Abstract
The aim of Ph.D doctor’s thesis was checking a possibility to predict a resistance to static tearing for a wing shape sample of cotton woven fabrics – using the derived model based on the analysis of force distribution in the woven fabric tearing zone, parameters of zone geometry and parameters of yarn and woven fabric structure.The research study presents problems relating to the modelling the resistance to static tearing of cotton woven fabrics for wing shape samples.Theoretical model of tearing wing shape samples of cotton woven fabrics was derived on the basis of: an occurrence of force distribution in the woven fabric tearing zone, parameters of this zone geometry and parameters of yarn and woven fabric structure. Literature survey revealed a need to develop such a model. Tests on tearing strength play an essential role in a complex evaluation of properties of woven fabrics for different applications. Proposed model of tearing allows describing all phenomena occurring in the woven fabric tearing zone and determining any relations between parameters, which are defined and described in the model.While developing the model of woven fabric tearing process its practical application in a fabric design was considered. Expecting that calculation process would be automated it was assumed that parameters, including model coefficients, should be derived from the data on yarn and woven fabric structure, which are easily available during designing, while the experimental determination of the other model parameters should refer to commonly used methods.To obtain specified research aims it was necessary to produce model woven fabrics of defined structural parameters and to carry out experiments presented in the research work plan.To analyze the geometry of woven fabric tearing zone and to define its parameters a computerized stand was designed and built. It allows analyzing the image and visualizing the tearing zone. The main parts of this stand are: tensile tester cooperating with a computer software test-Xpert, a digital camera and the software MicroStudio Video programme. The stand is universal as its elements can be adjusted, while analyzing the sample and registering the changes occurring in the woven fabric structure during tearing force propagation.
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