Bubble transfiguration and moving condition in different channels

[1] Berglund L A, Varna J, Joffe R. Effect of voids on failure mechanisms in RTM laminates[J]. Composites Science and Technology, 1995, 53(2):241~249 [2] Boey F Y C, Lye S W. void reduction in autoclave processing of thermo-set composites. part1:void reduction in microwave curing process[J]. Composites, 1992,23(4):266~270 [3] Harber B D, Stab G H. Note on the effects of voids upon the hygral and echanical properties of AS4/3502 graphite epoxy[J]. Journal of Composites Material, 1987,21(3):280~288 [4] Michael R W, Tom R, Nigel G. Reduction in interlaminar shear strength by discrete and distributed voids[J]. Composites Science and Technology,1996,56(1):93~101 [5] Hu Jinlian, Liu Yi, Shao Xueming. Study on void formation in multi-layer woven fabrics[J]. Composites Part A:Applied Science and Manufacturing, 2004, 35(5):595~603 [6] Wood J R, Bader M G. Void control for polymer-matrix composites (1):theoretical and experimental methods for determining the growth and collapse of gas bubbles[J]. Composites Manufacturing,1994,5(3):139~147 [7] Chen Y T, Davis H T, Macosko W. Wetting of fiber mat for composites manufacturig Ⅱ:air entrapment model[J]. AICHE Journal, 1995, 41(10):2273~2281 [8] 刘应中,缪国平. 高等流体力学[M]. 上海:上海交通大学出版社,2000 Liu Yingzhong, Miao Guoping. Advanced fluid mechanics[M]. Shanghai:Shanghai Jiao Tong University Press, 2000(in Chinese) [9] Tang Jianmao, Lee W I, Springer G S. Effects of pressure on resin flow, voids and mechanical properties[J]. Journal of Composite Materials, 1987, 21(5):421~440