Doctoral Degree

哈尔滨工业大学

Personal Information

Gender:Male
Business Address:大连理工大学铸造中心315
E-Mail:kanghuijun@dlut.edu.cn

VIEW MORE
Home > Scientific Research > Paper Publications

Optimization design of wide face water slots for medium-thick slab casting mold

Date of Publication:2016-09-01 Hits:

Indexed by:期刊论文
Date of Publication:2016-09-01
Journal:CHINA FOUNDRY
Included Journals:SCIE、ISTIC
Volume:13
Issue:5
Page Number:327-334
ISSN No.:1672-6421
Key Words:medium-thick slab casting mold; water slots design; heat flux profile; thermal behavior; finite-element analysis
Abstract:A three-dimensional finite-element model has been established to investigate the thermal behavior of the medium-thick slab copper casting mold with different cooling water slot designs. The mold wall temperatures measured using thermocouples buried in different positions of the mold with the original designed cooling system were analyzed to determine the corresponding heat flux profile. This profile was then used for simulation to predict the temperature distribution and the thermal stress distribution of the molds. The predicted temperatures during operation matched the plant measurements. The results showed that the maximum temperature, about 635 K in the wide hot surface, was found about 60 mm below the meniscus and 226 mm from the center of the mold. For the mold with the type I modified design, there was an insignificant decrease in temperature of about 5 K, and for the mold with the type II modified design, the maximum temperature was decreased by about 15 K and the temperature of the hot surface was distributed more uniformly along the length of the mold. The corresponding maximum thermal stress at the hot surface of the mold was reduced from 408 MPa to 386 MPa with the type II modified design. The results indicated that the modified design II is beneficial to the increase of mold life and the quality of casting slabs.