Concepts of technical mechanics with an emphasis on understanding the laws of mechanics in technical practice: kinematics; point dynamics (force, work, power, energy, oscillation); kinematics and dynamics of a rigid body (angular momentum, torque, movement); statics (force systems, friction); solid mechanics (strain, stress, rheological models); composite materials.
Integral calculus of several variables, applications; differential equations, geometric and physical interpretation, separable equations, first and second order linear differential equations; probability, conditional probability, independence, random variables, mean value and variance, covariance.
Basic methods of numerical mathematics; fixed and floating-point arithmetic, error analysis, convergence, systems of linear and non-linear equations, overdetermined systems, computation of eigenvalues; interpolation and integration; ordinary differential equations; partial differential equations.
In-depth study of approaches to quality management; the importance of quality management from the aspect of global competition; development of quality management systems; basic functions of quality management; methods and techniques in the area of quality management; economics of quality; standardisation of quality systems; comprehensive quality management.
Basics of innovation management; invention-innovation process; elements of success; creativity in the invention-innovation process; innovation business; strategy, execution, supervision and measurement of innovation processes; innovatively successful models; know-how; intellectual property.
Special processes of preparation of textile substrates for finishing; theoretical and technological novelties in dyeing; advanced physical, chemical and mechanical finishing processes; theory of fibre modification, theory of alternative media in finishing; finishing of textiles made of non-conventional fibres; presentation of the aim and effects of treatment of auxiliaries used for finishing process; environmental issues ... Read more
The importance and use of progressive mechanical textile technologies (spinning, non-woven, weaving and knitting) in textile production and in other areas of use; particularities of testing and quality assurance of textiles produced by progressive mechanical textile technologies; economics of progressive textile products; specialities in caring for progressive textile products.
Structure, design and development of high-performance fibres; methods and systems of designing high-performance fibres: carbon, ceramic and nano fibres; fibres for extremely demanding technologies; fibres with special sensory properties; properties of high-performance fibres and their uses.