Sorrell, C.C.
Ruys, A.J.
Journal of Biomimetics, Biomaterials and Tissue Engineering
Hydroxyapatite Matrix Composites by Hot Isostatic Pressing: Part 2. Zirconia Fibre and Powder Reinforced
Biomedical Engineering
Bioengineering
Biotechnology
author_sort ehsani, n.
spelling Ehsani, N. Sorrell, C.C. Ruys, A.J. 1662-100X Trans Tech Publications, Ltd. Biomedical Engineering Bioengineering Biotechnology http://dx.doi.org/10.4028/www.scientific.net/jbbte.15.85 <jats:p>The Aim of the Project Was to Enhance the Fracture Toughness of Hydroxyapatite to a Level Comparable to that of Natural Bone for in Vivo Applications. to this Aim, the Effect of Various Parameters, Were Studied. Fully Dense Decomposition-Free Hap Matrix Composite Was Produced Using Hot Isostatic Pressing Technique. A Graphite/stainless Steel Encapsulation System Was Found to Be an Appropriate Method. Glass Encapsulation Was Unsuccessful Technique due to the Excessive Low-Temperature Volatilisation, which Aerated the Glass. Toughness Improvement Was 2.7 Times for PSZ Fibres, and 2.4 Times for PSZ Powder. the Optimal Addition Level of PSZ Fibre and PSZ Powder Was 20 Vol% and ~30 Vol% Respectively. Further, it Was Found that the Hap Decomposition Temperature Was Higher at 100 Mpa (the Hiping Pressure) than for Pressureless Sintering. the Toughening Effect of the Additives Induced Plastic Deformation and Ductile Fracture.</jats:p> Hydroxyapatite Matrix Composites by Hot Isostatic Pressing: Part 2. Zirconia Fibre and Powder Reinforced Journal of Biomimetics, Biomaterials and Tissue Engineering
doi_str_mv 10.4028/www.scientific.net/jbbte.15.85
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series Journal of Biomimetics, Biomaterials and Tissue Engineering
source_id 49
title Hydroxyapatite Matrix Composites by Hot Isostatic Pressing: Part 2. Zirconia Fibre and Powder Reinforced
title_unstemmed Hydroxyapatite Matrix Composites by Hot Isostatic Pressing: Part 2. Zirconia Fibre and Powder Reinforced
title_full Hydroxyapatite Matrix Composites by Hot Isostatic Pressing: Part 2. Zirconia Fibre and Powder Reinforced
title_fullStr Hydroxyapatite Matrix Composites by Hot Isostatic Pressing: Part 2. Zirconia Fibre and Powder Reinforced
title_full_unstemmed Hydroxyapatite Matrix Composites by Hot Isostatic Pressing: Part 2. Zirconia Fibre and Powder Reinforced
title_short Hydroxyapatite Matrix Composites by Hot Isostatic Pressing: Part 2. Zirconia Fibre and Powder Reinforced
title_sort hydroxyapatite matrix composites by hot isostatic pressing: part 2. zirconia fibre and powder reinforced
topic Biomedical Engineering
Bioengineering
Biotechnology
url http://dx.doi.org/10.4028/www.scientific.net/jbbte.15.85
publishDate 2012
physical 85-100
description <jats:p>The Aim of the Project Was to Enhance the Fracture Toughness of Hydroxyapatite to a Level Comparable to that of Natural Bone for in Vivo Applications. to this Aim, the Effect of Various Parameters, Were Studied. Fully Dense Decomposition-Free Hap Matrix Composite Was Produced Using Hot Isostatic Pressing Technique. A Graphite/stainless Steel Encapsulation System Was Found to Be an Appropriate Method. Glass Encapsulation Was Unsuccessful Technique due to the Excessive Low-Temperature Volatilisation, which Aerated the Glass. Toughness Improvement Was 2.7 Times for PSZ Fibres, and 2.4 Times for PSZ Powder. the Optimal Addition Level of PSZ Fibre and PSZ Powder Was 20 Vol% and ~30 Vol% Respectively. Further, it Was Found that the Hap Decomposition Temperature Was Higher at 100 Mpa (the Hiping Pressure) than for Pressureless Sintering. the Toughening Effect of the Additives Induced Plastic Deformation and Ductile Fracture.</jats:p>
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author Ehsani, N., Sorrell, C.C., Ruys, A.J.
author_facet Ehsani, N., Sorrell, C.C., Ruys, A.J., Ehsani, N., Sorrell, C.C., Ruys, A.J.
author_sort ehsani, n.
container_start_page 85
container_title Journal of Biomimetics, Biomaterials and Tissue Engineering
container_volume 15
description <jats:p>The Aim of the Project Was to Enhance the Fracture Toughness of Hydroxyapatite to a Level Comparable to that of Natural Bone for in Vivo Applications. to this Aim, the Effect of Various Parameters, Were Studied. Fully Dense Decomposition-Free Hap Matrix Composite Was Produced Using Hot Isostatic Pressing Technique. A Graphite/stainless Steel Encapsulation System Was Found to Be an Appropriate Method. Glass Encapsulation Was Unsuccessful Technique due to the Excessive Low-Temperature Volatilisation, which Aerated the Glass. Toughness Improvement Was 2.7 Times for PSZ Fibres, and 2.4 Times for PSZ Powder. the Optimal Addition Level of PSZ Fibre and PSZ Powder Was 20 Vol% and ~30 Vol% Respectively. Further, it Was Found that the Hap Decomposition Temperature Was Higher at 100 Mpa (the Hiping Pressure) than for Pressureless Sintering. the Toughening Effect of the Additives Induced Plastic Deformation and Ductile Fracture.</jats:p>
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spelling Ehsani, N. Sorrell, C.C. Ruys, A.J. 1662-100X Trans Tech Publications, Ltd. Biomedical Engineering Bioengineering Biotechnology http://dx.doi.org/10.4028/www.scientific.net/jbbte.15.85 <jats:p>The Aim of the Project Was to Enhance the Fracture Toughness of Hydroxyapatite to a Level Comparable to that of Natural Bone for in Vivo Applications. to this Aim, the Effect of Various Parameters, Were Studied. Fully Dense Decomposition-Free Hap Matrix Composite Was Produced Using Hot Isostatic Pressing Technique. A Graphite/stainless Steel Encapsulation System Was Found to Be an Appropriate Method. Glass Encapsulation Was Unsuccessful Technique due to the Excessive Low-Temperature Volatilisation, which Aerated the Glass. Toughness Improvement Was 2.7 Times for PSZ Fibres, and 2.4 Times for PSZ Powder. the Optimal Addition Level of PSZ Fibre and PSZ Powder Was 20 Vol% and ~30 Vol% Respectively. Further, it Was Found that the Hap Decomposition Temperature Was Higher at 100 Mpa (the Hiping Pressure) than for Pressureless Sintering. the Toughening Effect of the Additives Induced Plastic Deformation and Ductile Fracture.</jats:p> Hydroxyapatite Matrix Composites by Hot Isostatic Pressing: Part 2. Zirconia Fibre and Powder Reinforced Journal of Biomimetics, Biomaterials and Tissue Engineering
spellingShingle Ehsani, N., Sorrell, C.C., Ruys, A.J., Journal of Biomimetics, Biomaterials and Tissue Engineering, Hydroxyapatite Matrix Composites by Hot Isostatic Pressing: Part 2. Zirconia Fibre and Powder Reinforced, Biomedical Engineering, Bioengineering, Biotechnology
title Hydroxyapatite Matrix Composites by Hot Isostatic Pressing: Part 2. Zirconia Fibre and Powder Reinforced
title_full Hydroxyapatite Matrix Composites by Hot Isostatic Pressing: Part 2. Zirconia Fibre and Powder Reinforced
title_fullStr Hydroxyapatite Matrix Composites by Hot Isostatic Pressing: Part 2. Zirconia Fibre and Powder Reinforced
title_full_unstemmed Hydroxyapatite Matrix Composites by Hot Isostatic Pressing: Part 2. Zirconia Fibre and Powder Reinforced
title_short Hydroxyapatite Matrix Composites by Hot Isostatic Pressing: Part 2. Zirconia Fibre and Powder Reinforced
title_sort hydroxyapatite matrix composites by hot isostatic pressing: part 2. zirconia fibre and powder reinforced
title_unstemmed Hydroxyapatite Matrix Composites by Hot Isostatic Pressing: Part 2. Zirconia Fibre and Powder Reinforced
topic Biomedical Engineering, Bioengineering, Biotechnology
url http://dx.doi.org/10.4028/www.scientific.net/jbbte.15.85