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- 저자 : Taijun Jiang (검색결과 5 건)
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An Online Extrusion-compression Molding Method to Produce Wood Plastic Composite Packaging Boxes
Taijun Jiang,Guangsheng Zeng 한국섬유공학회 2019 Fibers and polymers Vol.20 No.4
Wood plastic composites are widely used to manufacture profiles by extrusion but rarely applied to makeproducts by injection or compression for its poor flowability. Wood plastic composite packaging boxes were manufacturedby both self-designed online extrusion-compression and traditional injection molding methods with different formula. Themechanical properties, buckling deformation, production capacity and final passed yield of packaging boxes and energyconsumption was investigated with the two different methods. We find that the filling of bamboo fiber into polyolefinsimproves tensile strength but brings down impact strength in both processing method. However, for online extrusioncompressionmolding we can obtain a better tensile and impact strength. With the increase of bamboo fiber concentrationand decrease of HDPE/PP mass ratio the buckling deformation declines, and a smaller buckling deformation can beobtained by the online extrusion-compression molding with respect to tradition injection molding. The comparison ofenergy consumption between the two processing methods reveals that it is a cost-effective way to manufacture woodplastic products, saving about 29.81 % energy compared with traditional injection molding. Online extrusion-compressionmolding technique can be widely used to manufacture wood plastic composite products of irregular structure and largeformat.
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Taijun Jiang,Guangsheng Zeng,Can Hu,Cong Meng,Yi Chen 한국섬유공학회 2021 Fibers and polymers Vol.22 No.4
Polypropylene melt-blown fabric as the core filter materials plays an important role in manufacturing civil andmedical epidemic prevention products. The aim of this study was to optimize and control the particle filtration efficiency andapparent surface quality of the melt-blown fabric from the perspectives of electret masterbatch composition and processingparameters. Magnesium stearate and fumed silica were used as the electret to manufacture polypropylene melt-blown fabric. The layout and charge voltage of the electret device was taken as the variables to optimize and improve the particle filtrationefficiency and bulkiness coefficient of the fabric. The temperature of the barrel and die was controlled to enhance the surfacequality and corresponding particle filtration efficiency. The results showed that a combination of organic magnesium stearateand inorganic fumed silica could obtain a balance between particle filtration efficiency and smooth processing without beingjammed. Increasing the charge voltage and rearranging the position of the charge wires could significantly enhance theparticle filtration efficiency. A better particle filtration efficiency and reasonable bulkiness coefficient could be obtained bycontrolling the diameter of the filaments by regulating the temperature of the barrel and die as well as the suction intensity. The results obtained from this study can offer valuable references in optimization of electret master batch formulation andprocessing parameters for melt-blown fabric production with different resin.
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Jiang, Taijun,Jin, Shanyue,Jin, Xuehua The International Promotion Agency of Culture Tech 2021 International Journal of Advanced Culture Technolo Vol.9 No.2
Focusing on China's profound historical/cultural heritage, as well as its favorable environment for the expansion of cultural and creative industries (CCIs), this paper considers the unique attributes of Chinese museum cultural and creative products (MCCPs) from the angle of cross-border development, and summarizes the main forms and effects of cross-border innovation in relation to Chinese MCCPs. It also examines the chief problems of Chinese MCCPs' cross-border growth at three levels - the national policy system, product development, and design and marketing - to explore countermeasures and suggestions for cross-border novelties and the advancement of products.
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Taijun Jiang,Guangsheng Zeng,Can Hu 한국고분자학회 2020 Macromolecular Research Vol.28 No.5
Relaxation behavior of natural fiber reinforced polymer composites exists in both solid and molten state and profoundly affects the control and optimization of processing parameters and dimensional accuracy of final products. The aim of this study was to establish an experimental estimating method to characterize relaxation behavior of polymer composite with traditional torque rheometer and investigate the effects of fiber concentration, dimension, and processing parameters on the relaxation behavior. Relaxation time of hemp fiber reinforced polypropylene composite were obtained by fitting the experimental torque data and corelated to the buckling deformation of packaging boxes manufactured by injection with the same injection parameters. The results show that all the increasing concentration of hemp fiber, higher rotor speed, and higher temperature can significantly decrease the relaxation time and result in a stable and better dimensional accuracy of injection packaging boxes. The finer fibers with the same weight concertation can bring an obvious reduction in relaxation time and buckling deformation. The proposed method for estimating relaxation behavior of polymer composite is a feasible and cost-effective way to investigate the viscoelastic properties of polymer composites close to the real processing conditions. And it can be widely used in optimization of processing parameters and performance of polymer composite products.
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Jun Peng,Qian Wang,Jin Wang,Jun Yang,Taijun Jiang,Guangsheng Zeng 한국고분자학회 2022 Macromolecular Research Vol.30 No.11
Cardo containing phenoxy and -CF3 derivate diamine was synthesized, and further it was polymerized with 3,3',4,4'-biphenyl tetracarboxylic dianhydride to prepare polyetherimide containing Cardo group. The transmittance of the prepared polymer increased from 82% to 88% and the dielectric constant decreased from 2.91 to 2.83 with a slight decline in thermal and mechanical performance when -CF3 was introduced. The molecular simulation in terms of charge distribution, electric potential energy, chain stiffness and aggregation state revealed that -CF3 could restrain charge transfer and decrease the unit dipole moment and polarization for its larger volume. The optical and dielectric performance was significantly enhanced, but the thermal and mechanical performance decreased slightly when the -CF3 group was introduced. The glass transition temperature of the polymer declined from 329℃ to 311℃. The investigation conducted in this paper can offer valuable reference to the optimization and development of synthesis and comprehensive performance of polyimide.
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