Artiklar med krav på offentlig åtkomst - Arnab ChandaLäs mer
Inte tillgängliga någonstans: 4
Computational modeling of wound suture: a review
A Chanda, T Ruchti, V Unnikrishnan
IEEE reviews in biomedical engineering 11, 165-176, 2018
Krav: US National Science Foundation
Frictional assessment of low-cost shoes in worn conditions across workplaces
S Gupta, S Chatterjee, A Malviya, A Chanda
Journal of Bio-and Tribo-Corrosion 9 (1), 23, 2023
Krav: Department of Science & Technology, India
Effect of shoe outsole wear on friction during dry and wet slips: a multiscale experimental and computational study
S Gupta, S Chatterjee, A Malviya, A Kundu, A Chanda
Multiscale Science and Engineering 5 (1), 62-76, 2023
Krav: Department of Science & Technology, India
Differences in friction performance between new and worn shoes
A Cook, S Hemler, V Sundaram, A Chanda, K Beschorner
IISE transactions on occupational ergonomics and human factors 8 (4), 209-214, 2020
Krav: US National Institutes of Health
Tillgängliga någonstans: 13
Worn region size of shoe outsole impacts human slips: Testing a mechanistic model
VH Sundaram, SL Hemler, A Chanda, JM Haight, MS Redfern, ...
Journal of biomechanics 105, 109797, 2020
Krav: US National Science Foundation, US National Institutes of Health
Generalizability of footwear traction performance across flooring and contaminant conditions
A Chanda, TG Jones, KE Beschorner
IISE transactions on occupational ergonomics and human factors 6 (2), 98-108, 2018
Krav: US National Institutes of Health
An observational ergonomic tool for assessing the worn condition of slip-resistant shoes
KE Beschorner, JL Siegel, SL Hemler, VH Sundaram, A Chanda, A Iraqi, ...
Applied ergonomics 88, 103140, 2020
Krav: US National Science Foundation, US National Institutes of Health
Influence of vertically treaded outsoles on interfacial fluid pressure, mass flow rate, and shoe–floor traction during slips
S Gupta, S Chatterjee, A Chanda
Fluids 8 (3), 82, 2023
Krav: Department of Science & Technology, India
Development of a portable device for surface traction characterization at the shoe–floor interface
S Gupta, A Malviya, S Chatterjee, A Chanda
Surfaces 5 (4), 504-520, 2022
Krav: Department of Science & Technology, India
Effect of floor coatings on slip-resistance of safety shoes
S Gupta, SS Sidhu, S Chatterjee, A Malviya, G Singh, A Chanda
Coatings 12 (10), 1455, 2022
Krav: Department of Science & Technology, India
A novel computational model for traction performance characterization of footwear outsoles with horizontal tread channels
S Gupta, S Chatterjee, A Malviya, G Singh, A Chanda
Computation 11 (2), 23, 2023
Krav: Department of Science & Technology, India
Biofidelic conductive soft tissue surrogates
A Chanda, V Unnikrishnan, K Lackey, J Robbins
International Journal of Polymeric Materials and Polymeric Biomaterials, 2020
Krav: US National Aeronautics and Space Administration
Vinyl composite tile surrogate for mechanical slip testing
A Chanda, A Reuter, KE Beschorner
IISE transactions on occupational ergonomics and human factors 7 (2), 132-141, 2019
Krav: US National Institutes of Health
Biofidelic conductive synthetic skin composites
A Chanda
OSF, 2017
Krav: US National Aeronautics and Space Administration
Validating the ability of a portable shoe-floor friction testing device, NextSTEPS, to predict human slips
KE Beschorner, A Chanda, BE Moyer, A Reasinger, SC Griffin, ...
Applied ergonomics 106, 103854, 2023
Krav: US National Institutes of Health
Anisotropic soft composite based hyperelastic model
A Chanda
OSF, 2018
Krav: US National Aeronautics and Space Administration
Effect of Floor Coatings on Slip-Resistance of Safety Shoes. Coatings 2022, 12, 1455
S Gupta, SS Sidhu, S Chatterjee, A Malviya, G Singh, A Chanda
s Note: MDPI stays neutral with regard to jurisdictional claims in published …, 2022
Krav: Department of Science & Technology, India
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