The Ideal Strengths of Superconducting MgCNi{sub 3} and CdCNi{sub 3}

The stress-strain curves under tensile deformation in the 〈100〉, 〈110〉, and 〈111〉 directions and under shear deformation in the (001)〈110〉, (110)〈1̄10〉, (111)〈11̄0〉, and (111)〈112̄〉 slip systems have been systematically calculated by first-principles method to study the ideal strengths of supercondu...

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Veröffentlicht in:	Journal of superconductivity and novel magnetism 2018-08, Vol.31 (8)
Hauptverfasser:	Zeng, Xianshi, Wan, Huijun, Guo, Siling, Gou, Qingdong, Wu, Donglan, Wen, Yufeng, Liu, Lili
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Sprache:	eng
Schlagworte:	CADMIUM COMPOUNDS CARBON COMPOUNDS CONDENSED MATTER PHYSICS, SUPERCONDUCTIVITY AND SUPERFLUIDITY DEFORMATION DUCTILITY ELASTICITY LATTICE PARAMETERS MAGNESIUM COMPOUNDS NICKEL COMPOUNDS STRESSES SUPERCONDUCTORS TERNARY ALLOY SYSTEMS
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container_title	Journal of superconductivity and novel magnetism
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creator	Zeng, Xianshi Wan, Huijun Guo, Siling Gou, Qingdong Wu, Donglan Wen, Yufeng Liu, Lili
description	The stress-strain curves under tensile deformation in the 〈100〉, 〈110〉, and 〈111〉 directions and under shear deformation in the (001)〈110〉, (110)〈1̄10〉, (111)〈11̄0〉, and (111)〈112̄〉 slip systems have been systematically calculated by first-principles method to study the ideal strengths of superconducting MgCNi{sub 3} and CdCNi{sub 3}. The ideal strengths in the three tensile directions are found to be reduced in the order of 〈100〉 → 〈110〉 → 〈111〉 and those for the four shear slip systems in the order of (110)〈1̄10〉→(111)〈112̄〉→(111)〈11̄0〉→(001)〈110〉 for both superconductors. Their lowest ideal tensile strengths are found to be larger than the corresponding highest ideal shear strengths, which could explain why both superconductors have the ductility. The obtained lattice constants and elastic properties coincide well with the the available experimental and theoretical values.
doi_str_mv	10.1007/S10948-017-4518-2
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The ideal strengths in the three tensile directions are found to be reduced in the order of 〈100〉 → 〈110〉 → 〈111〉 and those for the four shear slip systems in the order of (110)〈1̄10〉→(111)〈112̄〉→(111)〈11̄0〉→(001)〈110〉 for both superconductors. Their lowest ideal tensile strengths are found to be larger than the corresponding highest ideal shear strengths, which could explain why both superconductors have the ductility. 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The ideal strengths in the three tensile directions are found to be reduced in the order of 〈100〉 → 〈110〉 → 〈111〉 and those for the four shear slip systems in the order of (110)〈1̄10〉→(111)〈112̄〉→(111)〈11̄0〉→(001)〈110〉 for both superconductors. Their lowest ideal tensile strengths are found to be larger than the corresponding highest ideal shear strengths, which could explain why both superconductors have the ductility. The obtained lattice constants and elastic properties coincide well with the the available experimental and theoretical values.</abstract><cop>United States</cop><doi>10.1007/S10948-017-4518-2</doi></addata></record>
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subjects	CADMIUM COMPOUNDS CARBON COMPOUNDS CONDENSED MATTER PHYSICS, SUPERCONDUCTIVITY AND SUPERFLUIDITY DEFORMATION DUCTILITY ELASTICITY LATTICE PARAMETERS MAGNESIUM COMPOUNDS NICKEL COMPOUNDS STRESSES SUPERCONDUCTORS TERNARY ALLOY SYSTEMS
title	The Ideal Strengths of Superconducting MgCNi{sub 3} and CdCNi{sub 3}
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