Zepeng Mao scite author profile

The effect of chlorinated polyethylene (CPE) on the impact toughness of acrylonitrile-styrene-acrylic (ASA) terpolymer/ styrene-acrylonitrile copolymer (SAN) binary blends (25/75, w/w) was systematically investigated at three different temperatures (230 8C, 0 8C, and 23 8C). With the addition of 60 phr CPE, the impact strength increased by 11 times at 23 8C and 10 times at 0 8C. However, the toughening effect was not obvious when the testing temperature was 230 8C. Since the glass-transition temperature (T g ) of CPE was about 218.3 8C as measured with dynamic mechanical analysis tests, the polymeric chains of CPE have been "frozen out" at 230 8C. As a result, CPE evidently cannot improve the toughness of the blend system. The morphology of impactfractured surfaces observed by scanning electron microscopy also confirmed the effect of CPE on the impact toughness of ASA/SAN binary blends. The heat distortion temperature remained almost unchanged, indicating that the improvement in toughness did not sacrifice heat resistance. Furthermore, other mechanical properties were evaluated, and the possible interactions among components of the blends were also analyzed by Fourier transform infrared spectra.

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Co-continuous phase structure formed in melt processing inducing shear bands to prevent crack propagation: Significant improvement in impact toughness of PMMA

Mao

Jiang

Zhang

et al. 2020

Polymer Testing

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Construction of a binary channel efficient cooling composites with reflective and phase-change properties

Yang

Mao

Xiang

et al. 2019

Composites Part B: Engineering

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SrTiO3 as a new solar reflective pigment on the cooling property of PMMA-ceramic composites

Mao

Yang

Jun

2019

Ceramics International

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Zepeng Mao

Synthesis and characterization of size-tunable core-shell structural polyacrylate-graft-poly(acrylonitrile-ran-styrene) (ASA) by pre-emulsion semi-continuous polymerization

Bio-inspired structure using random, three-dimensional pores in the polymeric matrix for daytime radiative cooling

Fabricating sea-island structure and co-continuous structure in PMMA/ASA and PMMA/CPE blends: Correlation between impact property and phase morphology

Surface hydrophobic modification of TiO2 and its application to preparing PMMA/TiO2 composite cool material with improved hydrophobicity and anti-icing property

Toughening effect of CPE on ASA/SAN binary blends at different temperatures

Co-continuous phase structure formed in melt processing inducing shear bands to prevent crack propagation: Significant improvement in impact toughness of PMMA

Construction of a binary channel efficient cooling composites with reflective and phase-change properties

SrTiO3 as a new solar reflective pigment on the cooling property of PMMA-ceramic composites

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