[1. Zhang, Q.; Fu, Y, F.; Hu, N., (2013). Study of dynamic characteristic of mining V-lock chain ring under impact load caused by stuck chain. Journal of Hefei University of Technology (Natural Science), 36, 401-404.]Search in Google Scholar
[2. Shiuh-Chuan, (2000). Fracture analysis of inter facial crack by global-local finite element. International Journal of Fracture, 2, 177-193.]Search in Google Scholar
[3. Zhang, Q.; Fu, Y, F.; (2012). Critical damage of high strength ring chain under temperature/ me-chanical loads. Materials Review, 26, 163-170.]Search in Google Scholar
[4. Mao, J.;Cao, Y, L.; Jiang, G, Q., (2000). Analyzing the strength and optimizing the structure of the link chain. Machine Design and Research, 21, 65-68.]Search in Google Scholar
[5. Zhang, Y, B.;Guo, W.;Gao, Y, P., (2011). Application and development of chain connector. Coal Mine Machinery, 32, 3-5.]Search in Google Scholar
[6. Zhang, Q.; Fu, Y, F.; (2013). Reliability-based ro-bust design for kinematic accuracy of the plow plane chain mesh with arbitrary distribution param-eters base on NSGA-II algorithm. Journal of China Coal Society, 38, 505-511.]Search in Google Scholar
[7. Ren, C, Y.;Zhao, C., (2010). Structure Analysis based on flat type connector units of scraper conveyor. Journal of Machine Design, 27, 74-76.]Search in Google Scholar
[8. Zhang, Q.; Li, S., (2012). Topological optimization of pick structure based on LS-DYNA. Disaster Ad-vances, 5(4), 187-193.]Search in Google Scholar
[9. Yang, S, C.; Wang, G, Q;Zhang, Y, B., (2012). Finite element analysis and design for connecting ring of scraper conveyor. Coal Mine Machinery, 33, 105-107.]Search in Google Scholar
[10. Zhang, Q.; Fu, Y, F.; Hu, N., (2014). Dynamic simulation of scraper chain system reliability and selection of optimum maintenance period. Machine Design & Research, 30(2), 148-153.]Search in Google Scholar
[11. Kang, X, M.; Li, G, Q., (2009). Single-degree of freedom dynamic model of coal plough and its simulation. Journal of Vibration and Shock, 28, 191-195.]Search in Google Scholar
[12. Zhang, Q.; Wang H, J.; Fu, Y, F.; Gong, J., (2015).Mechanical property and fatigue life prediction of sprocket in scraper conveyor. Journal of Mechanical Strength, 37(2), 328-336.]Search in Google Scholar
[13. Li, X, H.; Liu, X.;Jiao, L., (2010). Dynamic simulation of sliding coal plow under different working conditions. Journal of China Coal Society, 35, 1202-1206.]Search in Google Scholar
[14. Kang, X, M.; Li, G, Q., (2010). Prediction of fatigue life of coal plow chain under stochastic dynamic load. Journal of China Coal Society, 35, 503-508.]Search in Google Scholar
[15. Ramaswamy S.N.; Nampoothiri N.V.N.; Sckar T., (2013). Mitigation of accidental disasters in fire-works industries -construction management approach. Disaster Advances, 6, 41-50.]Search in Google Scholar
[16. Wei, G., (2013). Numerical analysis of DOT shield 45° crossing the masonry structure buildings. Disaster Advances, 6, 20-25.]Search in Google Scholar
[17. Zhang, Q.; Fu, Y, F., Nie, G, Q., (2013). Study of mechanical properties of V-lock chain ring under dynamic load. Journal of machine design, 30, 13-16.]Search in Google Scholar
[18. Wu W.F.; Ni C.C., (2004). Probabilistic models of fatigue crack propagation and their experimental verification. Probabilistic Engineering Mechanics, 19, 247-257.]Search in Google Scholar
[19. Zhang, Q.; Xu, M, J., (2014). Study on fatigue life of plow bit under different planning parameters. Strength of Materials, 46(2), 262-269. 10.1007/s11223-014-9545-7]Search in Google Scholar
