Research on the Behavior of High-Strength Hollow Glass Particle Composite under Full Ocean Depth

Abstract

Abstract: A full ocean depth simulation test was presented to study the behavior of high-strength hollow glass particle composite under full ocean depth. The paper discussed the effects of value of water pressure on the material with different densities, hollow glass microsphere and hardener on water absorption and dimensional stability of the material. The results show that the water absorption rate is obviously influenced by the value of water pressure, the water absorption rate of the material under 121 MPa is almost doubled compared with 111 MPa, and under the same pressure, the material with higher density has lower water absorption rate. The dimensional stability of the material is very good, the maximal line shrink rate is only 0.51％ under 111 and 121 MPa static water pressure.

Key words: full ocean depth, highstrength hollow glass particle composite, processable buoyancy material, water absorption rate, dimensional stability

CLC Number:

TB65

YAN Hui, GE Tong, ZHAO Min, CHEN Xian, LIU Jian-Min. Research on the Behavior of High-Strength Hollow Glass Particle Composite under Full Ocean Depth[J]. Journal of Shanghai Jiaotong University, 2011, 45(09): 1332-1335.

References

［1］崔维成,徐岂南,刘涛，等. “和谐”号载人深潜器的研制［J］.舰船科学技术，2008，30(1):1725.

CUI Weicheng, XU Qinan, LIU Tao, et al. Design and construction of the deep manned submersible Harmony［J］. Ship Science and Technology，2008，30(1):1725.

［2］Bowen A D, Yoerger R, Taylor C， et al. The nereus hybrid underwater robotic vehicle for global ocean science operations to 11 000 m depth［C］// Proceedings of the 2008 IEEE Oceans Conference. Cnanda: IEEE, 2008.

［3］王啟锋，杜竹玮，陈先，等．环氧树脂基固体浮力材料的研制及表征［J］．精细化工，2005，22(3)：174176.

WANG Qifeng，DU Zhuwei，CHEN Xian，et al. Preparation and characterization of solid buoyancy materials based on epoxy resins［J］. Fine Chemicals，2005,22(3): 174176.

［4］殷建港. 高强度低密度环氧树脂复合材料研究［J］.工程塑料应用, 1994, 22(3): 710.

YIN Jiangang. Study on the high strength and low density epoxy composites ［J］. Engineering Plastics Application, 1994, 22(3): 710.

［5］程远杰，徐军，陈尔凡，等. 中空玻璃微珠填充环氧树脂复合材料［J］. 沈阳化工学院学报, 1996, 10(2): 9296.

CHENG Yuanjie， XU Jun， CHEN Erfan， et al. Study on the epoxy composite filled with hollow glassbeads ［J］. Journal of Shenyang Institute of Chemical Technology, 1996, 10(2): 9296.

［6］Cochran J K. Ceramic hollow spheres and their applications［J］. Current Opinion in Solid State and Materials Science, 1998（3）: 474479.

［7］陈先, 张树华. 新型深潜用固体浮力材料［J］.化工新型材料, 1999, 27(7): 1517.

CHEN Xian，ZHANG Shuhua. Solid buoyancy material for use in deep submergence vehicles［J］. New Chemical Materials，1999, 27(7): 1517.

［8］程鹏, 王元超. 提高浮力材料性能的研究［J］.哈尔滨船舶工程学院学报,1993, 14(4): 6469.

CHENG Peng，WANG Yuanchao. Research on improving property of buoyant material ［J］. Journal of Harbin Shipbuilding Engineering Insitute，1993, 14(4): 6469.

［9］梅启林，杜明，黄志雄，等．增强聚氨酯泡沫复合材料耐深水性能的研究［J］.武汉理工大学学报，2007，29(3)： 1215.

MEI Qilin，DU Ming，HUANG Zhixiong，et al. Research on the behavior of reinforced polyurethane foam composite under deep water［J］. Journal of Wuhan University of Technology，2007，29(3)： 1215.

[1]	CHEN Gang, QUAN Xiao-Jun, ZHENG Ping. Effect of Pulse Width and Mass Flux on Microscale Flow Boiling [J]. Journal of Shanghai Jiaotong University, 2011, 45(09): 1336-1339.
[2]	YU Ke-Zhi-1, DING Guo-Liang-2, CHEN Tian-Ji-1. A Correlation Model of Thermal Entrainment Factor for Air Curtain in Horizontal Display Cabinet [J]. Journal of Shanghai Jiaotong University, 2011, 45(09): 1384-1388.