An investigation of the thermo-mechanical fusing process of innovative textile materials

The process of thermo-mechanical fusing (TMF) is one of the major technological processes in the sewing industry. Thequality of the sewing article as a whole depends largely on the effective implementation of this process. The goodappearance of the finished product and the preservation of the shapes given during the operation of the product dependon the proper choice of the parameters for the TMF. It is therefore important to carry out research to optimize thisprocess. On the other hand, new and different textile materials (TM) with more complex structure and multicomponentcomposition have appeared in recent years. This determines the different properties of each TM. Therefore, it isextremely important to conduct numerous preliminary studies and analyses to determine the specific effective values fordefining the TMF process for a particular type of TM. This is especially important namely for large-scale companies. Inthe context of the above, it is of particular interest to study the TMF process for an innovative TM (with complex structureand multicomponent composition) registered with a patent for an invention in recent years. The purpose of the presentwork is to investigate and analyse the nature of the change in temperature between basic and adhesive TM in TMF ofinnovative /complex in composition and structure/TM. As a result of the performed research and analysis, a method forestablishing continuous feedback with the processed textile materials at TMF has been proposed. The nature of thetemperature change of the treated innovative TM has been defined. The relationship between the time for conductingthe TMF process and the temperature of the pressing plate for the respective innovative TM has been established.