Andre Schmeißer
Kaiserslautern University of Technology
6 Papers
12 Citations
Andre Schmeißer is an academic researcher from Kaiserslautern University of Technology. The author has contributed to research in topics: Nonlinear system & Overlap–add method. The author has an hindex of 2, co-authored 6 publications.
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Papers
Smooth convolution-based distance functions
TL;DR: A method to smooth a triangle mesh by constructing an implicit convolution-based surface by employing the straight skeleton to linearize the latter, which allows the function to be used in simulation systems requiring C2 continuity, and can be explicitly analytically evaluated.
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Simulation of Fiber Dynamics and Fiber-Wall Contacts for Airlay Processes
TL;DR: In this article, the effect of the turbulent air flow onto the fibers and their contact with walls is modeled and the simulation results of the laydown can be used further, e.g., as input for fiber laydown models in nonwoven production processes.
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•Posted Content
Analysis of the fiber laydown quality in spunbond processes with simulation experiments evaluated by blocked neural networks
TL;DR: A simulation framework for spunbond processes is presented and a design of experiments to investigate the cause-and-effect-relations of process and material parameters onto the fiber laydown on a conveyor belt is used.
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Analysis of the Fiber Laydown Quality in Spunbond Processes with Simulation Experiments Evaluated by Blocked Neural Networks
TL;DR: In this article, the authors present a simulation framework for spinningbond processes and use a design of experiments to investigate the cause-and-effect relations of process and material parameters on the fiber laydown on a conveyor belt.
Numerical Treatment of Fiber–Fiber and Fiber-Obstacle Contacts in Technical Textile Manufacturing
Ferdinand Olawsky,Martin Hering-Bertram,Andre Schmeißer,Nicole Marheineke +3 more
- 01 Jan 2012
TL;DR: In this paper, the Kirchhoff-love equations are used to model the dynamics of elastic fiber bundles in terms of the inner and outer forces of the fiber and fiber-obstacle contacts.
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