戴明华

(高级实验师)


学位:硕士
性别:女
毕业院校:大连理工大学
所在单位:机械工程学院
电子邮箱:daiminghua@dlut.edu.cn

论文成果

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Investigation of convection heat transfer coefficient of circular cross-section short pipes in hot stamping dies

发表时间:2019-03-11 点击次数:

论文名称:Investigation of convection heat transfer coefficient of circular cross-section short pipes in hot stamping dies
论文类型:期刊论文
发表刊物:APPLIED THERMAL ENGINEERING
收录刊物:SCIE、EI
卷号:138
页面范围:133-153
ISSN号:1359-4311
关键字:Hot stamping; Short pipe flow model; CHTC; Calculating methods; Influencing factors; Threaded pipe
摘要:Since the cooling system design in hot stamping dies is an important issue in hot stamping technology, the heat transfer characteristics between water flow and the inner wall of pipes becomes particularly important for its remarkable effect on hot stamping process. In order to investigate the heat transfer characteristics between H13 tool steel and the water flow in hot stamping dies, a self-developed Convection Heat Transfer Coefficient (CHTC) measuring equipment was established based on a circular cross-section short pipe model. To calculate the CHTC, an analytical calculating method named Fourier equation method based on experimental data and a numerical simulation method were introduced. To further investigate the influence of different factors including inlet fluid mass flow rate, inlet fluid temperature, inlet fluid turbulence intensity, pipe diameter, surface roughness and the furnace temperature on the CHTC, more numerical simulations were implemented, together with the ANOVA analysis. And results showed that the obtained simulation temperature field was in good agreement with the experiment, and the calculated CHTC values distilled from the simulation results were matched well with that of experiment, too. Moreover, all the investigated factors were found to have significant influence on the CHTC value, and the top three factors are inlet fluid mass flow rate, inlet fluid temperature and inner pipe surface roughness. Finally, a novel threaded pipe applied in hot stamping die was introduced derived from the ideal of improving inner pipe surface roughness, which was found to have much higher CHTC, the turbulence intensity along the cooling pipe could be promoted, which could help increase the heat transfer intensity as well.
发表时间:2018-06-25