深海自升式海洋平台管结构碰撞性能任务书(2)
[5] Ma X, Stronge WJ。 Spherical missile impact and perforation of filled steel tubes。 International Journal of Impact Engineering 1985;3(1):1–16。
[6] Stronge WJ。 Impact on metal tubes: indentation and perforation。 In: Jones N, Wierzbicki T, editors。 Structural crashworthiness and failure。 London and New York: Elsevier Applied Science; 1993。 p。 165–88。
[7] Chen K, Shen WQ。 Further experimental study on the failure of fully clamped steel pipes。 International Journal of Impact Engineering 1998;21(3):177–202。
[8] Palmer A, Neilson A, Sivadasan S。 Pipe perforation by medium-velocity impact。 International Journal of Impact Engineering 2006;32(7):1145–57。
[9] Nishida M, Tanaka K。 Experimental study of perforation and cracking of waterfilled aluminium tubes impacted by steel spheres。 International Journal of Impact Engineering 2006;32(12):2000–16。
[10] Neilson AJ, Howe WD, Garton GP。 Impact resistance of mild steel tubes: an experimental study, UK Atomic Energy Authority Report AEEW-R 2125, Winfrith; June 1987。
[11] Palmer A, Touhey M, Holder S, Anderson M, Booth S。 Full-scale impact tests on pipelines。 International Journal of Impact Engineering 2006;32(8):1267–83。
[12] Jones N, Birch SE, Birch RS, Zhu L, Brown M。 An experimental study on the lateral impact of fully clamped mild steel pipes。 Proceedings of the Institution of Mechanical Engineers 1992;206(E):111–27。
其他参考资料(包括课题组仿真教程)提供电子文件
上一篇:磁性微生物复合材料的制备任务书