The Influence of Inorganic Particles on Characteristics of Polymer Matrix Composites

[1] Ahmed S., Jones F. R., A review of particulate reinforcement theories for polymer composites, Jour. Mat. Sci., 1990, vol. 25, n°12, p. 4933-4942 Search in Google Scholar

[2] Georgeta Comeleata, Cristiana Enescu, Mirela Zaharia Materiale compozite cu matrice polimerica, vol. I, Ed. Printech, Bucuresti, 2006, ISBN (10) 973-718-506-4; ISBN (13) 978-973-718-506-8. Search in Google Scholar

[3] E.Gacoin, C.Fretigny, A. Chateauminois Measurement of the mechanical properties of thin films mechanically confined within contacts’Tribology Letters 21, N°3 (2006) 245-252 Search in Google Scholar

[4] George Frederic Vander Voort, G.M. Lucas, E.P. Manilova, Metallography and Microstructures ofStainless Steels and Maraging Steels, ASM Handbook, Volume 9: Metallography and Microstructures, G.F. Vander Voort, editor, p670, DOI: 10.1361/asmhba0003767,2004. Search in Google Scholar

[5] Bonet M. Homogeneisation des milieux aléatoires;Bornes et estimations d’ordre deux. Méthodes d’homogeneisation en Mécanique des matériaux. Notes de cours. Ecole thématique du CNRS, La Londe les Maures, septembre 1998, p. 169 – 199. Search in Google Scholar

[6] Maria Cristiana Enescu – La simulation de rézistence à la traction et compression dans un composite macromoléculaire Revista ‘Buletinul Stiintific al Universitatii Politehica Bucuresti’, seria B : Chimie si stiinta materialelor – ISSN 1454-2331 Search in Google Scholar

[7] J.M.Berthelot, Materiaux composites. Comportament mecaniques et analyse des structures, 3^e edition, TECHNIQUES &DOCUMENTATION,1999 Search in Google Scholar

[8] Elena Valentina Stoian, Experimental research and compaction behaviour modelling of materials composite with polymeric matrix, The Scientific Bulletin of Valahia University, Materials and Mechanics, vol. (9), nr.12, 2014, pag.7-11, ISSN 1844-1076 Search in Google Scholar

[9] Elena Valentina Stoian, Ionita Gheorghe, Cristiana Zizi Rizescu, Jana Pintea, Dan Nicolae Ungureanu, Polymeric Composite Armed with Powder, RECENT RESEARCHES in COMMUNICATIONS, AUTOMATION, SIGNAL PROCESSING, NANOTECHNOLOGY, ASTRONOMY and NUCLEAR PHYSICS, 3rd WSEAS International Conference on NANOTECHNOLOGY (NANOTECHNOLOGY '11), Cambridge, UK February 23-25, 2011, pp.271-276, ISBN:978-960-474-276-9 Search in Google Scholar

[10] S.YFu, X.Q. Feng, Bernd Lauke , Yiu-Wing Mai, Effects of particle size, particle/matrix interface adhesion and particle loading on mechanical properties of particulate– polymer composites, Composites Part B: Engineering,Volume 39, Issue 6, 2008, P. 933-961, Search in Google Scholar

[11] J. Z. Liang, A. Li, Inorganic Particle Size and Content Effects on Tensile Strength of Polymer Composites, Journal of Reinforced Plastic AND COMPOSITE, 29(14):2744-2752, DOI: 10.1177/0731684409359216, 2010 Search in Google Scholar

[12] Ting Liu, Jihui Zhong, Effect of Dispersion of Nanoinorganic Particles on the Properties of Polymer Nanocomposites, IOP Conf. Series: Materials Science and Engineering 563 (2019) 022026 IOP Publishing doi:10.1088/1757-899X/563/2/022026,2019 Search in Google Scholar

[13] B. Pukánszky, K. Belina, A. Rockenbauer, F. H .J. Maurer. Effect of nucleation, filler anisotropy and orientation on the properties of PP composites. Composites, Vol. 25(3), pp. 205–214, 1994 Search in Google Scholar

[14] Anna Rudawska, Experimental Study of Mechanical Properties of Epoxy Compounds Modified with Calcium Carbonate and Carbon after Hygrothermal Exposure, Materials 2020, 13, 5439; doi:10.3390/ma13235439, p.1-30 Search in Google Scholar