The influence of nanometer calcium carbonate (Nano-CaCO_3) content on the tensile properties of glass fiber-reinforced polyphenylene sulfide/polycarbonate (PPS/PC/ GF) composites were investigated.
It investigated the influencing effects of the content of nanometer calcium carbonate content(Nano-CaCO_3) on the impact and bending properties of glass fiber-reinforced polyphenylene sulfide and polycarbonate(PPS/PC/GF) composites.
The paper describes the recent advance in the research of polyphenylene sulfide blended fiber,and makes analysis on the effect on the properties of fiber from the structure and morphology of PPS/ETFE,PPS/PA,PPS/PET,PPS/PPSK,PPS/EBA blends in detail. Moreover,the future development of blends modification of PPS fiber was expected.
The mechanical properties of polyphenylene sulfide(PPS)/ polycarbonate(PC) binary blends were measured,and the influence of PC content and compatibilizer on the blending systems of PPS/PC/EP was investigated.
The conditions of the polyphenylene sulfide non-woven surface graft reaction could be optimized by the following processing conditions: 120s of plasma treatment time, 50W of plasma power, 1.5cm of space between electrodes, 30%(w/w) of monomer concentration, 50 °C of temperature of graft polymerization.
A coatings containing polytetrafluoroethylene(PTFE) was prepared with polyphenylene sulfide (PPS) and polyimide (PI) as adhesive which were mixed with PTFE in a suitable solvent.
The effect of ion implantation on the polymers PAN (polyacrylonitrile), PPO (poly 2,6-dimethylphenylene oxide) and PPS (p-polyphenylene sulfide) is studied using electron spin resonance.
Para(polyphenylene sulfide) may be doped spontaneously and rapidly with nitrosyl salts (NOPF6, NOSbF6) from solution to yield an electrically conducting material (10-1ohm-1cm-1).
The tribological behavior of polyphenylene sulfide (PPS) composites filled with micro and nano CuO particles in water-lubricated sliding condition were studied.
The thermal, dynamic mechanical, and tribological properties of polyphenylene sulfide (PPS) composites reinforced with carbon nanofiber (CNF) were studied.
By the use of DTA and TBA, we observed Tgg, Tg, Tc, Tm and the relative rigidity of p-polyphenylene sulfide. And, by the application of TG, DTG and DSC, the kinetics of degradation courses of PPS in air were studied. It showed that the initial degradation temperature of PPS was about 400℃ (β = 1℃/min); the process of its degradation can be divided into two stages: in the first stage, the active material of degradation is the linear segment of the polymer chain in PPS structure; but in the second...
Three arylene sulfide polymers—polyphenylene sulfide, poly-oxybiphenylene sulfide and polychlorophenylene sulfide were prepared by Friedel-Crafts reactions.
Using fast electron beam and 60Co y-ray, we have studied the radiation effect on polyphenylene sulfide the solubility, thermal property, crystallinity and structure change of the specimens during irradiations have been determined. It is shown that the crosslinking and degradation in PPS are simultaneously occured under the action of vadjation, The data calculated with the experimental results are as follows;Gx = 0.015, Gx = 0.050 in vacum; GS.0.067. GS=0.15 in atmosphere. The existence of oxygen...
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