Within the frame of article we presented for the first time the influence of the parameters of mechanical fabric properties on seam puckering and/or seam flotation as a consequence of fabric response to loading caused by the stitching force of a sewing needle and thread in the fabric. In order to determine the importance of the attributes, i.e. parameters of mechanical and physical properties of fabrics, we have used the certain machine learning methods from examples, incorporated into a software package Orange.
COBISS.SI-ID: 10373398
Heat transfer of the system man – clothing – environment represents a complex study area. A new development concept of the mathematical model for the heat transfer between the environment and human’s body as a system human’s body - clothing – environment was presented in the frame of this article. The concept of the mathematical model for heat transfer between the environment and human’s body is based on the study of all forms of transfer of dry heat (radiation, convection and conduction).
COBISS.SI-ID: 11392790
The contribution deals with relaxation phenomena in fabrics from the point of view of study of mechanical multicomponent models. These models should satisfactory describe the deformational and relaxational processes in fabrics, which can be stated as a starting point for numerical modelling of fabrics as complex textile structures. An important achievement of the gained results is a cognition that only multicomponent mechanical models are suitable for describing complex relaxational processes in fabrics with increased elasticity.
COBISS.SI-ID: 11336982
Studying fabric fall in draping shows that individual fabrics exhibit complex 3D form and have different number of folds, either even or odd. It can also be seen that that individual fabrics, regardless of the symmetric or asymmetric form of fall in draping, exhibit more or less asymmetric behaviour in the finished garment. Asymmetric fabric fall in the garment made from it, as a result of complex deformations in transforming the fabric into a 3D form reflect the ability of the fabric to react on the forces and loads and its elastic potential.
COBISS.SI-ID: 12716566
This work, estimated by the reviewer to have a connotation of a scientific book, deals with the mechanics of flat textiles from the point of view of elastic deformation that arise during production, resp. processing of textiles as a result of different elastic loadings, such as simple (tensile, compression, shearing, bending and torsion) and complex deformation. This work not only introduces the engineering approach to the study of flat textile products, but also presents an important contribution in the field of development of technical terminology.
COBISS.SI-ID: 55950081