. . "6"^^ . . "A composite is a material consisting of two and more phases. The paper describes the composite system with the polymeric matrix - the epoxy resin filled with two various types of inorganic micro-particles based on the waste - Al2O3 and the glass powder. The interaction of microparticles and the polymeric matrix creates resulting mechanical properties which are unwound from the percentage representation of the microparticles and their mutual relation. The paper deals with the possibility of the primary microparticles (raw materials) substitution by the secondary microparticles (waste). It comes to the material recyclation which should be preferred. As the experiment results show the inclusion of the microparticle fillers increased the wear resistance of 68 % at keeping the constant strength of overlapped bonds to the detriment of 37 % decrease of the tensile strength." . . "0" . "Recyclation of waste microparticles in interaction with polymeric matrix - Multiphase composite" . . . "Tensile and shear strength, Waste utilization, Wear resistance"@en . . "RIV/60460709:41310/13:62764!RIV14-MSM-41310___" . . . . "[0DFD8159FA6C]" . "101804" . "2013-05-23+02:00"^^ . "Jelgava" . . . "M\u00FCller, Miroslav" . "Jelgava" . "Latvia University of Agriculture" . "Engineering for Rural Development" . "S" . "RIV/60460709:41310/13:62764" . . "Recyclation of waste microparticles in interaction with polymeric matrix - Multiphase composite"@en . . "2"^^ . . . "Recyclation of waste microparticles in interaction with polymeric matrix - Multiphase composite" . "41310" . "2"^^ . "Val\u00E1\u0161ek, Petr" . . "1691-5976" . "Recyclation of waste microparticles in interaction with polymeric matrix - Multiphase composite"@en . "A composite is a material consisting of two and more phases. The paper describes the composite system with the polymeric matrix - the epoxy resin filled with two various types of inorganic micro-particles based on the waste - Al2O3 and the glass powder. The interaction of microparticles and the polymeric matrix creates resulting mechanical properties which are unwound from the percentage representation of the microparticles and their mutual relation. The paper deals with the possibility of the primary microparticles (raw materials) substitution by the secondary microparticles (waste). It comes to the material recyclation which should be preferred. As the experiment results show the inclusion of the microparticle fillers increased the wear resistance of 68 % at keeping the constant strength of overlapped bonds to the detriment of 37 % decrease of the tensile strength."@en .