Dr. Ajaya Kumar Behera
Dr. Ajaya Kumar Behera
Utkal University
Verified email at utkaluniversity.ac.in
Cited by
Cited by
Fabrication and characterizations of biodegradable jute reinforced soy based green composites
AK Behera, S Avancha, RK Basak, R Sen, B Adhikari
Carbohydrate polymers 88 (1), 329-335, 2012
Effect of nanoclay on physical, mechanical, and microbial degradation of jute‐reinforced, soy milk‐based nano‐biocomposites
AK Behera, S Avancha, S Manna, R Sen, B Adhikari
Polymer Engineering & Science 54 (2), 345-354, 2014
Development and characterization of nanoclay-modified soy resin-based jute composite as an eco-friendly/green product
AK Behera, S Avancha, R Sen, B Adhikari
Polymer-Plastics Technology and Engineering 52 (8), 833-840, 2013
Physical and mechanical characterization of jute reinforced soy composites
S Avancha, AK Behera, R Sen, B Adhikari
Journal of Reinforced Plastics and Composites 32 (18), 1380-1390, 2013
Facile functionalization of boron Nitride (BN) for the development of high-performance asymmetric supercapacitors
GN Chandan Maity, Sumanta Sahoo, Kartikey Verma, Ajaya K. Behera
New Journal of Chemistry, 2020
Development and characterization of plasticized starch‐based biocomposites with soy pulp as reinforcement filler
AK Behera, S Avancha, R Sen, B Adhikari
Journal of applied polymer science 127 (6), 4681-4687, 2013
Optimization for the chemical synthesis of conducting poly (m-aminophenol) in HCl using ammonium persulfate
P Kar, AK Behera, B Adhikari, NC Pradhan
High Performance Polymers 22 (4), 428-441, 2010
Mechanical and biodegradation analysis of thermoplastic starch reinforced nano-biocomposites
AK Behera
IOP Conference Series: Materials Science and Engineering 410 (1), 012001, 2018
Synthesis of processable conducting poly (m-aminophenol) having structure like keto derivative of polyaniline
AK Behera, B Adhikari, P Kar
Polymer Science Series B 57 (2), 159-166, 2015
Doping of the Processable Conducting Poly(m-Aminophenol) with Inorganic Acids
P Kar, AK Behera, NC Pradhan, B Adhikari
Journal of Macromolecular Science, Part B 50 (9), 1822-1833, 2011
Assessment of soil and fungal degradability of thermoplastic starch reinforced natural fiber composite
AK Behera, C Mohanty, SK Pradhan, N Das
Journal of Polymers and the Environment 29 (4), 1031-1039, 2021
A study on efficient microbial biodegradation of cellulose based jute composite
A Dey, P Jali, AK Behera, AB Das, C Pradhan
Polymer Composites 41 (4), 1428-1434, 2020
Accelerated weathering analysis of jute reinforced cashewnut shell liquid modified soy based green composite
S Avancha, AK Behera, R Sen, B Adhikari
SPE Polymers 1 (2), 81-89, 2020
Lignocellulosic Fiber Reinforced Soy Composite: An Alternative to Plastic Product
AK Behera
Ajaya Kumar Behera. Appl Sc & Adv Mat Int 1, 160-164, 2015
Jute Reinforced Nano-Biocomposite for Structural and Industrial Applications
AK Behera, B Adhikari
Applied Science and Advanced Materials International, 11, 2014
Environment-friendly Fully Biodegradable Jute-Poly (vinyl Alcohol) Modified Soy Composite Development as Plastic Substitute
AK Behera, R Sen, B Adhikari
Journal of Natural Fibers, 1-10, 2020
Development and Characterization of Biodegradable Jute reinforced Sapling Pot
AK Behera, C Mohanty, A Mohanty
Journal of Natural Fibers, 1-12, 2021
Effect of Soy Waste/Cellulose on Mechanical, Water Sorption, and Biodegradation Properties of Thermoplastic Starch Composites
AK Behera, S Manna, N Das
Starch‐Stärke, 2100123, 2021
Synthetic glass and jute fabric reinforced soy-based biocomposites: Development and characterization
AK Behera, C Mohanty, N Das
Polymers and Polymer Composites, 09673911211020609, 2021
Mechanical and biodegradation analysis of fully biodegradable eco‐friendly natural fiber reinforced sapling pot
AK Behera, S Avancha, N Das, B Adhikari
Polymer Composites 42 (6), 2910-2919, 2021
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