Calculation of Kobasko's Simplified Heat Transfer Coefficients from Cooling Curve Data Obtained with Small Probes

R. Otero
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引用次数: 9

Abstract

Although heat transfer coefficient characterization of quench severity is not new, there continues to be a need for the rapid and relatively simple calculation of heat transfer coefficients from time-temperature cooling curve data files obtained via test methods such as ASTM D6200, D6482, D6549, and D7646, which utilize relatively small cylindrical test probes with diameters of ≤12.5 mm. One method that may be readily used is Kobasko’s computational method for effective heat transfer coefficients, which is based on time-temperature data obtained at the geometric center of small test probes during cooling curve analysis. A description of the step-by-step procedure for performing these calculations on actual experimental data is provided here.
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从小探头获得的冷却曲线数据计算Kobasko的简化传热系数
虽然热传递系数表征淬火严重程度并不新鲜,但仍然需要通过ASTM D6200, D6482, D6549和D7646等测试方法获得的时间-温度冷却曲线数据文件快速且相对简单地计算热传递系数,这些方法使用直径≤12.5 mm的相对较小的圆柱形测试探头。一种容易使用的方法是Kobasko的有效传热系数计算方法,该方法基于在冷却曲线分析期间在小测试探头几何中心获得的时间-温度数据。这里提供了在实际实验数据上执行这些计算的逐步过程的描述。
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