A study on environmental stress cracking in nano-SiO2-filled polycarbonate

被引:0
|
作者
Leyu Lin
Alois K. Schlarb
机构
[1] University of Kaiserslautern,Composite Engineering cCe
[2] INM—Leibniz-Institute for New Materials,Research Center OPTIMAS
[3] University of Kaiserslautern,undefined
来源
Journal of Materials Science | 2012年 / 47卷
关键词
Stress Intensity Factor; Crack Opening Displacement; Damage Area; Crack Propagation Rate; Particle Debonding;
D O I
暂无
中图分类号
学科分类号
摘要
In this study, the environmental stress cracking (ESC) resistance of nano-SiO2 particle-filled polycarbonate (PC) was investigated at room temperature by using a fracture mechanical test method. Two PC-based nanocomposites with nano-SiO2 content of 1 and 4 vol% were compounded using a twin-screw extruder. The incorporation of nanoparticles into PC leads to an improvement in ESC resistance, which increases with increased filler loading up to 4 vol%. Fractography analyses suggest that the formation of cavities/debonding and localized microdeformation of matrix induced by nanoparticles as a result of energy dissipation are responsible for the improvement of ESC resistance.
引用
收藏
页码:6614 / 6620
页数:6
相关论文
共 50 条
  • [21] The influence of sub-Tg annealing on environmental stress cracking resistance of polycarbonate
    Yan, Chenguang
    Han, Jian
    Zhang, Junli
    Zhao, Fandi
    Liu, Chuntai
    Shen, Changyu
    POLYMER TESTING, 2016, 56 : 364 - 368
  • [22] Study on the reinforcing effect of nano-SiO2 filled PTFE composites
    Han, Yi
    Zheng, Bo
    Chen, Jihong
    He, Qiang
    AIP ADVANCES, 2019, 9 (05)
  • [23] Influencing the environmental stress cracking resistance of amorphous thermoplastic parts by the example of polycarbonate and water
    Hopmann, Christian
    Borchmann, Nikolai
    Koch, Simon
    Alperstein, David
    POLYMER ENGINEERING AND SCIENCE, 2019, 59 : E361 - E366
  • [24] The effect of different processing, injection molding (IM) and fused deposition modeling (FDM), on the environmental stress cracking (ESC) behavior of filled and unfilled polycarbonate (PC)
    Huang, M. Z.
    Nomai, J.
    Schlarb, A. K.
    EXPRESS POLYMER LETTERS, 2021, 15 (03): : 194 - 202
  • [25] Mechanical properties of nano SiO2 filled gypsum particleboard
    Lei Wen
    Deng Yu-he
    Zhou Mei
    Xuan Ling
    Feng Qian
    TRANSACTIONS OF NONFERROUS METALS SOCIETY OF CHINA, 2006, 16 : S361 - S364
  • [26] Mechanical properties of nano SiO2 filled gypsum particleboard
    雷文
    邓玉和
    周梅
    宣玲
    冯谦
    TransactionsofNonferrousMetalsSocietyofChina, 2006, (S1) : 361 - 364
  • [27] Mechanical and optical properties of polyethylene filled with nano-SiO2
    Hua, YQ
    Zhang, YQ
    Wu, LB
    Huang, YQ
    Wang, GQ
    JOURNAL OF MACROMOLECULAR SCIENCE-PHYSICS, 2005, B44 (02): : 149 - 159
  • [28] Deformation characteristics of nano-SiO2 filled polypropylene composites
    Wu, CL
    Zhang, MQ
    Rong, MZ
    Lehmann, B
    Friedrich, K
    POLYMERS & POLYMER COMPOSITES, 2003, 11 (07): : 559 - 562
  • [29] Investigation of thermally stimulated charge relaxation mechanism in SiO2 filled polycarbonate nanocomposites
    Rathore, Bhupendra Singh
    Gaur, Mulayam Singh
    Singh, Kripa Shanker
    JOURNAL OF THERMAL ANALYSIS AND CALORIMETRY, 2012, 107 (02) : 675 - 680
  • [30] Investigation of thermally stimulated charge relaxation mechanism in SiO2 filled polycarbonate nanocomposites
    Bhupendra Singh Rathore
    Mulayam Singh Gaur
    Kripa Shanker Singh
    Journal of Thermal Analysis and Calorimetry, 2012, 107 : 675 - 680
12345