上海交通大学学报(英文版) ›› 2014, Vol. 19 ›› Issue (1): 102-109.doi: 10.1007/s12204-013-1467-1
Improving the Stab-Resistance Performance of Ultra High Molecular Weight Polyethylene Fabric Intercalated with Nano-Silica-Fluid
GU Juan1 (顾 隽), HUANG Xian-cong2 (黄献聪), LI Yan2 (李焱), WANG Xin-ling1 (王新灵),SHI Mei-wu2 (施楣梧), ZHENG Zhen1* (郑 震)
- (1. School of Chemistry and Chemical Engineering, Shanghai Jiaotong University, Shanghai 200240, China; 2. Quartermaster Institute of General Logistic Department, the Chinese People’s Liberation Army, Beijing 100010, China)
-
出版日期:2014-01-15发布日期:2014-01-15 -
通讯作者:ZHENG Zhen (郑 震) E-mail: zzheng@sjtu.edu.cn
Improving the Stab-Resistance Performance of Ultra High Molecular Weight Polyethylene Fabric Intercalated with Nano-Silica-Fluid
GU Juan1 (顾 隽), HUANG Xian-cong2 (黄献聪), LI Yan2 (李焱), WANG Xin-ling1 (王新灵),SHI Mei-wu2 (施楣梧), ZHENG Zhen1* (郑 震)
- (1. School of Chemistry and Chemical Engineering, Shanghai Jiaotong University, Shanghai 200240, China; 2. Quartermaster Institute of General Logistic Department, the Chinese People’s Liberation Army, Beijing 100010, China)
-
Online:2014-01-15Published:2014-01-15 -
Contact:ZHENG Zhen (郑 震) E-mail: zzheng@sjtu.edu.cn
摘要: High performance fibers impregnated by shear thickening fluids (STFs) have been recognized as a kind of latent stab-resistant materials. In our work, the rheological properties of various nano-silica particles in different carriers were first investigated, some of which showed the typical characteristic of shear thickening phenomena. And then, the effects of add-on and surface hydrophilicity of silica particles, the type and concentration of the carriers were discussed in detail. It was found that the systems of hydrophilic silica in ethylene glycol, butylenes glycol and polyethylene glycol (PEG) demonstrated shear thickening; moreover, the reversibility of rheological behaviors of hydrophilic silica-PEG300 suspensions indicated energy dissipation existed within a circulation of shear stress. Furthermore, the detail mechanism of STF based nano-silica particles was explored and a process diagram was presented. Finally, the stab-resistance and morphology of cutting edge of ultra high molecular weight polyethylene (UHMWPE) fabric impregnated STF composites were investigated and the results were analyzed. The higher silica add-on was benefit to the improvement of the stab resistance of the composites.
中图分类号:
引用本文
GU Juan1 (顾 隽), HUANG Xian-cong2 (黄献聪), LI Yan2 (李焱), WANG Xin-ling1 (王新灵),SHI M. Improving the Stab-Resistance Performance of Ultra High Molecular Weight Polyethylene Fabric Intercalated with Nano-Silica-Fluid[J]. 上海交通大学学报(英文版), 2014, 19(1): 102-109.
GU Juan1 (顾 隽), HUANG Xian-cong2 (黄献聪), LI Yan2 (李焱), WANG Xin-ling1 (王新灵),SHI Mei-wu2 (施楣梧), ZHENG Zhen1* (郑 震). Improving the Stab-Resistance Performance of Ultra High Molecular Weight Polyethylene Fabric Intercalated with Nano-Silica-Fluid[J]. Journal of shanghai Jiaotong University (Science), 2014, 19(1): 102-109.
使用本文
| [1] David N V, Gao X L, Zheng J Q. Ballistic resistant body armor: Contemporary and prospective materials and related protection mechanisms [J]. Applied Mechanics Reviews, 2009, 62(5): 2009-050802. [2] Sheikh A H, Bull P H, Kepler J A. Behaviour of multiple composite plates subjected to ballistic impact[J]. Composites Science and Technology, 2009, 69(6):704-710. [3] Grujicic M, He T, Marvi H, et al. A comparative investigation of the use of laminate-level meso-scale and fracture-mechanics enriched meso-scale composite-material models in ballistic resistance analyses[J]. Journal of Materials Science, 2010, 45(12):3136-3150. [4] Kalman D P, Merrill R L, Wagner N J, et al. Effect of particle hardness on the penetration behavior of fabrics intercalated with dry particles and concentrated particle — fluid suspensions [J]. ACS Applied Materials & Interfaces, 2009, 1(11): 2602-2612. [5] Hosur M V, Mayo Jr J B, Wetzel E, et al. Studies on the fabrication and stab resistance characterization of novel thermoplastic-Kevlar composites [J].Solid State Phenomena, 2008, 136: 83-92. [6] Mayo Jr J B, Wetzel E D, Hosur M V, et al.Stab and puncture characterization of thermoplasticimpregnated aramid fabrics [J]. International Journal of Impact Engineering, 2009, 36(9): 1095-1105. [7] Alpyildiz T, Rochery M, Kurbak A, et al. Stab and cut resistance of knitted structures: A comparative study [J]. Textile Research Journal, 2011, 81(2):205-214. [8] Zhang G M, Batra R C, Zheng J. Effect of frame size, frame type, and clamping pressure on the ballistic performance of soft body armor [J]. Composites Part B: Engineering, 2008, 39(3): 476-489. [9] Lin S P, Shen J H, Han J L, et al. Volume shrinkages and mechanical properties of various fiber-reinforced hydroxyethyl methacrylate-polyurethane/unsaturated polyester composites [J]. Composites Science and Technology, 2008, 68(3-4): 709-717. [10] Leish-Phoenix S, Kadir-Yavuz A K, Porwal P K. New interference approach for ballistic impact into stacked flexible composite body armor [J]. AIAA Journal, 2010, 48(2): 490-501. [11] Wagner N J, Brady J F. Shear thickening in colloidal dispersions [J]. Physics Today, 2009, 62(10): 27-32. [12] Mahfuz H, Clements F, Rangari V, et al. Enhanced stab resistance of armor composites with functionalized silica nanoparticles [J]. Journal of Applied Physics, 2009, 105(6): 2009-064307. [13] Kang T J, Hong K H, Yoo M R. Preparation and properties of fumed silica/Kevlar composite fabrics for application of stab resistant material [J]. Fibers and Polymers, 2010, 11(5): 719-724. [14] Hassan T A, Rangari V K, Jeelani S. Synthesis,processing and characterization of shear thickening fluid (STF) pregnated fabric composites [J]. Materials Science and Engineering A, 2010, 527: 2892-2899. [15] Srivastava A, Majumdar A, Butola B S. Improving the impact resistance performance of Kevlar fabrics using silica nano-particle based shear thickening fluid[J]. Materials Science and Engineering A, 2011, 529:224-229. [16] Hoffman R L. Discontinuous and dilatant viscosity behavior in concentrated suspensions. I. Observation of a flow instability [J]. Transactions of the Society of Rheology, 1972, 16(1): 155-173. [17] Farr R S, Melrose J, Ball R C. Kinetic theory of jamming in hard-sphere startup flows [J]. Physical Review E, 1997, 55(6): 7203-7211. [18] Foss D R, Brady J F. Structure, diffusion and rheology of Brownian suspensions by Stokesian dynamics simulation [J]. Journal of Fluid Mechanics, 2000, 407:167-200. [19] DeckerMJ, Halbach C J, Nam C H, et al. Stab resistance of shear thickening fluid (STF)-treated fabrics[J]. Composites Science and Technology, 2007, 67(3-4),565-578. [20] Bossis G, Brady J F. The rheology of Brownian suspensions [J]. Journal of Chemical Physics, 1989, 91(6):1866-1874. |
| [1] | WANG Xiaorong (王筱蓉), WEI Ning (韦宁), GAO Ji (高吉), YAN Jun (严俊), JIANG Genzhu (姜根柱). Evaporation Characteristics of Ethanol Diesel Droplets Containing Nanoparticles[J]. J Shanghai Jiaotong Univ Sci, 2021, 26(2): 201-209. |
| [2] | ZHOU Xuhui (周旭辉), ZHANG Wenguang (张文光), XIE Jie (谢颉). Effects of Micro-Milling and Laser Engraving on Processing Quality and Implantation Mechanics of PEG-Dexamethasone Coated Neural Probe[J]. J Shanghai Jiaotong Univ Sci, 2021, 26(1): 1-9. |
| [3] | KOU Haixia, AN Zongwen, MA Qiang, GUO Xu. Lifetime Prediction of Wind Turbine Blade Based on Full-Scale Fatigue Testing [J]. J Shanghai Jiaotong Univ Sci, 2020, 25(6): 755-761. |
| [4] | YANG Chunyu (杨春雨), CHE Zhiyuan (车志远), ZHOU Linna (周林娜) . Composite Feedforward Compensation for Force Ripple in Permanent Magnet Linear Synchronous Motors[J]. Journal of Shanghai Jiao Tong University (Science), 2019, 24(6): 782-788. |
| [5] | SHEN Kechun (沈克纯), PAN Guang *(潘光). Buckling Optimization of Composite Cylinders for Underwater Vehicle Applications Under Tsai-Wu Failure Criterion Constraint[J]. Journal of Shanghai Jiao Tong University (Science), 2019, 24(4): 534-544. |
| [6] | WANG Junzhen (王军振), SHEN Yanfeng* (申岩峰). Numerical Investigation of Ultrasonic Guided Wave Dynamics in Piezoelectric Composite Plates for Establishing Structural Self-Sensing[J]. sa, 2018, 23(1): 175-181. |
| [7] | ZHANG Bin1,2* (张斌), YU Xiaoming1 (宇晓明), GU Boqin3 (顾伯勤). A Generalized Self-Consistent Model for Interfacial Debonding Behavior of Fiber Reinforced Rubber Matrix Sealing Composites[J]. 上海交通大学学报(英文版), 2017, 22(3): 343-348. |
| [8] | WANG Li-ping (王莉萍), WANG Jin-ye* (王瑾晔). Skin Penetration of Inorganic and Metallic Nanoparticles[J]. 上海交通大学学报(英文版), 2014, 19(6): 691-697. |
| [9] | XIONG Min (熊敏), YE Jian*(叶坚). Reproducibility in Surface-Enhanced Raman Spectroscopy[J]. 上海交通大学学报(英文版), 2014, 19(6): 681-690. |
| [10] | HUANG Qian-wei (黄芊蔚), WANG Li-ping (王莉萍), WANG Jin-ye* (王瑾晔). Mechanical Properties of Artificial Materials for Bone Repair[J]. 上海交通大学学报(英文版), 2014, 19(6): 675-680. |
| [11] | NIU Fu-jun1,3 (牛富俊), SUN Hong2* (孙 红), GE Xiu-run2 (葛修润), ZHANG Jin-zhao3 (章金钊). Temperature Adjustment Mechanism of Composite Embankment with Perforated Ventilation Pipe and Blocky Stone[J]. 上海交通大学学报(英文版), 2013, 18(6): 729-732. |
| [12] | QIU Ye (邱野), WANG Quan-bao (王全保), ZHAO Hai-tao* (赵海涛), CHEN Ji-an (陈吉安), WANG Yu. Review on Composite Structural Health Monitoring Based on Fiber Bragg Grating Sensing Principle[J]. 上海交通大学学报(英文版), 2013, 18(2): 129-139. |
| [13] | LIU Guang-zhen1,2* (刘光臻), MA Jun-ping1,2 (马俊平), LIU Jia-qiang3 (刘家强). Photothermal Effect for Fe3O4 Nanoparticles Contained in Micelles Induced by Near-Infrared Light[J]. 上海交通大学学报(英文版), 2012, 17(6): 730-733. |
| [14] | WANG Gui-songa,b* (王桂松), LUO Yanga (罗阳), LIU Bao-xia (刘宝玺),YIN Chenga (尹成), GENG. Effect of Gr Content and Hot Extrusion on Tensile Properties of (Nano-SiCp+Gr)/Cu Composites Fabricated by Powder Metallurgy[J]. 上海交通大学学报(英文版), 2012, 17(6): 658-662. |
| [15] | DUAN Jing-kuan1* (段景宽), FAN Chang-xiu1,2 (范常秀), LI Ya1 (李亚), JIANG Lan1 (蒋岚), SH. Preparation and Characterization of the Covalent-Integrated Poly(lactic acid) and Scrap Leather Fiber Composites[J]. 上海交通大学学报(英文版), 2012, 17(5): 586-592. |
| 阅读次数 | ||||||
|
全文 |
|
|||||
|
摘要 |
|
|||||