Measurement of surface tension and specific heat of Ni-18.8 at.% Si alloy melt by containerless processing

Cao C.; Zhang L.; Bai X.; Duan L.; Wang F.

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Measurement of surface tension and specific heat of Ni-18.8 at.% Si alloy melt by containerless processing

机译：无容器处理法测量Ni-18.8 at。％Si合金熔体的表面张力和比热

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The surface tension and specific heat of superheated and undercooled Ni-18.8 at.% Si alloy melt have been measured by the oscillating drop method and the drop calorimetry technique in combination with electromagnetic levitation, respectively. The surface tension follows a linear relationship with temperature within the range of 1370-2100 K. The surface tension at the melting temperature and the temperature coefficient are determined to be 1.796 N/m and -3.858 × 10~(-4) N/m/K, respectively. The specific heat is determined to be 40.80 ± 1.435 J/mol/ K over the temperature range 1296-2000 K. The maximum undercooling of 178 K is achieved in the experiments. Based on the measured data of surface tension and specific heat, the viscosity, solute diffusion coefficient, density and thermal diffusivity of liquid Ni-18.8 at.% Si alloy are calculated.

机译：分别通过振荡滴落法和液滴量热法结合电磁悬浮法测量了过热和过冷的Ni-18.8 at。％Si合金熔体的表面张力和比热。表面张力与温度在1370-2100 K范围内呈线性关系。熔融温度下的表面张力和温度系数确定为1.796 N / m和-3.858×10〜（-4）N / m / K。在1296-2000 K的温度范围内，比热确定为40.80±1.435 J / mol /K。在实验中实现了178 K的最大过冷度。根据表面张力和比热的测量数据，计算液态Ni-18.8 at。％Si合金的粘度，溶质扩散系数，密度和热扩散率。

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《Journal of Materials Science》 |2011年第19期|共5页
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Cao C.; Zhang L.; Bai X.; Duan L.; Wang F.;
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1. Measurement of surface tension and specific heat of Ni-18.8 at.% Si alloy melt by containerless processing [J] . Chongde Cao, Limin Zhang, Xiaojun Bai, Journal of Materials Science . 2011,第19期

机译：无容器处理法测量Ni-18.8 at。％Si合金熔体的表面张力和比热
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机译：一种用于表面张力测量熔融金属和合金的准无容器悬滴法

Measurement of surface tension and specific heat of Ni-18.8 at.% Si alloy melt by containerless processing

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