THE OBJECTIVE OF THIS STUDY IS TO EXAMINE THE EFFICACY OF THE ULTRASONIC WELDING PROCESS FOR JOINING TEXTILE POLYMER MATERIALS.
Keywords:
Keywords: ultrasonic welding, textile polymeric materials, welds, the breaking load.Abstract
A new technological way to connect textile polymeric materials - ultrasonic
welding, the results of research welds com- pound textile materials strength of the
breaking load.
Ultrasonic welding represents a novel technological approach to the joining of
materials, situated between the domains of welding and pressure welding. The scope
of applications for ultrasonic welding is more extensive than that of high-frequency
and thermal contact welding. The method can be employed to join textiles comprising
a range of thermoplastic fibers. The principal advantages of ultrasonic technologies are
their simplicity of application, absence of consumables, and ease of automation, which
allows for the integration of ultrasonic welding modules into technological lines. The
most significant benefit is the environmentally friendly nature of the processes, which
renders these technologies an attractive proposition in the context of modern
production.
References
References:
Sokolov A.P. Welding of materials in sewing production. M.: Legkaya Industriya,
72 с.
Gul V.E., Akutin M.S. Fundamentals of plastics processing. M.: Khimiya, 1985.
с.
Kamenev E.I., Myasnikov G.D., Platonov M.P. Application of plastic masses:
Reference book. L.: Khimiya, 1985. 448 с.
Volkov S.S. Welding and bonding of polymeric materials: Textbook for
universities. Moscow: Khimiya, 2001. 376 с.
Welding of polymeric materials: Reference book/Zaitsev K.I., Matsyuk L.N.,
Bogdashevskiy A.V. and others / Under general editorship of Zaitsev K.I. and
Matsyuk L.N., M.: Mashinostroenie, 1988. 312 с.
Volkov S.S., Chernyak B.Ya. Plastics welding by ultrasound. 2nd ed. revision and
supplement. M.: Khimiya, 1986, 254 p.
Mozgovoy I.V. Fundamentals of technology of ultrasonic welding of polymers:
Textbook. Izd-vo Krasnoyarsk University, 1991. 280 с.
Kerber M.L., Vinogradov V.M., Golovkin G.S. Polymer composite materials:
structure, properties, technology. Saint-Petersburg: Profession, 2008. 560 с.
