Prediction of surface roughness during abrasive flow machining

被引:47
|
作者
Gorana, V. K.
Jain, V. K. [1 ]
Lal, G. K.
机构
[1] Indian Inst Technol, Dept Mech Engn, Kanpur 208016, Uttar Pradesh, India
[2] Coll Engn, Dept Mech Engn, Kota 324010, Raj, India
来源
INTERNATIONAL JOURNAL OF ADVANCED MANUFACTURING TECHNOLOGY | 2006年 / 31卷 / 3-4期
关键词
active grain density; forces on a grain; grain spacing; initial surface finish; initial topography;
D O I
10.1007/s00170-005-0197-4
中图分类号
TP [自动化技术、计算机技术];
学科分类号
0812 ;
摘要
An analytical model is proposed to simulate and predict the surface roughness for different machining conditions in abrasive flow machining (AFM). The kinematic analysis is used to model the interaction between grain and workpiece. Fundamental AFM parameters, such as the grain size, grain concentration, active grain density, grain spacing, forces on the grain, initial topography, and initial surface finish (R-a value) of the workpiece are used to describe the grain-workpiece interaction. The AFM process is studied under a systematic variation of grain size, grain concentration and extrusion pressure with initial surface finish of the workpiece. Simulation results show that the proposed model gives results that are consistent with experimental results.
引用
收藏
页码:258 / 267
页数:10
相关论文
共 50 条
  • [1] Prediction of surface roughness during abrasive flow machining
    V. K. Gorana
    V. K. Jain
    G. K. Lal
    The International Journal of Advanced Manufacturing Technology, 2006, 31 : 258 - 267
  • [2] Study on Prediction of Surface Roughness for Abrasive Flow Machining
    Wang, Haiquan
    Fu, Yuanzheng
    Gao, Hang
    Wang, Xuanping
    Jixie Gongcheng Xuebao/Journal of Mechanical Engineering, 2022, 58 (15): : 188 - 197
  • [3] The prediction of material removal and surface roughness of workpiece during abrasive flow machining
    Zheng, Guangzhen
    Zhang, Kehua
    Ding, Jinfu
    Fang, Zenghao
    He, Libin
    Key Engineering Materials, 2014, 579-580 : 70 - 75
  • [4] Monitoring of surface roughness evolution during abrasive flow machining by acoustic emission
    Sangil Han
    Ferdinando Salvatore
    Christophe Claudin
    Joël Rech
    Fabio Wosniak
    Patrick Matt
    The International Journal of Advanced Manufacturing Technology, 2024, 131 : 595 - 609
  • [5] Monitoring of surface roughness evolution during abrasive flow machining by acoustic emission
    Han, Sangil
    Salvatore, Ferdinando
    Claudin, Christophe
    Rech, Joel
    Wosniak, Fabio
    Matt, Patrick
    INTERNATIONAL JOURNAL OF ADVANCED MANUFACTURING TECHNOLOGY, 2024, 131 (02): : 595 - 609
  • [6] Temperature Dependence and Effect on Surface Roughness in Abrasive Flow Machining
    Song, G. Z.
    Li, Y. Z.
    Ya, G.
    SURFACE FINISHING TECHNOLOGY AND SURFACE ENGINEERING, 2008, 53-54 : 375 - 380
  • [7] Prediction of crater depth, surface roughness and erosion rate during abrasive jet machining of glass
    Melentiev, Ruslan
    Fang, Fengzhou
    WEAR, 2021, 468
  • [8] Prediction of surface roughness of titanium alloy in abrasive waterjet machining process
    Ting, Ho Yi
    Asmelash, Mebrahitom
    Azhari, Azmir
    Alemu, Tamiru
    Saptaji, Kushendarsyah
    INTERNATIONAL JOURNAL OF INTERACTIVE DESIGN AND MANUFACTURING - IJIDEM, 2022, 16 (01): : 281 - 289
  • [9] Prediction of surface roughness of titanium alloy in abrasive waterjet machining process
    Ho Yi Ting
    Mebrahitom Asmelash
    Azmir Azhari
    Tamiru Alemu
    Kushendarsyah Saptaji
    International Journal on Interactive Design and Manufacturing (IJIDeM), 2022, 16 : 281 - 289
  • [10] Modeling of material removal and surface roughness in abrasive flow machining process
    Jain, Rajendra K.
    Jain, Vijay K.
    Dixit, P.M.
    International Journal of Machine Tools and Manufacture, 1999, 39 (12): : 1903 - 1923
12345