Structural Health Monitoring of Railroad Wheels Using Wheel Impact Load Detectors
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Lee, M.L., Chiu, W.K.: A comparative study on impact force prediction on a railway track-like structure. Struct. Health Monit. 4(4), 355–376 (2005)
Gustavson, R.: Static and dynamic finite element analysis of concrete sleepers. Thesis, Chalmers University of Technology (2000)
Union Pacific Railroad, Omaha, NE. Information collected from Union Pacific Railroad laboratory database, retrieved by Brant Stratman on May 10, 2004 thru August 13, 2004 (2004)
Tanaka, T., Kinoshita, K., Nakayama, H.: Effect of loading time on high cycle range impact fatigue strength and impact fatigue crack growth. JSME Int. J. Ser. 1 35(1), 108–116 (1992)
Cheng, Y., Chen, D., Nogata, F.: Fatigue behaviour of a rail steel under low and high loading rates. Fatigue Fract. Eng. Mater. Struct. 17(1), 113–118 (1994)
Association of American Railroads: 2005 Field Manual of the AAR Interchange Rules, Rule 41, AAR, pp. 268–325 (2005)
Kalay, S., Tajaddini, A.: Condemning wheels due to impact loads: preliminary survey—six railroads experience. AAR Report R-754, February 1990
Barke, D., Chiu, W.K.: Structural health monitoring in the railway industry: A review. Struct. Health Monit. 4(1), 81–93 (2005)
Johansson, A., Nielsen, J.: Railway wheel out-of-roundness – Influence of wheel-rail contact forces and track response. 13th International Wheelset Conference, Rome, Italy (2001)
Kalay, S., Tajaddini, A., Stone, D.H.: Detecting wheel tread surface anomalies. Rail Transportation – 1992 American Society of Mechanical Engineers, New York, NY, USA, pp. 165–174 (1992)
Partington, W.: Wheel impact load monitoring. Proc. Inst. Civil Eng. Transport 100(4), 243–245 (1993)
Lonsdale, C., Pilch, J., Dedmon, S.: Stress effects of wheel impact loads. Proceedings of the 14th International Wheelset Congress, Orlando, FL, 6–12 (2004)
Bladon, K.: In: Barke, D.W. (ed.) Function of wayside wheel impact monitors, Adelaide, Australia (2003)
Tournay, H.M., Mulder, J.M.: The transition from the wear to the stress regime. Wear 191, 107–112 (1996)
Stone, D.H., Moyar, G.J.: Wheel shelling and spalling – An interpretive review. Rail Transp. ASME 19–31 (1989)
Marais, J.J.: Wheel failures on heavy haul freight wheels due to subsurface effects. Proceedings of the 12th International Wheelset Congress, Qingdao, China, pp. 306–314 (1998)
Mutton, P.J., Epp, C.J., Dudek, J.: Rolling contact fatigue in railway wheels under high axle loads. Wear 144, 139–152 (1991)
Giammarise, A.W., Gilmore, R.S.: Wheel quality: A North American locomotive builder’s perspective. GE Research & Development Center, CRD140, September 2001
Stone, D.H., Majumder, G., Bowaj, V.S.: Shattered rim wheel defects and the effect of lateral loads and brake heating on their growth, November 17–22, 2002. ASME International Mechanical Engineering Congress & Exposition, New Orleans, Louisiana, pp. 1–4 (2002)
Ekberg, A., Kabo, E., Andersson, H.: An engineering model for prediction of rolling contact fatigue of railway wheels. Fatigue Fract. Eng. Mater. Struct. 25, 899–909 (2002)
Stone, D.H.: Wheel shattered rims – An interpretive review. Wheels and Axles, Cost Effective Engineering, ImechE Seminar Publication, pp. 75–84 (2000)
Beretta, S., Roberti, A., Ghidini, A., Donzella, G.: Deep shelling in railway wheels, September 2001. Proceedings of the 13th International Wheelset Congress, Rome, Italy, paper 23 (2001)
Stone, D.H., Kalay, S.F., Lonsdale, C.P.: Effect of wheel impact loading on shattered rims, September 2001. Proceedings of the 13th International Wheelset Congress, Rome, Italy, paper 2 (2001)
Berge, S.: Shattered rim fracture research, October 19–20, 2000. Proceedings of the 2000 Brenco Rail Conference, LaQuinta, California (2000)
Stone, D.H., Geoffrey, E.D.: The effect of discontinuity size on the initiation of shattered rim defects. ASME Transp. Div. 19, 7–14 (2000)
Gordon, J., Perlman, A.B.: Estimation of residual stresses in railroad commuter car wheels following manufacture. Proc. Int. Mech. Eng. Cong. Exhibition ASME RTD 15, 13–18 (1998)