Ohmic heating and mechanical stability of carbon fabric/green epoxy composites after incorporation of fly ash particles
作者: Vijay Baheti , Yuanfeng Wang
DOI: 10.1016/J.MTCOMM.2020.101710
关键词:
摘要: Abstract The objective of present research was to study the Ohmic heating and mechanical stability carbon fabric/green epoxy laminated composites after incorporation 0.5, 1 3 wt % unmilled milled fly ash particles. behavior analyzed by estimating temperature response rapidity, maximum temperature, electric power efficiency from time-temperature curves when constant voltage 5 V applied for duration 120 s. filled with 0.5 showed rapid heating, high generation less consumption. Later, effect 15, 30 60 min action on structural examined DSC, SEM, tensile testing, dynamic analysis creep testing. superior viscoelastic than composites. This indicated faster heat transportation characteristics particles avoid local matrix melting around fibres during heating. marginal loss in properties found due increased agglomeration tendency under
sci-hub.st 参考文章(30)
Muhammad Zaman Khan, Vijay Baheti, Jiri Militky, Azam Ali, Martina Vikova, None, Superhydrophobicity, UV protection and oil/water separation properties of fly ash/Trimethoxy(octadecyl)silane coated cotton fabrics. Carbohydrate Polymers. ,vol. 202, pp. 571- 580 ,(2018) , 10.1016/J.CARBPOL.2018.08.145
A. Alsaadi, J. Meredith, T. Swait, J.L. Curiel-Sosa, Yu Jia, S. Hayes, Structural health monitoring for woven fabric CFRP laminates Composites Part B-engineering. ,vol. 174, pp. 107048- ,(2019) , 10.1016/J.COMPOSITESB.2019.107048
Samson Rwawiire, Blanka Tomkova, Jiri Militky, Abdul Jabbar, Bandu Madhukar Kale, Development of a biocomposite based on green epoxy polymer and natural cellulose fabric (bark cloth) for automotive instrument panel applications Composites Part B-engineering. ,vol. 81, pp. 149- 157 ,(2015) , 10.1016/J.COMPOSITESB.2015.06.021
Biplab K. Deka, Ankita Hazarika, Kyungil Kong, DoYoung Kim, Young-Bin Park, Hyung Wook Park, Interfacial resistive heating and mechanical properties of graphene oxide assisted CuO nanoparticles in woven carbon fiber/polyester composite Composites Part A-applied Science and Manufacturing. ,vol. 80, pp. 159- 170 ,(2016) , 10.1016/J.COMPOSITESA.2015.10.023
Vijay Baheti, Jiri Militky, Rajesh Mishra, B.K. Behera, Thermomechanical properties of glass fabric/epoxy composites filled with fly ash Composites Part B-engineering. ,vol. 85, pp. 268- 276 ,(2016) , 10.1016/J.COMPOSITESB.2015.09.049
Yi-Wei Lin, Po-Yuan Shih, Chih-Ming Chen, A current-induced localized heating technique for fabrication of carbon nanomaterials Journal of Alloys and Compounds. ,vol. 492, pp. 521- 524 ,(2010) , 10.1016/J.JALLCOM.2009.11.156
N. Athanasopoulos, G. Koutsoukis, D. Vlachos, V. Kostopoulos, Temperature uniformity analysis and development of open lightweight composite molds using carbon fibers as heating elements Composites Part B-engineering. ,vol. 50, pp. 279- 289 ,(2013) , 10.1016/J.COMPOSITESB.2013.02.038
Farid El-Tantawy, K Kamada, H Ohnabe, Electrical properties and stability of epoxy reinforced carbon black composites Materials Letters. ,vol. 57, pp. 242- 251 ,(2002) , 10.1016/S0167-577X(02)00774-7
R.P.P.L. Ribeiro, C.A. Grande, A.E. Rodrigues, Electrothermal performance of an activated carbon honeycomb monolith Chemical Engineering Research & Design. ,vol. 90, pp. 2013- 2022 ,(2012) , 10.1016/J.CHERD.2012.03.010
Kunmo Chu, Dong-Jin Yun, Dongouk Kim, Hyokeun Park, Sung-Hoon Park, None, Study of electric heating effects on carbon nanotube polymer composites Organic Electronics. ,vol. 15, pp. 2734- 2741 ,(2014) , 10.1016/J.ORGEL.2014.07.043