Electron work function–a promising guiding parameter for material design

Using nickel added X70 steel as a sample material, we demonstrate that electron work function (EWF), which largely reflects the electron behavior of materials, could be used as a guide parameter for material modification or design. Adding Ni having a higher electron work function to X70 steel brings...

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Veröffentlicht in:	Scientific reports 2016-04, Vol.6 (1), p.24366-24366, Article 24366
Hauptverfasser:	Lu, Hao, Liu, Ziran, Yan, Xianguo, Li, Dongyang, Parent, Leo, Tian, Harry
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Schlagworte:	119/118 639/301/1023/1026 639/301/1023/303 Bond strength Design Humanities and Social Sciences Mechanical properties multidisciplinary Nickel Nuclei Science Steel
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creator	Lu, Hao Liu, Ziran Yan, Xianguo Li, Dongyang Parent, Leo Tian, Harry
description	Using nickel added X70 steel as a sample material, we demonstrate that electron work function (EWF), which largely reflects the electron behavior of materials, could be used as a guide parameter for material modification or design. Adding Ni having a higher electron work function to X70 steel brings more “free” electrons to the steel, leading to increased overall work function, accompanied with enhanced e − – nuclei interactions or higher atomic bond strength. Young’s modulus and hardness increase correspondingly. However, the free electron density and work function decrease as the Ni content is continuously increased, accompanied with the formation of a second phase, FeNi 3 , which is softer with a lower work function. The decrease in the overall work function corresponds to deterioration of the mechanical strength of the steel. It is expected that EWF, a simple but fundamental parameter, may lead to new methodologies or supplementary approaches for metallic materials design or tailoring on a feasible electronic base.
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subjects	119/118 639/301/1023/1026 639/301/1023/303 Bond strength Design Humanities and Social Sciences Mechanical properties multidisciplinary Nickel Nuclei Science Steel
title	Electron work function–a promising guiding parameter for material design
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