Vincent Sobotka
Vincent Sobotka
Laboratoire de Thermocinétique de Nantes - Université de Nantes
Dirección de correo verificada de
Citado por
Citado por
Experimental study of crystallization of PolyEtherEtherKetone (PEEK) over a large temperature range using a nano-calorimeter
X Tardif, B Pignon, N Boyard, JWP Schmelzer, V Sobotka, D Delaunay, ...
Polymer Testing 36, 10-19, 2014
Experimental determination and modeling of thermal conductivity tensor of carbon/epoxy composite
M Villière, D Lecointe, V Sobotka, N Boyard, D Delaunay
Composites Part A: Applied Science and Manufacturing 46, 60-68, 2013
Optimal cooling design in injection moulding process–A new approach based on morphological surfaces
A Agazzi, V Sobotka, R LeGoff, Y Jarny
Applied Thermal Engineering 52 (1), 170-178, 2013
Determination and modelling of the cure shrinkage of epoxy vinylester resin and associated composites by considering thermal gradients
Y Nawab, X Tardif, N Boyard, V Sobotka, P Casari, F Jacquemin
Composites Science and Technology 73, 81-87, 2012
Inverse algorithm for optimal processing of composite materials
JL Bailleul, V Sobotka, D Delaunay, Y Jarny
Composites Part A: Applied Science and Manufacturing 34 (8), 695-708, 2003
Study of variation of thermal expansion coefficients in carbon/epoxy laminated composite plates
Y Nawab, F Jacquemin, P Casari, N Boyard, Y Borjon-Piron, V Sobotka
Composites Part B: Engineering 50, 144-149, 2013
Quantitative control of RTM6 epoxy resin polymerisation by optical index determination
XA Aduriz, C Lupi, N Boyard, JL Bailleul, D Leduc, V Sobotka, N Lefevre, ...
Composites science and technology 67 (15-16), 3196-3201, 2007
Behaviour of a moulded composite part: Modelling of dilatometric curve (constant pressure) or pressure (constant volume) with temperature and conversion degree gradients
N Boyard, A Millischer, V Sobotka, JL Bailleul, D Delaunay
Composites Science and Technology 67 (6), 943-954, 2007
Evolution of chemical and thermal curvatures in thermoset-laminated composite plates during the fabrication process
Y Nawab, F Jaquemin, P Casari, N Boyard, V Sobotka
Journal of composite materials 47 (3), 327-339, 2013
Heat transfer and adhesion study for the FFF additive manufacturing process
A Lepoivre, N Boyard, A Levy, V Sobotka
Procedia manufacturing 47, 948-955, 2020
A new PvT device for high performance thermoplastics: Heat transfer analysis and crystallization kinetics identification
B Pignon, X Tardif, N Lefèvre, V Sobotka, N Boyard, D Delaunay
Polymer Testing 45, 152-160, 2015
A methodology for the design of effective cooling system in injection moulding
A Agazzi, V Sobotka, R Le Goff, D Garcia, Y Jarny
International Journal of Material Forming 3 (1), 13-16, 2010
A multifunctional device to determine specific volume, thermal conductivity and crystallization kinetics of semi-crystalline polymers
X Tardif, A Agazzi, V Sobotka, N Boyard, Y Jarny, D Delaunay
Polymer testing 31 (6), 819-827, 2012
Dynamic saturation curve measurement in liquid composite molding by heat transfer analysis
M Villière, S Guéroult, V Sobotka, N Boyard, J Bréard, D Delaunay
Composites Part A: Applied Science and Manufacturing 69, 255-265, 2015
Improvement of heat transfer analytical models for thermoplastic injection molding and comparison with experiments
B Pignon, V Sobotka, N Boyard, D Delaunay
International Journal of Heat and Mass Transfer 118, 14-26, 2018
Heat transfer analysis at high cooling rate on the surface of thermoplastic parts
B Pignon, N Boyard, V Sobotka, D Delaunay
International Journal of Heat and Mass Transfer 106, 253-262, 2017
Uniform cooling and part warpage reduction in injection molding thanks to the design of an effective cooling system
A Agazzi, V Sobotka, R Le Goff, Y Jarny
Key Engineering Materials 554, 1611-1618, 2013
PvT-HADDOC: A multi-axial strain analyzer and cure monitoring device for thermoset composites characterization during manufacturing
M Péron, R Cardinaud, N Lefèvre, J Aubril, V Sobotka, N Boyard, ...
Composites Part A: Applied Science and Manufacturing 101, 129-142, 2017
A device to measure the shrinkage and heat transfers during the curing cycle of thermoset composites
Y Nawab, N Boyard, V Sobotka, P Casari, F Jacquemin
Advanced Materials Research 326, 19-28, 2011
Improved simplified approach for the prediction of porosity growth during the curing of composites parts
BP du Plessix, S Le Corre, F Jacquemin, P Lefebure, V Sobotka
Composites Part A: Applied Science and Manufacturing 90, 549-558, 2016
El sistema no puede realizar la operación en estos momentos. Inténtalo de nuevo más tarde.
Artículos 1–20