References
- Aguiar, P.R.; Serni, P.J.A.; Bianchi, E.C.; Dotto, F.R.L. (2004). In-process grinding monitoring by acoustic emission. IEEE Int. Conf. Acoustics Speech Signal Process., IEEE, Montreal, May 2004.
- Cuervo, P.A.; Santa, J.F.; Toro, A. (2015) Correlations between wear mechanisms and rail grinding operations in a commercial railroad. Tribology International, 82: 265–273.
- Denkena, B.; Ortmaier, T.; Ahrens, M.; Fischer, R. (2014) Monitoring of grinding wheel defects using recursive estimation. The International Journal of Advanced Manufacturing Technology, 75(5–8): 1005–1015. (
- Fan, W.G.; Liu, Y.M.; Song, X.Y.; Cheng, J.; Li, J. (2018) Influencing mechanism of rubber wheel on contact pressure and metal removal in corrugated rail grinding by abrasive belt. Journal of Manufacturing Science and Engineering, 52(1): 1–14.
- Gu, K.K.; Lin, Q.; Wang, W.J.; Wang, H.Y.; Guo, J.; Liu, Q.Y.; Zhu, M.H. (2015) Analysis on the effects of rotational speed of grinding stone on removal behavior of rail material. Wear, 342–343: 52–59.
- Guo, C.; Campomanes, M.; Mcintosh, D.; Becze, C.; Malkin, S. (2004) Model-based monitoring and control of continuous dress creep-feed form grinding. CIRP Annals – Annals Technology, 53(1): 263–266.
- He, Z.; Li, J.Y.; Liu, Y.M. (2017) Investigating the effects of contact pressure on rail material abrasive belt grinding performance. International Journal of Advanced Manufacturing Technology, 93(10): 1–8.
- Jourani, A.; Hagège, B.; Bouvier, S.; Bigerelle, M.; Zahouani, H. (2013) Influence of abrasive grain geometry on friction coefficient and wear rate in belt finishing. Tribology International, 59: 30–37.
- Kong, W.; Tonshoff, H.K.; Fromlowitz, F. (1987) Belt grinding. CIRP Annals Technology, 35(2): 484–487.
- Kwak, J.; Ha, M.K. (2004) Detection of dressing time using the grinding force signal based on the discrete wavelet decomposition. The International Journal of Advanced Manufacturing Technology, 22(1): 87–92.
- Liu, Y.M.; He, Z.; Wang, R.Q.; Li, J. (2017) Experimental investigation on grinding behavior of abrasive belt for rail specimen. Journal of Basic Science and Engineering, 25(2): 419–426.
- Malkin, S.; Cook, N.H. (1971) The wear of grinding wheels. Journal of Engineering for Industry, 93(4): 1129.
- Mezghani, S.; Sura, E.; El Mansori, M. (2008) The effect of belt finishing process variables on the topography of finished surfaces. Tribology Transactions, 51(4): 413–421.
- Oliveira, J.F.G.; Valente, C.M.O. (2004) Fast grinding process control with AE modulated power signals. CIRP Annals – AnnalsTechnology, 53(1): 267–270.
- Pandiyan, V.; Caesarendra, W.; Tjahjowidodo, T.; Praveen, G. (2017) Predictive modelling and analysis of process parameters on material removal characteristics in abrasive belt grinding process. Applied Sciences, 7(4): 363–379.
- Satoh, Y.; Iwafuchi, K. (2008) Effect of rail grinding on rolling contact fatigue in railway rail used in conventional line in Japan. Wear, 265(9–10): 1342–1348.
- Serpin, K.; Mezghani, S.; Mansori, M. (2015) Wear study of structured coated belts in advanced abrasive belt finishing. Surface and Coatings Technology, 284: 365–376.
- Uhlmann, E.; Lypovka, P.; Hochschild, L.; et al. (2016) Influence of rail grinding process parameters on rail surface roughness and surface layer hardness. Wear. 366–367, 287–293.
- Wang, W.X.; Li, J.Y.; Fan, W.G.; He, Z. (2017) Abrasion process modeling of abrasive belt grinding in rail maintenance. Journal of Southwest Jiaotong University, 52(1): 141–147.
- Wang, W.; Li, J.; Fan, W.; Song, X.; Wang, L. (2017) Characteristic quantitative evaluation and stochastic modeling of surface topography for zirconia alumina abrasive belt. The International Journal of Advanced Manufacturing Technology, 89(9–12): 3059–3069.
- Warkentin, A.; Bauer, R. (2003) Analysis of wheel wear using force data in surface grinding. Transactions of the Canadian Society for Mechanical Engineering, 27(3): 193–204.
- Xiao, G.; Huang, Y. (2016) Equivalent self-adaptive belt grinding for the real-R edge of an aero-engine precision-forged blade. The International Journal of Advanced Manufacturing Technology, 83(9–12): 1697–1706.
- Yonetsu, S.; Inasaki, I.; Shibata, J.; Kurosaki, T. (1974) Wear process and grinding performance of coated abrasive belts: studies on the grinding process of coated abrasive belts. Journal of the Japan Society for Precision Engineering, 40(470): 221–226.
- Zarembski, A.M. (2005) The Art and Science of Rail Grinding Inc. Omaha, Nebraska: Simmons-Boardman Books Inc.