基本情况

沈厚发,清华大学材料学院教授。

 

研究领域

大型铸锭、铸件及连续铸造工艺与模拟仿真研究工作、材料加工模拟与仿真

 

论文发表

  1. TU W T, SHEN H F, LIU B C. Modelling of macrosegregation in a 231-ton steel ingot with multi-pouring process[J]. Materials Research Innovations, 2015
  2. TU W T, SHEN H F, LIU B C. Numerical simulation of macrosegregation during solidification of binary alloys[J]. Rare Metals, 2015
  3. LI W S, SHEN H F, ZHANG X, LIU, B C. Modeling of species transport and macrosegregation in heavy steel ingots[J]. Metall Mater Trans B. 2014, 45B: 464-471
  4. TU W T, ZHANG X, SHEN H F, LIU B C. Numerical simulation of multiple pouring process in a 292-t steel ingot[J]. China Foundry, 2014, 11(1): 52-58.SCI
  5. TU W T, SHEN H F, LIU B C. Two-phase modeling of macrosegregation in a 231t steel ingot[J]. ISIJ Inter. 2014, 54(2): 351-355
  6. ZHANG D J, LEI S, ZENG SHAN, SHEN H F. Thermo-mechanical modeling in continuous slab casting mould and its application[J]. ISIJ Inter. 2014, 54(2): 336-341
  7. KANG J W, DONG C, HAO X K, NIE G, SHEN H F, LIU B C. Water analog experimental method for the diffusion and distribution of alloy elements in liquid steel during ingot filling process[J]. ISIJ Inter. 2014, 54(2): 275-280
  8. LI W S, SHEN H F, AND LIU B C. Numerical simulation of macrosegregation in steel ingots using a two-phase model[J]. Int J Minerals, Metallurgy and Materials, 2012, 19(9): 787
  9. LI W S, SHEN H F, LIU B C. A response to numerical benchmark for solidification of binary alloys: macro-segregation with thermo-solutalconvection[J]. China Foundry. 2012, 9(2): 171-177
  10. CHEN R, SHEN H F, LIU B C. Numerical simulation of fluid flow and solidification in continuous slab casting mould based on inverse heat transfer calculation[J], Ironmaking and Steelmaking, 2011, 38(7): 546-551
  11. LIU B C, XU Q Y, JING T, SHEN H F, HAN Z Q. Advances in multi-scale modeling of solidification and casting processes[J]. JOM, 2011, 63(4): 19-25
  12. ZHANG C L, BELLET M, BOBADILLA M, SHEN H F, LIU, B C. Inverse finite element modelling and identification of constitutive parameters of UHS steel based on Gleeble tensile tests at high temperature[J]. Inverse Problems in Science and Engineering, 2011, 19(4): 485-508
  13. ZHANG J, SHEN H F, HUANG T Y. Finite element thermal-mechanical coupled analysis of strand bulging deformation in continuous casting[J]. Advanced Materials Research/ Materials Processing Technologies, 2011, 154-155: 1456-1461
  14. LI W S, SHEN H F, LIU B C. Three-dimensional simulation of thermosolutal convection and macrosegregation in steel ingots[J]. Steel Research International, 2010, 81(11): 994-1000
  15. ZHANG C L, BELLET M, BOBADILLA M, SHEN H F, LIU, B C. A coupled electrical-thermal-mechanical modeling of Gleeble tensile tests for ultra-high-strength (UHS) steel at a high temperature[J], Metall Mater Trans  A, 2010, 41(9): 2304-2317
  16. GUO L L, LI W, BOBADILLA M, YAO M, SHEN H F. High temperature mechanical properties of micro-alloyed carbon steel in the mushy zone[J]. Steel Research International, 2010, 81(5): 387-393
  17. 张长利,Bellet M, Bobadilla M, 沈厚发,柳百成,微合金低碳钢高温拉伸实验过程的有限元模拟[J],金属学报,20104610):1206-1214