Clear to clear laser welding for joining thermoplastic polymers: A comparative study based on physicochemical characterization

The joining of materials is essential to many industrial applications used today. However, it still lacks a reliable and true single step method to join different types of materials including polymers. Laser welding was primarily employed for metals until some decades ago, but with the rise of high...

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Veröffentlicht in:	Journal of materials processing technology 2018-05, Vol.255, p.808-815
Hauptverfasser:	De Pelsmaeker, Jens, Graulus, Geert-Jan, Van Vlierberghe, Sandra, Thienpont, Hugo, Van Hemelrijck, Danny, Dubruel, Peter, Ottevaere, Heidi
Format:	Artikel
Sprache:	eng
Schlagworte:	Addition polymerization Additives Bonding strength Degradation Fiber lasers Industrial applications Joining Laser beam welding Laser transmission welding Material properties Microstructure Organic chemistry Physicochemical characterization Polymers Shear strength Shear test Shear tests Solid state lasers Thermoplastic polymers Thermoplastic resins Thermoplastics Thulium Welded joints Welding
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container_title	Journal of materials processing technology
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creator	De Pelsmaeker, Jens Graulus, Geert-Jan Van Vlierberghe, Sandra Thienpont, Hugo Van Hemelrijck, Danny Dubruel, Peter Ottevaere, Heidi
description	The joining of materials is essential to many industrial applications used today. However, it still lacks a reliable and true single step method to join different types of materials including polymers. Laser welding was primarily employed for metals until some decades ago, but with the rise of high power solid state lasers, applications have emerged in the polymer field. With the recent addition of fiber lasers, true clear to clear welding, joining two of the same transparent polymer layers, has become feasible at a different wavelength range, which benefits the sealing of microfluidic devices. A number of research efforts were made at performing welds of thermoplastics at this wavelength range, however without attempts at offering elaborate explanation of the observations. In our work, a laser welding system using a Thulium fiber laser at 1940 nm was used to join a variety of thermoplasts, without the use of additives or prior processing. By optically and chemically characterizing the materials, a basis was established that links intrinsic material properties to observed welding performance, as determined by mechanical shear tests on the welded materials. We found that four of the ten considered thermoplastic polymers lend themselves to sufficiently strong bonding to allow the creation of leak-proof microfluidic devices by use of laser welding at this wavelength.
doi_str_mv	10.1016/j.jmatprotec.2017.12.011
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However, it still lacks a reliable and true single step method to join different types of materials including polymers. Laser welding was primarily employed for metals until some decades ago, but with the rise of high power solid state lasers, applications have emerged in the polymer field. With the recent addition of fiber lasers, true clear to clear welding, joining two of the same transparent polymer layers, has become feasible at a different wavelength range, which benefits the sealing of microfluidic devices. A number of research efforts were made at performing welds of thermoplastics at this wavelength range, however without attempts at offering elaborate explanation of the observations. In our work, a laser welding system using a Thulium fiber laser at 1940 nm was used to join a variety of thermoplasts, without the use of additives or prior processing. By optically and chemically characterizing the materials, a basis was established that links intrinsic material properties to observed welding performance, as determined by mechanical shear tests on the welded materials. 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However, it still lacks a reliable and true single step method to join different types of materials including polymers. Laser welding was primarily employed for metals until some decades ago, but with the rise of high power solid state lasers, applications have emerged in the polymer field. With the recent addition of fiber lasers, true clear to clear welding, joining two of the same transparent polymer layers, has become feasible at a different wavelength range, which benefits the sealing of microfluidic devices. A number of research efforts were made at performing welds of thermoplastics at this wavelength range, however without attempts at offering elaborate explanation of the observations. In our work, a laser welding system using a Thulium fiber laser at 1940 nm was used to join a variety of thermoplasts, without the use of additives or prior processing. 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subjects	Addition polymerization Additives Bonding strength Degradation Fiber lasers Industrial applications Joining Laser beam welding Laser transmission welding Material properties Microstructure Organic chemistry Physicochemical characterization Polymers Shear strength Shear test Shear tests Solid state lasers Thermoplastic polymers Thermoplastic resins Thermoplastics Thulium Welded joints Welding
title	Clear to clear laser welding for joining thermoplastic polymers: A comparative study based on physicochemical characterization
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