Constitutive Law and Flow Mechanism in Diamond Deformation

Constitutive laws and crystal plasticity in diamond deformation have been the subjects of substantial interest since synthetic diamond was made in 1950's. To date, however, little is known quantitatively regarding its brittle-ductile properties and yield strength at high temperatures. Here we r...

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Published in	Scientific reports Vol. 2; no. 1; p. 876
Main Authors	Yu, Xiaohui, Raterron, Paul, Zhang, Jianzhong, Lin, Zhijun, Wang, Liping, Zhao, Yusheng
Format	Journal Article
Language	English
Published	London Nature Publishing Group UK 19.11.2012 Nature Publishing Group
Subjects	639/166/988 639/301 639/766/25 704/2151/330 Alloys applied physics Crystals Deformation Dislocation High pressure High temperature Humanities and Social Sciences materials science mechanical engineering Mechanics Mechanics of materials mineralogy multidisciplinary Physics Plasticity Science Temperature Temperature effects Yield stress
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ISSN	2045-2322 2045-2322
DOI	10.1038/srep00876

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Abstract	Constitutive laws and crystal plasticity in diamond deformation have been the subjects of substantial interest since synthetic diamond was made in 1950's. To date, however, little is known quantitatively regarding its brittle-ductile properties and yield strength at high temperatures. Here we report, for the first time, the strain-stress constitutive relations and experimental demonstration of deformation mechanisms under confined high pressure. The deformation at room temperature is essentially brittle, cataclastic and mostly accommodated by fracturing on {111} plane with no plastic yielding at uniaxial strains up to 15%. At elevated temperatures of 1000°C and 1200°C diamond crystals exhibit significant ductile flow with corresponding yield strength of 7.9 and 6.3 GPa, indicating that diamond starts to weaken when temperature is over 1000°C. At high temperature the plastic deformation and ductile flow is meditated by the {111} dislocation glide and a very active {111} micro-twinning.
AbstractList	Constitutive laws and crystal plasticity in diamond deformation have been the subjects of substantial interest since synthetic diamond was made in 1950's. To date, however, little is known quantitatively regarding its brittle-ductile properties and yield strength at high temperatures. Here we report, for the first time, the strain-stress constitutive relations and experimental demonstration of deformation mechanisms under confined high pressure. The deformation at room temperature is essentially brittle, cataclastic, and mostly accommodated by fracturing on {111} plane with no plastic yielding at uniaxial strains up to 15%. At elevated temperatures of 1000°C and 1200°C diamond crystals exhibit significant ductile flow with corresponding yield strength of 7.9 and 6.3 GPa, indicating that diamond starts to weaken when temperature is over 1000°C. At high temperature the plastic deformation and ductile flow is meditated by the {111} dislocation glide and a very active {111} micro-twinning. Constitutive laws and crystal plasticity in diamond deformation have been the subjects of substantial interest since synthetic diamond was made in 1950's. To date, however, little is known quantitatively regarding its brittle-ductile properties and yield strength at high temperatures. In this paper, we report, for the first time, the strain-stress constitutive relations and experimental demonstration of deformation mechanisms under confined high pressure. The deformation at room temperature is essentially brittle, cataclastic, and mostly accommodated by fracturing on {111} plane with no plastic yielding at uniaxial strains up to 15%. At elevated temperatures of 1000°C and 1200°C diamond crystals exhibit significant ductile flow with corresponding yield strength of 7.9 and 6.3 GPa, indicating that diamond starts to weaken when temperature is over 1000°C. Finally, at high temperature the plastic deformation and ductile flow is meditated by the {111} dislocation glide and a very active {111} micro-twinning. Constitutive laws and crystal plasticity in diamond deformation have been the subjects of substantial interest since synthetic diamond was made in 1950's. To date, however, little is known quantitatively regarding its brittle-ductile properties and yield strength at high temperatures. Here we report, for the first time, the strain-stress constitutive relations and experimental demonstration of deformation mechanisms under confined high pressure. The deformation at room temperature is essentially brittle, cataclastic, and mostly accommodated by fracturing on {111} plane with no plastic yielding at uniaxial strains up to 15%. At elevated temperatures of 1000°C and 1200°C diamond crystals exhibit significant ductile flow with corresponding yield strength of 7.9 and 6.3 GPa, indicating that diamond starts to weaken when temperature is over 1000°C. At high temperature the plastic deformation and ductile flow is meditated by the {111} dislocation glide and a very active {111} micro-twinning.Constitutive laws and crystal plasticity in diamond deformation have been the subjects of substantial interest since synthetic diamond was made in 1950's. To date, however, little is known quantitatively regarding its brittle-ductile properties and yield strength at high temperatures. Here we report, for the first time, the strain-stress constitutive relations and experimental demonstration of deformation mechanisms under confined high pressure. The deformation at room temperature is essentially brittle, cataclastic, and mostly accommodated by fracturing on {111} plane with no plastic yielding at uniaxial strains up to 15%. At elevated temperatures of 1000°C and 1200°C diamond crystals exhibit significant ductile flow with corresponding yield strength of 7.9 and 6.3 GPa, indicating that diamond starts to weaken when temperature is over 1000°C. At high temperature the plastic deformation and ductile flow is meditated by the {111} dislocation glide and a very active {111} micro-twinning.
ArticleNumber	876
Author	Yu, Xiaohui Zhang, Jianzhong Wang, Liping Lin, Zhijun Raterron, Paul Zhao, Yusheng
Author_xml	– sequence: 1 givenname: Xiaohui surname: Yu fullname: Yu, Xiaohui organization: LANSCE Lujan Center, Los Alamos National Laboratory – sequence: 2 givenname: Paul surname: Raterron fullname: Raterron, Paul organization: Unité Matériaux et Transformations, CNRS 8207, Bât C6, Université Lille 1 – sequence: 3 givenname: Jianzhong surname: Zhang fullname: Zhang, Jianzhong organization: LANSCE Lujan Center, Los Alamos National Laboratory – sequence: 4 givenname: Zhijun surname: Lin fullname: Lin, Zhijun organization: LANSCE Lujan Center, Los Alamos National Laboratory – sequence: 5 givenname: Liping surname: Wang fullname: Wang, Liping organization: HiPSEC and Department of Physics and Astronomy, University of Nevada – sequence: 6 givenname: Yusheng surname: Zhao fullname: Zhao, Yusheng organization: LANSCE Lujan Center, Los Alamos National Laboratory, HiPSEC and Department of Physics and Astronomy, University of Nevada
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Cites_doi	10.1021/jp102037j 10.1063/1.2115098 10.1103/PhysRevLett.84.5160 10.1063/1.1570948 10.1016/0925-9635(95)00362-2 10.1103/PhysRevB.73.144115 10.1080/14786436608211997 10.1016/j.diamond.2006.10.001 10.1016/j.epsl.2004.07.023 10.1088/0256-307X/19/9/348 10.1016/S0925-9635(99)00203-4 10.1126/science.276.5316.1242 10.1038/213248a0 10.1103/PhysRevB.64.212103 10.1063/1.2061853 10.1038/273037a0 10.1023/B:JMSC.0000016205.14981.11 10.1038/351721a0 10.1180/minmag.2012.076.1.143 10.1126/science.266.5184.419 10.1098/rspa.1983.0034 10.1016/j.actamat.2011.02.013 10.1007/s00269-006-0127-5 10.1107/S0021889808031762 10.1103/PhysRevB.67.045312
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Snippet	Constitutive laws and crystal plasticity in diamond deformation have been the subjects of substantial interest since synthetic diamond was made in 1950's. To...
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SubjectTerms	639/166/988 639/301 639/766/25 704/2151/330 Alloys applied physics Crystals Deformation Dislocation High pressure High temperature Humanities and Social Sciences materials science mechanical engineering Mechanics Mechanics of materials mineralogy multidisciplinary Physics Plasticity Science Temperature Temperature effects Yield stress
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Title	Constitutive Law and Flow Mechanism in Diamond Deformation
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