Composites get greener AN Netravali, S Chabba Materials today 4 (6), 22-29, 2003 | 848 | 2003 |
Interfacial and mechanical properties of environment-friendly “green” composites made from pineapple fibers and poly (hydroxybutyrate-co-valerate) resin S Luo, AN Netravali Journal of materials science 34, 3709-3719, 1999 | 441 | 1999 |
Mechanical and thermal properties of environment‐friendly “green” composites made from pineapple leaf fibers and poly (hydroxybutyrate‐co‐valerate) resin S Luo, AN Netravali Polymer composites 20 (3), 367-378, 1999 | 369 | 1999 |
Interfacial shear strength studies using the single‐filament‐composite test. I: Experiments on graphite fibers in epoxy AN Netravali, RB Henstenburg, SL Phoenix, P Schwartz Polymer composites 10 (4), 226-241, 1989 | 366 | 1989 |
Shear strength characteristics of sand-polymer interfaces TD O'rourke, SJ Druschel, AN Netravali Journal of geotechnical engineering 116 (3), 451-469, 1990 | 315 | 1990 |
Mercerization of sisal fibers: effect of tension on mechanical properties of sisal fiber and fiber-reinforced composites JT Kim, AN Netravali Composites Part A: Applied science and manufacturing 41 (9), 1245-1252, 2010 | 312 | 2010 |
Thermal and mechanical properties of environment-friendly ‘green’plastics from stearic acid modified-soy protein isolate P Lodha, AN Netravali Industrial crops and products 21 (1), 49-64, 2005 | 261 | 2005 |
Characterization of interfacial and mechanical properties of “green” composites with soy protein isolate and ramie fiber P Lodha, AN Netravali Journal of materials science 37, 3657-3665, 2002 | 241 | 2002 |
Biodegradable green composites made using bamboo micro/nano-fibrils and chemically modified soy protein resin X Huang, A Netravali Composites Science and Technology 69 (7-8), 1009-1015, 2009 | 236 | 2009 |
Characterization of stearic acid modified soy protein isolate resin and ramie fiber reinforced ‘green’composites P Lodha, AN Netravali Composites Science and Technology 65 (7-8), 1211-1225, 2005 | 212 | 2005 |
Characterization of flax fiber reinforced soy protein resin based green composites modified with nano-clay particles X Huang, A Netravali Composites Science and Technology 67 (10), 2005-2014, 2007 | 211 | 2007 |
Fabrication and characterization of biodegradable composites based on microfibrillated cellulose and polyvinyl alcohol K Qiu, AN Netravali Composites Science and Technology 72 (13), 1588-1594, 2012 | 195 | 2012 |
A review of fabrication and applications of bacterial cellulose based nanocomposites K Qiu, AN Netravali Polymer Reviews 54 (4), 598-626, 2014 | 184 | 2014 |
‘Green’composites using cross-linked soy flour and flax yarns S Chabba, GF Matthews, AN Netravali Green Chemistry 7 (8), 576-581, 2005 | 166 | 2005 |
Surface modification of UHSPE fibers through allylamine plasma deposition. II. Effect on fiber and fiber/epoxy interface ZF Li, AN Netravali Journal of Applied Polymer Science 44 (2), 333-346, 1992 | 165 | 1992 |
‘Green’crosslinking of native starches with malonic acid and their properties TG Dastidar, AN Netravali Carbohydrate polymers 90 (4), 1620-1628, 2012 | 145 | 2012 |
Green composites. I. Physical properties of ramie fibers for environment-friendly green composites S Nam, AN Netravali Fibers and Polymers 7, 372-379, 2006 | 142 | 2006 |
‘Green’composites part 1: characterization of flax fabric and glutaraldehyde modified soy protein concentrate composites S Chabba, AN Netravali Journal of materials science 40, 6263-6273, 2005 | 141 | 2005 |
Sustainable polymers AK Mohanty, F Wu, R Mincheva, M Hakkarainen, JM Raquez, ... Nature Reviews Methods Primers 2 (1), 46, 2022 | 136 | 2022 |
Surface modification of cotton fabrics using plasma technology NV Bhat, AN Netravali, AV Gore, MP Sathianarayanan, GA Arolkar, ... Textile Research Journal 81 (10), 1014-1026, 2011 | 133 | 2011 |