@inproceedings{65052, author = {{Albrecht, Mirko and Bialaschik, Max Oliver and Gehde, Michael and Schöppner, Volker}}, booktitle = {{AIP Conference Proceedings}}, issn = {{0094-243X}}, publisher = {{AIP Publishing}}, title = {{{Serial hot gas welding - Heating and welding behaviour of a slot nozzle}}}, doi = {{10.1063/5.0192316}}, volume = {{3181}}, year = {{2024}}, } @article{23867, abstract = {{The joining of plastics is required because component geometries are severely restricted in conventional manufacturing processes such as injection molding or extrusion. In addition to established processes such as hot plate welding, infrared welding, or vibration welding, hot gas butt welding is becoming more and more important industrially due to its advantages. The main benefits are the contactless heating process, the suitability for glass fiber reinforced, and high-temperature plastics as well as complex component geometries. However, various degradation phenomena can occur during the heating process used for economic reasons, due to the presence of oxygen in the air and to the high gas temperatures. In addition, the current patent situation suggests that welding with an oxidizing gas is not permissible depending on the material. On the other hand, however, there is experience from extrusion welding, with which long-term resistant weld seams can be produced using air. Investigations have shown that the same weld seam properties can be achieved with polypropylene using either air or nitrogen as the process gas. Experimental investigations have now been carried out on the suitability of different gases with regard to the weld seam quality when welding polyamides, which are generally regarded as more prone to oxidation. The results show that weld strengths are higher when nitrogen is used as process gas. However, equal weld strengths can be achieved with air and nitrogen when the material contains heat stabilizers.}}, author = {{Bialaschik, Max and Schöppner, Volker and Albrecht, Mirko and Gehde, Michael}}, issn = {{0043-2288}}, journal = {{Welding in the World}}, pages = {{1161--1169}}, title = {{{Influence of material degradation on weld seam quality in hot gas butt welding of polyamides}}}, doi = {{10.1007/s40194-021-01108-0}}, year = {{2021}}, } @inproceedings{31785, author = {{Schöppner, Volker and Albrecht, M. and Gehde, M. and Bialaschik, Max Oliver}}, booktitle = {{Technomer}}, location = {{ Chemnitz (Deutschland)}}, title = {{{Warmgasstumpfschweißen - Einfluss des Werkzeugdesigns und des verwendeten Prozessgases auf das Erwärm- und Schweißverhalten}}}, year = {{2021}}, } @misc{31786, author = {{Schöppner, Volker and Bialaschik, Max Oliver and Albrecht, M. and Gehde, M.}}, booktitle = {{Joining Plastics}}, issn = {{1864-3450}}, pages = {{162--169}}, title = {{{Warmgasstumpfschweißen von Kunststoffen}}}, year = {{2021}}, } @inproceedings{24471, author = {{Schöppner, Volker and Bialaschik, Max}}, booktitle = {{73th Annual Assembly of the International Institute of Welding (IIW)}}, title = {{{Influence of Material Degradation on Weld Seam Quality in Hot Gas Welding of Polyamides}}}, year = {{2020}}, } @article{23868, author = {{Albrecht, Mirko and Bialaschik, Max and Gehde, Michael and Schöppner, Volker}}, isbn = {{978-3-96144-098-6 }}, journal = {{DVS CONGRESS 2020 - Große Schweißtechnische Tagung}}, publisher = {{DVS Media GmbH}}, title = {{{Einfluss der Materialschädigung auf die Schweißnahtqualität beim Warmgasstumpfschweißen von Polyamiden}}}, volume = {{365}}, year = {{2020}}, } @inproceedings{23873, author = {{Albrecht, Mirko and Bialaschik, Max and Gehde, Michael and Schöppner, Volker}}, location = {{Pretoria}}, title = {{{Hot gas welding – Influences of the tool design}}}, doi = {{10.1063/5.0029478}}, year = {{2020}}, } @inproceedings{23879, author = {{Albrecht, Mirko and Gehde, Michael and Bialaschik, Max and Schöppner, Volker}}, isbn = {{978-3-939382-14-0 }}, location = {{Chemnitz}}, title = {{{Einfluss des Werkzeugdesignes auf das Erwärmverhalten beim Warmgasschweißen}}}, year = {{2019}}, }