Sandor Hajba
Sandor Hajba
BME Polimertechnika Tanszék
No verified email
Title
Cited by
Cited by
Year
Effect of crystalline forms (α′ and α) of poly (lactic acid) on its mechanical, thermo-mechanical, heat deflection temperature and creep properties
T Tábi, S Hajba, JG Kovács
European Polymer Journal 82, 232-243, 2016
572016
Comparison of thermal, mechanical and thermomechanical properties of poly (lactic acid) injection-molded into epoxy-based Rapid Prototyped (PolyJet) and conventional steel mold
T Tábi, NK Kovács, IE Sajó, T Czigány, S Hajba, JG Kovács
Journal of thermal analysis and calorimetry 123 (1), 349-361, 2016
452016
Preparation and characterization of in situ polymerized cyclic butylene terephthalate/graphene nanocomposites
G Balogh, S Hajba, J Karger-Kocsis, T Czigány
Journal of Materials Science 48 (6), 2530-2535, 2013
222013
Creep behaviour of injection-moulded basalt fibre reinforced poly (lactic acid) composites
T Tábi, P Bakonyi, S Hajba, PJ Herrera-Franco, T Czigány, JG Kovács
Journal of Reinforced Plastics and Composites 35 (21), 1600-1610, 2016
172016
Cross effect of natural rubber and annealing on the properties of poly (lactic acid)
T Tábi, S Hajba
PERIODICA POLYTECHNICA-MECHANICAL ENGINEERING 64 (4), 270-277, 2019
112019
Effect of D‐lactide content of annealed poly (lactic acid) on its thermal, mechanical, heat deflection temperature, and creep properties
T Tábi, AF Wacha, S Hajba
Journal of Applied Polymer Science 136 (8), 47103, 2019
102019
Poly (Lactic acid)/natural rubber blends
S Hajba, T Tábi
Materials Science Forum 885, 298-302, 2017
52017
Investigation of long cellulose fibre reinforced and injection moulded poly (lactic acid) biocomposites
S Hajba, T Tábi
Acta Technica Jaurinensis 11 (3), 150-164, 2018
32018
Development of cellulose-reinforced Poly (Lactic Acid)(PLA) for engineering applications
S Hajba, T Czigány, T Tábi
Materials Science Forum 812, 59-64, 2015
22015
Development of natural fibre reinforced poly (lactic acid) biocomposites
T Tábi, S Hajba
22014
Investigation of the thermoformability of various D‐Lactide content poly(lactic acid) films by ball burst test
K Pölöskei, G Csézi, S Hajba, T Tábi
Polymer Engineering & Science 60 (6), 1266-1277, 2020
12020
Fröccsöntési paraméterek hatása a hosszú cellúlóz szállal erősített politejsav kompozitokra
S Hajba, T Tábi, P Bakonyi
12016
Elaboration and characterization of biocomposite based on polylactic acid and Moroccan sisal fiber as reinforcement
Z Samouh, K Molnár, S Hajba, F Boussu, O Cherkaoui, R El Moznine
Polymer Composites, 2021
2021
Politejsav és társított politejsav kristályszerkezetének műszaki tulajdonságokra gyakorolt hatásának elemzése
S Hajba
PQDT-Global, 2019
2019
Gócképzők hatása a politejsav tulajdonságaira
S Hajba, T Tábi
POLIMEREK 4 (12), 387-390, 2018
2018
Politejsav szívósságának növelése növényi kaucsuk segítségével
S Hajba, T Tábi
POLIMEREK 2 (8), 238-242, 2016
2016
Politejsav (PLA) mátrixú biokompozitok
S Hajba, T Tábi
2014
Materials Science Published in November 30, 2012
G Balogh, S Hajba, J Karger-Kocsis, T Czigány
Calorimetry Published in January, 2016 DOI
T TÁBI, NK KOVÁCS, S IE, T CZIGÁNY, S HAJBA, JG KOVÁCS
The system can't perform the operation now. Try again later.
Articles 1–19