. . "CN - \u010C\u00EDnsk\u00E1 lidov\u00E1 republika" . . "[63C15E3247D8]" . . "Pokluda, Jaroslav" . "P(GA106/09/1524)" . "2"^^ . "6" . . "RIV/00216305:26210/10:PU87401!RIV11-GA0-26210___" . "Composites represent one of widely used successful ways to improve mechanical properties of materials, in particular their elastic moduli, strength and fracture toughness. Resulting properties in real composites can be, at least in some cases, predicted from properties of the constituents using simple linear rules of mixtures. Such linear relations are often used for Young's moduli as well as for the strength of composites."@en . . . "ELASTICITY AND STRENGTH OF NANO-FIBRE REINFORCED COMPOSITES FROM FIRST PRINCIPLES" . . "2"^^ . . . "256617" . "2"^^ . "WORLD JOURNAL OF ENGINEERING" . "26210" . . "ELASTICITY AND STRENGTH OF NANO-FIBRE REINFORCED COMPOSITES FROM FIRST PRINCIPLES"@en . . "ELASTICITY AND STRENGTH OF NANO-FIBRE REINFORCED COMPOSITES FROM FIRST PRINCIPLES" . "theoretical strength, nano-composites, ab initio calculations"@en . "RIV/00216305:26210/10:PU87401" . . "1708-5284" . "Composites represent one of widely used successful ways to improve mechanical properties of materials, in particular their elastic moduli, strength and fracture toughness. Resulting properties in real composites can be, at least in some cases, predicted from properties of the constituents using simple linear rules of mixtures. Such linear relations are often used for Young's moduli as well as for the strength of composites." . . "7" . . "ELASTICITY AND STRENGTH OF NANO-FIBRE REINFORCED COMPOSITES FROM FIRST PRINCIPLES"@en . "\u010Cern\u00FD, Miroslav" . .