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Modification of Liquid Silicone Rubber by Octavinyl-polyhedral Oligosilsesquioxanes and Silicon Sol 被引量:1

Modification of Liquid Silicone Rubber by Octavinyl-polyhedral Oligosilsesquioxanes and Silicon Sol
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摘要 To develop an efficient and bio-compatible way to improve the thermal and mechanical properties of addition type liquid silicone rubber(LSR), a series of modified LSR samples were prepared by introducing octavinyl-polyhedral oligosilsesquioxanes(VPOSS) and high purity silicon sol singly or in combination before vulcanization. Significant correlation was found between the loading rate of VPOSS and thermal properties. However, mechanical properties were negatively correlated with VPOSS content within the range experimented, which may be ascribed to material defect caused by uneven distribution and aggregation. Furthermore, test results approved that the introducing of silicon sol indeed affected the stabilities of the polymer by restraining the material defect caused by the aggregation of POSS molecules and improving cross link density. For example, adding 10%-20% of silicon sol into VPOSS(1.0%) modified LSR will increase tear resistance by 43.9%-85.7%, elongation at break by 31.7%-57.3%, residue at 800 ℃ in N2 atmosphere by 32.0%-37.9%, residue at 650 ℃ in air atmosphere by 70.9%-91.6%, respectively. This work proves that, to incorporate VPOSS into LSR by hydrosilylation, and to use silicon sol as dispersant and reinforce filler can become an efficient way to improve the mechanical property, thermal stability and bio-compatibility of LSR in the future. To develop an efficient and bio-compatible way to improve the thermal and mechanical properties of addition type liquid silicone rubber(LSR), a series of modified LSR samples were prepared by introducing octavinyl-polyhedral oligosilsesquioxanes(VPOSS) and high purity silicon sol singly or in combination before vulcanization. Significant correlation was found between the loading rate of VPOSS and thermal properties. However, mechanical properties were negatively correlated with VPOSS content within the range experimented, which may be ascribed to material defect caused by uneven distribution and aggregation. Furthermore, test results approved that the introducing of silicon sol indeed affected the stabilities of the polymer by restraining the material defect caused by the aggregation of POSS molecules and improving cross link density. For example, adding 10%-20% of silicon sol into VPOSS(1.0%) modified LSR will increase tear resistance by 43.9%-85.7%, elongation at break by 31.7%-57.3%, residue at 800 ℃ in N2 atmosphere by 32.0%-37.9%, residue at 650 ℃ in air atmosphere by 70.9%-91.6%, respectively. This work proves that, to incorporate VPOSS into LSR by hydrosilylation, and to use silicon sol as dispersant and reinforce filler can become an efficient way to improve the mechanical property, thermal stability and bio-compatibility of LSR in the future.
出处 《Journal of Wuhan University of Technology(Materials Science)》 SCIE EI CAS 2017年第2期229-236,共8页 武汉理工大学学报(材料科学英文版)
基金 Funded by the National Natural Science Foundation of China(No.31170558)
关键词 POSS LSR silicon sol thermal stabilities mechanical properties POSS LSR silicon sol thermal stabilities mechanical properties
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  • 1Atisivan R, Bose S, Bandyopadhyay A. Porous Mullite Performs via Fused Deposition[J]. JAm. Ceram. Soc., 2001,84(1): 221-223.
  • 2Liu YF, Liu XQ, Wei H, et al. Porous Mullite Ceramics from National Clay Produced by Gel Casting[J]. Ceram.lnter., 2001,27(1): 1-7.
  • 3Miao X. Porous Mullite Ceramics from Natural Topaz[J]. Maler. Lett., 1999,38(2): 167-172.
  • 4Schneider H, Schreuer J, Hildmann B. Structure and Properties of Mullite-A Review[J]. J. Eur Ceram. Soc., 2008, 28: 329-344.
  • 5Okada K, Uchiyama S, Isobe T, et al. Capillary Rise Properties of Porous Mullite Ceramics Prepared by an Extrusion Method Using Organic Fibers as the Pore Fonner[J]. J Eur: Ceram. Soc., 2009, 29: 2491-2497.
  • 6Esharghawi A, Perrot C, Nardou F. Contribution to Porous Mullite Synthesis from Clays by Adding AI and Mg Powders[J]. J Eur. Ceram. Soc., 2009, 29: 31-38.
  • 7She JH, Ohji T. Fabrication and Characterization of Highly Porous Mullite Ceramics[J]. Mater. Chem. Phys., 2003, 80(3): 610-614.
  • 8Chen YF, Chang YH, Wang MC, et al. Effects of A 1,0, Addition on the Phases, Flow Characteristics and Morphology of the Porous Kaolin Ceramics[J]. Mater. Sci. Eng. A, 2004, 373: 221-228.
  • 9Li SJ, Li N. Effects of Composition and Temperature on Porosity and Pore Size Distribution of Porous Ceramics Prepared from AI(OH), and Kaolinite Gangue[J]. Ceram. Inter., 2007, 33(4): 551-556.
  • 10Juettner T, Moertel H, Svinka V, et al. Structure of Kaoline-Alumina Based Foam Ceramics for High Temperature Applications[J]. J Eur: Ceram. Soc., 2007,27(2-3): 1435-1441.

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