Felix Welsch

Wissenschaftlicher Mitarbeiter

Ausbildung

Masterthesis

Entwicklung eines Prüfverfahrens zur Bestimmung biaxialer Werkstoffkennwerte von Kunststoffen

Bachelorthesis

Entwicklung und Konstruktion der Mechanik einer Miniatur-Spritzgießmaschine

Beruflicher Werdegang

Arbeitsgebiete

  • FGL Elastokalorik
  • FGL Modellierung

  • FGL Aktorik & Sensorik

  • FGL Experimente

  • DE Experimente

Publikationen

  • F. Welsch et al., “Numerical simulation and experimental investigation of the elastocaloric cooling effect in sputter-deposited TiNiCuCo thin films,” Contin. Mech. Thermodyn., vol. 30, no. 1, pp. 53–58, 2017.

  • S.-M. Kirsch et al., “NiTi-based elastocaloric cooling on the macroscale - from basic concepts to realization,” Energy Technol., no. 6, pp. 1567–1587, 2018.

  • N. Michaelis, F. Welsch, S.-M. Kirsch, M. Schmidt, S. Seelecke, and A. Schütze, “Experimental Parameter Identification for Elastocaloric Air Cooling,” Int. J. Refrig., 2019.

  • [S.-M. Kirsch, F. Welsch, and S. Seelecke, “Energiewandler mit thermoelastischer Anordnung sowie Energiewandlersystem,” DE102016118776A1, 2016.

  • S.-M. Kirsch, F. Welsch, and S. Seelecke, “Energiewandler mit thermoelastischer Anordnung sowie Heiz-/Kühlsystem,” EP3306082A2, 2017.

  • S.-M. Kirsch, M. Schmidt, F. Welsch, N. Michaelis, A. Schütze, and S. Seelecke, “Development of a shape memory based air conditioning system,” in 59th Ilmenau Scientific Colloquium, 2017.

  • F. Welsch et al., “Elastocaloric Cooling: System Design, Simulation, and Realization,” in Smart Materials and Structures, 2018, pp. SMASIS2018-7982.

  • N. Michaelis, F. Welsch, S.-M. Kirsch, M. Schmidt, S. Seelecke, and A. Schütze, “Investigation of Single Wire Elastocaloric Air Cooling Potential,” in Thermag VIII, 2018, no. 0027.

  • S.-M. Kirsch, F. Welsch, N. Michaelis, M. Schmidt, A. Schütze, and S. Seelecke, “Continuously Operating Elastocaloric Cooling Device based on Shape Memory Alloys: Development and Realization,” in Thermag VIII, 2018, no. 0039.

  • F. Welsch, S.-M. Kirsch, N. Michaelis, M. Schmidt, A. Schütze, and S. Seelecke, “Continuously Operating Elastocaloric Cooling Device based on Shape Memory Alloys: Modeling,” in Thermag VIII, 2018, no. 0040.

  • N. Michaelis, F. Welsch, S.-M. Kirsch, M. Schmidt, S. Seelecke, and A. Schütze, “Investigation of Single Wire Elastocaloric Air Cooling Potential - Poster,” Thermag VIII. Darmstadt, Germany, 2018.

  • S.-M. Kirsch, F. Welsch, N. Michaelis, M. Schmidt, A. Schütze, and S. Seelecke, “Continuously Operating Elastocaloric Cooling Device based on Shape Memory Alloys: Development and Realization - Poster,” Thermag VIII. Darmstadt, Germany, 2018.

  • F. Welsch, S.-M. Kirsch, N. Michaelis, M. Schmidt, A. Schütze, and S. Seelecke, “Continuously Operating Elastocaloric Cooling Device based on Shape Memory Alloys: Modeling - Poster,” Thermag VIII. Darmstadt, Germany, 2018.

  • S.-M. Kirsch and F. Welsch, “Elastocalorics: Ultra-efficient cooling systems - Invited Talk,” in VDI Workshop: Funktionale Materialien für mechatronische Systeme, 2018.

  • F. Welsch, “A fully-coupled simulation tool for elastocaloric air-cooling devices - Invited Talk,” in IUTAM Symposium: Phase Transformations in Shape Memory Materials: Modeling and Applications, 2019.

  • F. Welsch, S.-M. Kirsch, P. Motzki, M. Schmidt, and S. Seelecke, “Vacuum Gripper System Based on Bistable SMA Actuation,” in ASME 2018 Conference on Smart Materials, Adaptive Structures and Intelligent Systems, 2018, pp. SMASIS2018-7980.

  • S.-M. Kirsch, F. Welsch, M. Schmidt, P. Motzki, and S. Seelecke, “Bistable SMA Vacuum Suction Cup,” in ACTUATOR 2018: 16th International Conference on New Actuators, 2018.

  • F. Welsch, S.-M. Kirsch, P. Motzki, M. Schmidt, and S. Seelecke, “Vacuum Gripper System Based on Bistable SMA Actuation - Poster,” ASME 2018 Conference on Smart Materials, Adaptive Structures and Intelligent Systems. San Antonio, Texas, USA, pp. SMASIS2018-7980, 2018.

  • R. Britz et al., “SMA Wire Bundles - Mechanical and Electrical Concepts,” in ACTUATOR 2018: 16th International Conference on New Actuators, 2018.

  • F. Welsch, B. Fasolt, and S. Seelecke, “Dielectric breakdown test setup for dielectric elastomers: design and validation,” in SPIE 10594, Electroactive Polymer Actuators and Devices (EAPAD) XX, 2018, no. 105941A.

Eine vollständige Liste der Publikationen findet sich auf researchgate.

Lehrstuhl für intelligente Materialsysteme 

Universität des Saarlandes
 

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