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Course: Rheology
Teachers in charge Ph. D. Budimir MijoviŠ, Prof.
Study Textile Science and Technology - postgraduate
Course summary 30
Knowledge verification oral exam
Lecture type lectures
Exercise type audio practice
Subject content Tensors and rheology. Continuum concept. Stress vector, stress tensor and finite strain tensor. Plane stress and plain strain. Hyperelasticity and linear elasticity. Linear visoelasticity behaviour. Two-dimensional elasticity. Rheological models ( Maxwell model, Kelvin model. Alfrey model). Creep and relaxation. Three dimensional model. Isotropy and anisotropy. Textiles microstructure. Micro-scale, mezzo-scale and macro-scale. Mechanical characteristics of textile materials, strength, tenacity and heat permeability. Inhomogeneous cross-section of textile material. Using rheological models for fibres, yarns, woven fabrics, knitted fabrics, technical and nonwoven fabrics.
Aim of course Qualifying the students of the doctoral study program to be able to analyze rheological models of textile materials on their own. He/she should be able to analyze 2D and 3D models of textile materials.
Literature necessary for course M. F. Ashby: Materials selection in sechanical design, Pergamon Press, Oxford, 2001.
W.E.Morton, J.W.S.Hearle: Physical properties of textile fibers, The textile Institute, 993.H.A.
Barenes, J.T.Hutton, K. Walters: An introduction to rheology, Elsevier Science Publishers B.V., 1989.
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CEEPUS (Central European Exchange Programme for University Studies)

Centre for Development and Transfer of Textile and Clothing Technologies and Fashion Design

International Textile
Clothing & Design

Textile Science and Economy


Textile Science Research Centre

RITEH d.o.o.

Croatian Academy of Engineering

8th Central European Conference
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