A hybrid cellular automata-finite element model for the simulation of the grind-hardening process

被引:0
|
作者
Konstantinos Salonitis
机构
[1] Cranfield University,Manufacturing Department
来源
The International Journal of Advanced Manufacturing Technology | 2017年 / 93卷
关键词
Grinding; Modelling; Surface hardening; Cellular automata;
D O I
暂无
中图分类号
学科分类号
摘要
Grind-hardening process is a hybrid process for the simultaneous finishing and heat treatment of the workpiece material. Several studies have been presented for the simulation of the process, using either analytical or finite element-based models. In the present paper, the cellular automata method is used for simulating the metallurgical changes in the workpiece material. The method is coupled with a finite element model for the macro-modelling of the process, allowing the prediction of the microstructure of the material as a function of the macro-process parameters.
引用
收藏
页码:4007 / 4013
页数:6
相关论文
共 50 条
  • [41] Finite element simulation of quench hardening
    Gur, CH
    Tekkaya, AE
    STEEL RESEARCH, 1996, 67 (07): : 298 - 306
  • [42] Finite element simulation of quench hardening
    Middle East Technical Univ, Ankara, Turkey
    Steel Res, 7 (298-306):
  • [43] Simulation of static recrystallization in non-isothermal annealing using a coupled cellular automata and finite element model
    Salehi, M. Seyed
    Serajzadeh, S.
    COMPUTATIONAL MATERIALS SCIENCE, 2012, 53 (01) : 145 - 152
  • [44] Simulation of Pitting Corrosion Under Stress Based on Cellular Automata and Finite Element Method
    Wang, Ying
    Shi, Haoran
    JOURNAL OF ENGINEERING MATERIALS AND TECHNOLOGY-TRANSACTIONS OF THE ASME, 2024, 146 (02):
  • [45] Simulation of Tumor Response to Immunotherapy Using a Hybrid Cellular Automata Model
    Zouhri S.
    Saadi S.
    Rachik M.
    International Journal of Applied and Computational Mathematics, 2017, 3 (2) : 1077 - 1101
  • [46] Dynamic simulation for the process of mining subsidence based on cellular automata model
    Chen, Qiuji
    Li, Jiye
    Hou, Enke
    OPEN GEOSCIENCES, 2020, 12 (01): : 832 - 839
  • [47] A combined neuro fuzzy-cellular automata based material model for finite element simulation of plane strain compression
    Das, S.
    Abbod, M. F.
    Zhu, Q.
    Palmiere, E. J.
    Howard, I. C.
    Linkens, D. A.
    COMPUTATIONAL MATERIALS SCIENCE, 2007, 40 (03) : 366 - 375
  • [48] Optimizing the cellular automata finite element model for additive manufacturing to simulate large microstructures
    Teferra, Kirubel
    Rowenhorst, David J.
    ACTA MATERIALIA, 2021, 213
  • [49] Mesh sensitivity study in the random cellular automata finite element model of dynamic recrystallization
    Sitko, Mateusz
    Pawlikowski, Kacper
    Perzynski, Konrad
    Madej, Lukasz
    MATERIAL FORMING, ESAFORM 2024, 2024, 41 : 2271 - 2277
  • [50] Validation of Parameters of Cellular Automata Finite Element Model Dedicated to Strain Localization Phenomena
    Madej, Lukasz
    Szeliga, Danuta
    Sztangret, Lukasz
    Pietrzyk, Maciej
    STEEL RESEARCH INTERNATIONAL, 2010, 81 (09) : 1426 - 1429
12345