Yingxia Han scite author profile

Yingxia Han

2Publications

1Citation Statement Received

78Citation Statements Given

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Qingdao University of Science and Technology

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Thermal aging, physico‐mechanical, dynamic mechanical properties of chlorinated polyethylene/red mud composites

et al. 2020

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Industrial waste red mud (RM) was filled in the chlorinated polyethylene rubber (CPE) to replace carbon black (CB) at various ratios, that is, RM/CB (40/20, 20/40, 10/50, 5/55, 0/60) in the production of CPE/RM composite materials. The mechanical and thermal properties of CPE/RM with varied proportion of RM and CB were studied. The tensile strength of the CPE/RM/CB composite were improved compare to without RM (ie, improved from 10 to 14 MPa) and thermal degradation temperature (T d2) has improved from 435 C to 445 C, when the content of red mud was 20 phr. After aging for 3 days, the hardness and tensile strength of CPE/RM/CB composites were improved, that is, increment in hardness by 10 shore A and tensile strength by 2 MPa. CPE shows good thermal stability (with T d2 = 445 C) with the increment of RM and CB proportion, noticeably, when the ratio of red mud/carbon black is 20/40. The analysis by RPA (Rubber Process Analyzer) showed Payne effect became apparent when the amount of red mud was more than 20 phr. The compound with 60 phr CB load showed the largest elastic modulus G 0 which decreased fastest at strain 0.28%, almost as the same as 40/20 CB/RM, but the elastic modulus G 0 of 40/20 CB/RM showed a slight decrease when the strain exceeded 65%. The overall properties of the composite filled with 20 phr red mud were better in comparison with other varied ratios. The developed composite can be used to manufacture plastic runway or rubber hose.

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Fabrication of Open‐Cell Microcellular Acrylonitrile Butadiene Styrene Composite Foams with Enhanced Electrical Conductivity and High‐Performance Electromagnetic Interference Shielding

Han

Zhang

et al. 2021

Adv Eng Mater

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Porous materials are becoming progressively more popular because of their potential applications in the fields of oilÀwater separation, drug delivery, gas adsorption, and chemical sensing. Herein, acrylonitrile butadiene styrene (ABS) porous materials by the etching method and supercritical CO 2 (SC-CO 2 ) foaming after the etching method are proposed. On this basis, ABS porous conductive composites are prepared by adding conductive carbon black (CCB). The results show that as the content of poly (ethylene oxide) (PEO) in the blend increases to 50 phr, the ABS materials prepared by SC-CO 2 foaming after the etching method all become open-cell structures. When the content of CCB reaches 6%, the conductivity of ABS porous materials prepared by the etching method is 2.56 Sm À1 ; after etching, the conductivity of ABS porous materials prepared by SC-CO 2 foaming can reach 15 Sm À1 and electromagnetic shielding can reach 23 dB. When the content of CCB is greater than 6%, the conductivity is significantly improved. The conductivity of the ABS open-pore materials prepared by the two methods can reach 15 Sm À1 , and the maximum electromagnetic shielding can reach 33 dB. The developed foam has a great potential in electronics and electromagnetic interference (EMI) shielding application.

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Yingxia Han

Thermal aging, physico‐mechanical, dynamic mechanical properties of chlorinated polyethylene/red mud composites

Fabrication of Open‐Cell Microcellular Acrylonitrile Butadiene Styrene Composite Foams with Enhanced Electrical Conductivity and High‐Performance Electromagnetic Interference Shielding

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