Hybridní směsi na bázi recyklovaných plastů
Autor: | Černý, Miroslav |
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Jazyk: | čeština |
Rok vydání: | 2017 |
Předmět: |
plnivo
PUR/polyurethane strength ternary composite ternární kompozit filler PUR/pryž kompozit (i jednotlivě) PUR/polyuretan elastic modulus odpadní pryž modul pružnosti v tahu rubber crumb and ground rubber porosity pórovitost PUR/rubber composite (also as separated words) ricinový olej castor oil pevnost |
Druh dokumentu: | Doctoral Thesis |
Popis: | Work describes the relationship between structure and mechanical properties in case of hybrid mixtures. They are composed from polyurethane matrices (eventually polyurethane-urea or polyurethane-inorganic filler mixtures), different rubber fractions as filler and eventually reinforcement made from PET monofilaments. Mechanical behaviour was studied by tensile testing. Studied mechanical properties include tensile modulus, ultimate strength and strain and also specific energy need neccessary for ultimate strength achievement. Prepared materials are naturally porous. Therefore their mechanical behaviour has to be described generally for porous composites. The porosity occurence means, that it is difficult to describe them by models valid for mechanical behaviour (mainly elastic modulus) of nonporous composites. Models are also based on idealized structures on microscopic level. In case of porous composites, it is very difficult to create any idealized structure. The structure is changed with modifications of composition (change of components or their rates). These conditions have lead to utilizing of different approach how to describe the relationship between structure and mentioned mechanical properties. The chosen approach comes from knewledge about structural parametres coming from porosity. Structural parameters describe the structure on macroscopic level. They include interspace volume (volume lying between filler particles), interspace filling (how the matrix fills the interspace volume) and matrix volume fraction. Proposed parameters are used in relations, where they are fitted by exponents to interlay values of chosen mechanical properties for composites containing discrete matrix and filler. Found exponents are then described by properties of matrices to obtain relations describing properties of filled porous materials. Very similar approach was chosen for description in the case of reinforced composites. Proposed relation are potentially valid for materials containing binding matrix, infinity count of fillers and one kind of reinforcement. |
Databáze: | Networked Digital Library of Theses & Dissertations |
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