本文主要研究内容
作者(2019)在《Effect of solidification rate on microstructure and primary carbides of AISI DC 53 cold work tool steel》一文中研究指出:The solidification behavior of AISI DC 53 cold work tool steel was investigated by means of a cooling curve and its first derivative. Copper and sand wedge-shaped molds were used to obtain various solidification rates. To reveal the cooling rate degree during solidification,the secondary dendrite arm spacing of the steel alloy was examined by scanning electron microscopy(SEM). The solidification rates of each section for both wedge steel samples were calculated by means of the secondary dendrite arm spacing using a research-based empirical relation from the literature. Experiment results revealed that at the tip region of the cast specimen in the copper wedgeshaped mold,the carbide size was 7–8 μm,where the solidification rate was approximately 4,830 °C·s-1. The greatest carbide size obtained in the upper region of the sand cast wedge-shaped specimen was 250–270 μm.
Abstract
The solidification behavior of AISI DC 53 cold work tool steel was investigated by means of a cooling curve and its first derivative. Copper and sand wedge-shaped molds were used to obtain various solidification rates. To reveal the cooling rate degree during solidification,the secondary dendrite arm spacing of the steel alloy was examined by scanning electron microscopy(SEM). The solidification rates of each section for both wedge steel samples were calculated by means of the secondary dendrite arm spacing using a research-based empirical relation from the literature. Experiment results revealed that at the tip region of the cast specimen in the copper wedgeshaped mold,the carbide size was 7–8 μm,where the solidification rate was approximately 4,830 °C·s-1. The greatest carbide size obtained in the upper region of the sand cast wedge-shaped specimen was 250–270 μm.
论文参考文献
[1].Numerical solution to T-φ_S-C_L coupling in binary dendrite solidification with any solid-back diffusion effects[J]. 徐达鸣,郭景杰,傅恒志,苏彦庆,李庆春. Transactions of Nonferrous Metals Society of China.2003(05)[2].Influence of high pressure during solidification on the microstructure and strength of Mg-Zn-Y alloys[J]. 周海涛,刘克明,张莉,陆磊,ATRENS Andrej,陆德平. Journal of Rare Earths.2016(04)[3].Effects of Ta on the solidification behavior and microstructure of a rhenium-containing hot corrosion resistant single crystal[J]. Shi-hua Ma,Hong-quan Hao,Dong Wang,Lang-hong Lou,Jian Zhang. International Journal of Minerals Metallurgy and Materials.2019(07)[4].Nature of large (Ti, Nb)(C, N) particles precipitated during the solidification of Ti, Nb HSLA steel[J]. Hae-Geon Lee. Journal of University of Science and Technology Beijing.2007(02)[5].Numerical simulation of microstructure evolution and microsegregation of U-Nb alloy during solidification process[J]. Bin Su,Zhi-qiang Han,Hong-zhang Deng,Rong Ma,Dong Chen,Jun Wu,Zhen-hong Wang. China Foundry.2017(05)[6].Construction and analysis of dynamic solidification curves for non-equilibrium solidification process in lost-foam casting hypoeutectic gray cast iron[J]. Ming-guo Xie,Chang-an Zhu. China Foundry.2017(03)[7].Progress and development trends in the numerical modeling of solidification[J]. Weidong Huang,Meng Wang. Chinese Science Bulletin.2014(15)[8].Simulation on solidification structure of 72A tire cord steel billet using CAFE method[J]. Jing Cailiang1,Xu Zhigang1,Wang Ying2,and Wang Wanjun1 (1.School of Metallurgical and Ecological Engineering,University of Science and Technology Beijing,Beijing 100083,China;2.Technology Center of Xingtai Iron & Steel Co.,Ltd.,Xingtai 054027,Hebei,China). China Foundry.2012(01)[9].Metallurgical modeling of microcrack repairment during welding nonferrous materials: non-equilibrium solidification behavior of weld pool (Ⅰ)[J]. 高志国. China Welding.2017(02)[10].A coupled model on fluid flow, heat transfer and solidification in continuous casting mold[J]. Xu-bin Zhang,Wei Chen,Li-feng Zhang. China Foundry.2017(05)
论文详细介绍
论文作者分别是来自China Foundry的,发表于刊物China Foundry2019年03期论文,是一篇关于,China Foundry2019年03期论文的文章。本文可供学术参考使用,各位学者可以免费参考阅读下载,文章观点不代表本站观点,资料来自China Foundry2019年03期论文网站,若本站收录的文献无意侵犯了您的著作版权,请联系我们删除。
标签:China Foundry2019年03期论文;
:Effect of solidification rate on microstructure and primary carbides of AISI DC 53 cold work tool steel论文
下载Doc文档