Cite the paper
Isha Pandey, D. Arthisree, A. Sivakumar, Girish M. Joshi (2017). Polymer Composites for Thermal Sensing Application. Mechanics, Materials Science & Engineering, Vol 10. doi:10.2412/mmse.2.26.724
Authors: Isha Pandey, D. Arthisree, A. Sivakumar, Girish M. Joshi
ABSTRACT. Carbon black (CCB )/ Hydroxypropyl methylcellulose (HPMC) composites were useful for the sensor applications. Easily available Carbon black was preferred for the modification of polymer moieties. Due to an excellent coloring agent, printing inks, resin coloring, paint, and toners. Further, CCB is also used in various electrical conducting agent, antistatic film, fibers and floppy disk. In the present investigation we demonstrated the successful preparation of Hydroxypropyl methylcellulose with (CCB) composites. We have observed the linear phase relation as a function of temperature for the sample 1wt% loading of CCB. The linearity of phase measurement based on temperature is useful for various engineering applications.
Keywords: hydroxypropyl methylcellulose (HPMC), conducting carbon black (CCB), phase angle, composite
 Tsuguyori ohana, Takako Nakamura, Akihiro Tanaka, Tribological properties of polymer composites with diamond-like carbon flakes, National Institute of Advanced Industrial Science and Technology, DOI 10.1016/j.diamond.2010.02.020
 I. Burmistrov, N. Gorshkov, I. Ilinykh, D. Muratov, E. Kolesnikov, S. Anshin, I. Mazov, J.-P.Issi, D. Kusnezov, Improvement of carbon black based polymer composite electrical conductivity with additions of MWCNT, DOI 10.1016/j.compscitech.2016.03.032 0266-3538
 Raquel Verdejo, M. Mar Bernal, Laura J. Romasanta and Miguel A. Lopez-Manchado, Graphene filled polymer nanocomposites, DOI 10.1039/c0jm02708a
 Michael E. Spahr, Raffaele Gilardi, Daniele Bonacchi, 2014, Carbon Black for Electrically Conducting Polymer Applications, Springer, DOI 10.1007/978-3-642-37179-0_32-1
 Suchilipsa Das, Patnala Ganga Achary, Nimai C. Nayak, Ram Narayan Prasad Choudhary,Dielectric Response of Conducting Carbon-Black-Filled Ethylene–Octene Copolymer Microcellular Foams, DOI 10.1002/pc.23538
 B.P.Sahoo, K.Naskar, R.N.P. Choudhary, S. Sabharwal, D.K. Tripathy, 2011, Dielectric Relaxation Behavior of Conducting Carbon Black Reinforced Ethylene Acrylic Elastomer Vulcanizates, DOI 10.1002/app.35049
 Dipti Phadtare, Ganesh Phadtare, Nilesh B, Mahendra Asawat, 2014, Hyprmollose-– A choice of polymer in exended release tablet formulations
 Premamoy Ghosh, Amit Chakrabarti, Conducting carbon black filled EPDM vulcanizates: assessment of dependence of physical and mechanical properties and conducting character on variation of filler loading, 1999.
 Eshwaran Subramani Bhagavatheswaran, Meenali Parsekar, Amit Das, Hai Hong Le, Sven Wiessner, Klaus Werner Stoeckelhuber, Gerd Schmaucks, and Gert Herinrich, 2015, Construction of Interconnected Nanostructured Carbon Black Network: Development of Highly Stretchable and Robust Elastomeric Conductors, DOI 10.1021/acs.jpcc.5b06629.
 J. G.Malleite and A. Uquez, Carbon Black Filled PET/PMMA Blends: Electrical and Morphological Studies, 2000.
 A.Sharma, M.Pandey, M.Khutia, GM Joshi, M. Teresa, Development of thermal sensor by graphene nano platelets thermoplastic blends, Polymer-Plstic Tech. and Engg, 2016 DOI 10.1080/03602559.2016.1233272
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