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Comparison of Cooling Performance Between High Thermal Conductivity Steel (HTCS 150) and Hot Work Tool Steel (SKD 61) Insert for Experimental Tool Using Finite Element Analysis

机译：使用有限元分析法比较实验工具用高导热率钢（HTCS 150）和热作工具钢（SKD 61）的冷却性能

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In hot stamping, the tool cooling system plays an important role in optimizing the process cycle time as well as maintaining the tool temperature distribution. Since the chilled water is forced to circulate through the cooling channels, there is a need to find the optimal parameters of the cooling channels that will cool down the tool efficiently. In this research paper, the cooling channel parameters that significantly influence the tool cooling performance such as size of the cooling holes, distance between the cooling holes and distance between the cooling holes and the tool surface contour are analyzed using the finite element method for both static and thermal analysis. Finally the cooling performance of two types of materials is compared based on the optimized cooling channel parameters.

机译：在热冲压中，工具冷却系统在优化工艺周期时间以及保持工具温度分布方面起着重要作用。由于迫使冷却水在冷却通道中循环，因此需要找到冷却通道的最佳参数，以最佳地冷却工具。在这篇研究论文中，使用有限元方法分析了对静态冷却性能有重大影响的冷却通道参数，例如冷却孔的大小，冷却孔之间的距离，冷却孔之间的距离以及工具表面轮廓，和热分析。最后，基于优化的冷却通道参数比较了两种材料的冷却性能。

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Mohd Fawzi Zamri; Zahari Taha; A. R. Yusoff; Mohamad Farid Mohamad Sharif; Mohd Ali Hanafiah Shaharudin;
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年度 2014
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1. Experimental Analysis on Cooling Channels Parameters in Hot Stamping Tools (SKD61) [J] . American-Eurasian Journal of Sustainable Agriculture . 2014,第11期

机译：烫金工具（SKD61）冷却通道参数的实验分析
2. The Parameters Effect on the Microstructures and Mechanical Properties of Gas-Metal-Arc Welded SKD 61 Hot Work Tool Steel [J] . Teerayut Kanchanasangtong, Supachai Surapunt International Journal of Applied Engineering Research . 2017,第17aPta2期

机译：气金属焊接SKD 61热工床微观结构和机械性能的参数效应
3. Wear Characteristics of Stellite6 and NOREM02 Hardfaced SKD61 Hot Working Tool Steel at the Elevated Temperature (vol 15, pg 2549, 2014) [J] . Park Na-Ra, Ahn Dong-Gyu International Journal of Precision Engineering and Manufacturing . 2015,第2期

机译：Stellite6和NOREM02硬面SKD61热作工具钢在高温下的磨损特性（vol 15，pg 2549，2014）
4. Comparison of Cooling Performance Between High Thermal Conductivity Steel (HTCS 150) and Hot Work Tool Steel (SKD 61) Insert for Experimental Tool Using Finite Element Analysis [C] . Zahari Taha, Ahmad Razlan Yusoff, Mohamad Farid Mohamad Sharif International Manufacturing Engineering Conference . 2014

机译：使用有限元分析比较高导热钢（HTCS 150）和热工作工具钢（SKD 61）插入实验工具之间的冷却性能
5. Hot work tool steel failure analysis. [D] . Stotts, Roger Burton. 1970

机译：热作工具钢的失效分析。
6. Rigid Finite Element Method in Modeling Composite Steel-Polymer Concrete Machine Tool Frames [O] . Paweł Dunaj, Krzysztof Marchelek, Stefan Berczyński, 2020

机译：复合钢 - 高分子混凝土机床框架建模的刚性有限元法
7. Erratum to: Wear characteristics of Stellite6 and NOREM02 hardfaced SKD61 hot working tool steel at the elevated temperature [O] . Na-Ra Park, Dong-Gyu Ahn 2015

机译：错误：在升高温度下，Stellite6和Norem02 Hardfaced SKD61热加工工具钢的磨损特性

Comparison of Cooling Performance Between High Thermal Conductivity Steel (HTCS 150) and Hot Work Tool Steel (SKD 61) Insert for Experimental Tool Using Finite Element Analysis

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