THERMO-MECHANICAL ASSESSMENT OF HIGH ENTROPHY (Fe-Ni-Cx (X=0.3-0.5), (Fe-Cr-Cx (X=0.3-0.5) TERNARY ALLOYS SYSTEM USING CALPHAD METHOD

W. U. Shah, D. Khan, Haiqing Yin, S. Jan
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Abstract

The thermodynamical assessment of high entropy alloys (Fe-Ni-Cx (X=0.3-0.5)), (Fe-Cr-Cx (X=0.3-0.5)) system is performed in this research work through FEDAMO database and Thermo-Calc software package. The high energy thermal analysis is manipulated for yield strength from FCC to BCC, precipitation from cementite to M7C3 (grain boundaries), Crack Susceptibility Coefficient for Fe-Ni-Cx ,Fe-Cr-Cx ternary alloys system at (1900-3000)K temperature with constant atmospheric pressure of 106 Pascal. The highest crack susceptibility coefficient for Fe-Cr-C, Fe-Ni-C system is found 2.21043, 0.26294 with mass percent of C 0.2500%, at 3000K of temperature with Mass percent. Yield strength from FCC to BCC is found 824.0453, 100.67063 for Fe-Cr-C, Fe-Ni-C ternary alloys. Phase transition is noted from cementite to M7C3 at 1346.77339 K. FCC_A1#3 phases with 0.98772 moles and 0.01228 mole Of M7C3 with 0 moles of M23C6 carbide phases observed. The comprehensive line investigation of mechanical properties is justified with simulation/computational inputs. The results are feasible for industrial sectors and metallurgical centers for operation. The alloy shows equilibrium and good stability.
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高熵(Fe-Ni-Cx (X=0.3-0.5), (Fe-Cr-Cx (X=0.3-0.5))三元合金体系的热力学评价
本研究通过FEDAMO数据库和thermal - calc软件包对高熵合金(Fe-Ni-Cx (X=0.3-0.5))、(Fe-Cr-Cx (X=0.3-0.5))体系进行热力学评价。高能热分析包括FCC到BCC的屈服强度、渗碳体到M7C3(晶界)的析出、Fe-Ni-Cx、Fe-Cr-Cx三元合金体系在(1900-3000)K温度和106 Pascal恒定大气压下的裂纹敏感系数。在3000K温度下,Fe-Cr-C、Fe-Ni-C体系的裂纹敏感系数最高,分别为2.21043、0.26294(质量分数为0.2500%)和2.21043(质量分数为0.2500%)。Fe-Cr-C、Fe-Ni-C三元合金从FCC到BCC的屈服强度分别为824.0453、100.67063。在1346.77339 K时,从渗碳体到M7C3发生相变。FCC_A1#3相分别含有0.98772 mol和0.01228 mol的M7C3和0 mol的M23C6碳化物。综合线调查的力学性能是合理的模拟/计算输入。研究结果可供工业部门和冶金中心实际应用。该合金具有良好的平衡性和稳定性。
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Kuwait Journal of Science & Engineering
Kuwait Journal of Science & Engineering MULTIDISCIPLINARY SCIENCES-
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