The thermal properties of the aromatic fibres Arselon, Arselon-C, Arimid, and Armos, as-spun and heattreated are investigated using methods of thermomechanical and dynamic thermogravimetric analysis and differential scanning calorimetry. According to the TMA data, Arselon, Arselon-C, Arimid, and heat-treated Armos fibres retain size stability up to 400°C. Shrinkage is no more than 1-2%. As-spun Armos fibres lengthen insignificantly (under 7%). The temperature characteristics of aromatic fibres obtained by TGA and DSC show that thermooxidative degradation markedly begins only at temperatures above 390-400°C.Thermostable aromatic fibres and the textiles made from them are widely used in manufacture of articles for occupational protection: special clothing for rescuers, firemen, metallurgists, workers in the petroleum and petrochemical industry, and for manufacture of thermostable filter materials, thermal and electrical insulation, and other articles [1][2][3][4][5][6][7][8].During manufacture, processing, and use, thermostable fibres, fibre materials, and articles made from them are exposed to intensive thermal effects which alter their structure and properties as a function of the temperature, duration of exposure, composition of the environment, and other factors. The occurrence of these changes is correlated with the temperature characteristics of the materials: temperatures of relaxation and phase transitions, thermochemical transformations.The thermal characteristics of para-aramid fibres were analyzed in [2,3,9]. Thermal degradation of Oxalon polyoxazole fibres is examined in [10]. These and other studies were conducted by different methods, so that in many cases, the results obtained differ significantly, and there is no published comparative analysis of the thermal characteristics of different thermostable fibres/thread using the same instruments and methods.The manufacturing processes for thermostable fibres are improving, and new modifications of thermostable fibres are appearing.
