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142 results on '"Kiefer, Björn"'

1. Micromorphic FE$^2$ Simulation of Plastic Deformations of Foam Structures

Author

Malik, Alexander, Hütter, Geralf, Abendroth, Martin, and Kiefer, Bjoern

Subjects
Condensed Matter - Soft Condensed Matter
Abstract

Capturing and predicting the effective mechanical properties of highly porous cellular media still represents a significant challenge for the research community, due to their complex structural interdependencies and known size effects. Micromorphic theories are often applied in this context to model the inelastic deformation behavior of foam-like structures, in particular to incorporate such size effect into the investigation of structure-property correlations. This raises the problems of formulating appropriate constitutive relations for the numerous non-classical stress measures and determining the corresponding material parameters, which are usually difficult to assess experimentally. The present contribution therefore alternatively employs a concurrent micromorphic multi-scale approach within the Direct FE$^2$ framework to simulate the complex irreversible behavior of foam-like porous solids. The predictions of Cosserat (micropolar) and a fully-micromorphic theory are compared with conventional FE$^2$ results and direct numerical simulations (DNS) for complex loading scenarios with elastic, elastic-plastic, and creep deformations.

Published
2024
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2. A Comparison Of Direct Solvers In FROSch Applied To Chemo-Mechanics

Author

Heinlein, Alexander, Kiefer, Bjoern, Prüger, Stefan, Rheinbach, Oliver, and Röver, Friederike

Subjects
Mathematics - Numerical Analysis, Computer Science - Distributed, Parallel, and Cluster Computing
Abstract

Sparse direct linear solvers are at the computational core of domain decomposition preconditioners and therefore have a strong impact on their performance. In this paper, we consider the Fast and Robust Overlapping Schwarz (FROSch) solver framework of the Trilinos software library, which contains a parallel implementations of the GDSW domain decomposition preconditioner. We compare three different sparse direct solvers used to solve the subdomain problems in FROSch. The preconditioner is applied to different model problems; linear elasticity and more complex fully-coupled deformation diffusion-boundary value problems from chemo-mechanics. We employ FROSch in fully algebraic mode, and therefore, we do not expect numerical scalability. Strong scalability is studied from 64 to 4096 cores, where good scaling results are obtained up to 1728 cores. The increasing size of the coarse problem increases the solution time for all sparse direct solvers.

Published
2023

3. A modified Ehlers model for the description of inelastic behavior of porous structures

Author

Abendroth, Martin, Malik, Alexander, and Kiefer, Bjoern

Subjects
Condensed Matter - Soft Condensed Matter
Abstract

This paper describes a modification of Ehlers' model for the inelastic behavior of granular media. The modified model can be applied for describing the inelastic behavior of porous media. The key feature is a subtle change of the yield potential, which allows the correct orientation of the triangular-shaped yield surface cross sections depending on the hydrostatic stress state. The model is incorporated into a general framework for isotropic plasticity. An elastic predictor/corrector algorithm is employed to solve the constitutive equations. The necessary derivatives for a Newton update are also given in detail. The model is calibrated using stress, and strain data obtained from finite element simulations of a generic highly porous open-cell Wheire-Phelan foam.

Published
2023

4. Monolithic Hyper ROM FE$^2$ Method with Clustered Training at Finite Deformations

Author

Lange, Nils, Hütter, Geralf, and Kiefer, Bjoern

Subjects
Mathematics - Numerical Analysis
Abstract

The usage of numerical homogenization to obtain structure-property relations using the finite element method at both the micro and macroscale has gained much interest in the research community. However the computational cost of this so called FE$^2$ method is so high that algorithmic modifications and reduction methods are essential. Currently the authors proposed a monolithic algorithm. Now this algorithm is combined with ROM and ECM hyper integration, applied at finite deformations and complemented by a clustered training strategy, which lowers the training effort and the number of necessary ROM modes immensely. The applied methods are modularly combinable as aimed in finite element approaches. An implementation in terms of an extension for the already established MonolithFE$^2$ code is provided. Numerical examples show the efficiency and accuracy of the monolithic hyper ROM FE$^2$ method and the advantages of the clustered training strategy. Online times of below $1\%$ of the conventional FE$^2$ method could be gained. In addition the training stage requires around $3\%$ of that time, meaning that no extremely expensive offline stage is necessary as in many Neural Network approaches, which only pay off when a lot of online simulations will be conducted., Comment: 20 pages, 47 references, 14 figures, 2 tables, 2 boxes

Published
2023

5. Monolithic parallel overlapping Schwarz methods in fully-coupled nonlinear chemo-mechanics problems

Author

Kiefer, Bjoern, Prüger, Stefan, Rheinbach, Oliver, and Röver, Friederike

Subjects
Mathematics - Numerical Analysis, 65M55, 74F25
Abstract

We consider the swelling of hydrogels as an example of a chemo-mechanical problem with strong coupling between the mechanical balance relations and the mass diffusion. The problem is cast into a minimization formulation using a time-explicit approach for the dependency of the dissipation potential on the deformation and the swelling volume fraction to obtain symmetric matrices, which are typically better suited for iterative solvers. The MPI-parallel implementation uses the software libraries deal.II, p4est and FROSch (Fast of Robust Overlapping Schwarz). FROSch is part of the Trilinos library and is used in fully algebraic mode, i.e., the preconditioner is constructed from the monolithic system matrix without making explicit use of the problem structure. Strong and weak parallel scalability is studied using up to 512 cores, considering the standard GDSW (Generalized Dryja-Smith-Widlund) coarse space and the newer coarse space with reduced dimension. The FROSch solver is applicable to the coupled problems within in the range of processor cores considered here, although numerical scalablity cannot be expected (and is not observed) for the fully algebraic mode. In our strong scalability study, the average number of Krylov iterations per Newton iteration is higher by a factor of up to six compared to a linear elasticity problem. However, making mild use of the problem structure in the preconditioner, this number can be reduced to a factor of two and, importantly, also numerical scalability can then be achieved experimentally. Nevertheless, the fully algebraic mode is still preferable since a faster time to solution is achieved.

Published
2022

6. Determination of the Temperature-Dependent Fracture and Damage Properties of Ceramic Filter Materials from Small Scale Specimens

Author

Abendroth, Martin, Takht Firouzeh, Shahin, Kuna, Meinhard, Kiefer, Bjoern, Hull, Robert, Series Editor, Jagadish, Chennupati, Series Editor, Kawazoe, Yoshiyuki, Series Editor, Kruzic, Jamie, Series Editor, Osgood Jr., Richard, Series Editor, Parisi, Jürgen, Series Editor, Pohl, Udo W., Series Editor, Seong, Tae-Yeon, Series Editor, Uchida, Shin-ichi, Series Editor, Wang, Zhiming M., Series Editor, Aneziris, Christos G., editor, and Biermann, Horst, editor

Published
2024
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7. Modeling and Evaluation of the Thermo-mechanical Behavior of Filter Materials and Filter Structures

Author

Abendroth, Martin, Roth, Stephan, Malik, Alexander, Seupel, Andreas, Kuna, Meinhard, Kiefer, Bjoern, Hull, Robert, Series Editor, Jagadish, Chennupati, Series Editor, Kawazoe, Yoshiyuki, Series Editor, Kruzic, Jamie, Series Editor, Osgood Jr., Richard, Series Editor, Parisi, Jürgen, Series Editor, Pohl, Udo W., Series Editor, Seong, Tae-Yeon, Series Editor, Uchida, Shin-ichi, Series Editor, Wang, Zhiming M., Series Editor, Aneziris, Christos G., editor, and Biermann, Horst, editor

Published
2024
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10. An efficient monolithic solution scheme for FE$^2$ problems

Author

Lange, Nils, Hütter, Geralf, and Kiefer, Björn

Subjects
Mathematics - Numerical Analysis, Computer Science - Computational Engineering, Finance, and Science, Physics - Computational Physics
Abstract

The FE$^2$ method is a very flexible but computationally expensive tool for multiscale simulations. In conventional implementations, the microscopic displacements are iteratively solved for within each macroscopic iteration loop, although the macroscopic strains imposed as boundary conditions at the micro-scale only represent estimates. In order to reduce the number of expensive micro-scale iterations, the present contribution presents a monolithic FE$^2$ scheme, for which the displacements at the micro-scale and at the macro-scale are solved for in a common Newton-Raphson loop. In this case, the linear system of equations within each iteration is solved by static condensation, so that only very limited modifications to the conventional, staggered scheme are necessary. The proposed monolithic FE$^2$ algorithm is implemented into the commercial FE code Abaqus. Benchmark examples demonstrate that the monolithic scheme saves up to ~60% of computational costs.

Published
2021
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14. Towards the Crystal Plasticity Based Modeling of TRIP-Steels—From Material Point to Structural Simulations

Author

Prüger, Stefan, Kiefer, Björn, Hull, Robert, Series Editor, Jagadish, Chennupati, Series Editor, Kawazoe, Yoshiyuki, Series Editor, Kruzic, Jamie, Series Editor, Osgood, Richard M., Series Editor, Parisi, Jürgen, Series Editor, Pohl, Udo W., Series Editor, Seong, Tae-Yeon, Series Editor, Uchida, Shin-ichi, Series Editor, Wang, Zhiming M., Series Editor, Biermann, Horst, editor, and Aneziris, Christos G., editor

Published
2020
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26. Beeinflussung der Umströmung eines aerodynamischen Profils mithilfe passiver, elastischer Rückstromklappen

Author

Schwarze, Rüdiger, Kiefer, Björn, TU Bergakademie Freiberg, Reiswich, Artur, Schwarze, Rüdiger, Kiefer, Björn, TU Bergakademie Freiberg, and Reiswich, Artur

Abstract

Im Rahmen dieser Arbeit wurde der Einfluss von passiven und elastischen Rückstromklappen, die auch als Flaps bezeichnet werden, auf einen Tragflügel mit NACA0020 Profil untersucht. Mithilfe einer Kraftwaage erfolgte zunächst die Erfassung der Auswirkungen auf das aerodynamische Verhalten des Tragflügels vor und nach der Strömungsablösung. Für ein detailliertes Verständnis wurde zusätzlich die Umströmung mit der Rauchdrahttechnik visualisiert und die Flapkinematik mit der Stereo Vision Technik aufgenommen. Es konnte festgestellt werden, dass die Vorderkantenflaps mit der geringsten Biegesteifigkeit die Gleitzahl des Tragflügels vor allem in abgelöster Strömung erhöhen. Die festgestellte Auftriebssteigerung resultiert aus der langsamen Aufstellbewegung und beschleunigten Anlegebewegung der Flaps, die eine einhergehende Reduzierung der turbulenten Ablösung verursachen. Die Ergebnisse der Arbeit liefern zahlreiche Erkenntnisse, die eine Übertragung des festgestellten Effekts auf andere technische Anwendungen erleichtern.:Abbildungsverzeichnis....................................................................... VII Tabellenverzeichnis............................................................................ XII Symbol- & Abkürzungsverzeichnis..................................................XVI 1 Einleitung......................................................................................... 1 2 Stand der Forschung........................................................................ 4 2.1 Wesentliche Aspekte von Profilumströmungen ................................. 4 2.2 Zusammenfassung essenzieller Aspekte von Tragflügeln mit Flaps ......7 3 Numerische Untersuchung der Profilumströmung....................... 13 3.1 Numerische Modell ......................................................................13 3.1.1 Grundgleichungen und Turbulenzmodell ..............................13 3.1.2 Randbedingungen und Diskretisierungsschema .....................16 3.2 Ergebn, In the following study the effects of elastic and passive flaps were investigated on an airfoil with a NACA0020 profile. At first the aerodynamic performance of different configurations was measured with a force balance. In order to detect its effects before and after stall the angle of attack was varied during the experiments. For the configurations with increased aerodynamic performance additional experiments were carried out. The smoke wire visualization and stereo vision technique allowed a detailled insight in the flow around the NACA0020 profile and the flap movement. The results show that elastic flaps at the leading and trailing edge of the airfoil improve notably the airfoil performance in deep stall. Furthermore, the highest increase of the lift-to-drag ratio was achieved for the configuration with lowest bending stiffness. It was observed that the highest reduction of the turbulent separation region is caused by the flap movement. The increase of lift-to-drag ratio results from a slow upward and a fast downward motion of the elastic flap. The study delivers helpful information for transfer of the observed effect to other technical applications.:Abbildungsverzeichnis....................................................................... VII Tabellenverzeichnis............................................................................ XII Symbol- & Abkürzungsverzeichnis..................................................XVI 1 Einleitung......................................................................................... 1 2 Stand der Forschung........................................................................ 4 2.1 Wesentliche Aspekte von Profilumströmungen ................................. 4 2.2 Zusammenfassung essenzieller Aspekte von Tragflügeln mit Flaps ......7 3 Numerische Untersuchung der Profilumströmung....................... 13 3.1 Numerische Modell ......................................................................13 3.1.1 Grundgleichu

Published
2021

31. Utilization of a Miniaturized Brazilian Disc Test for Strength Measurements of C‐Bonded Alumina Filter Materials.

Author

Takht Firouzeh, Shahin, Abendroth, Martin, Fischer, Undine, Aneziris, Christos G., and Kiefer, Björn

Subjects
DIGITAL image correlation, MECHANICAL behavior of materials, CRYSTAL filters, PARAMETER identification, FINITE element method
Abstract

Filtration of molten metals using open cell ceramic filters has proven the premises regarding the improvements of the final product quality. The Collaborative Research Center 920 has made a substantive record in developing carbon‐bonded alumina (C−Al2O3) filters. Considering the mechanical loads carried by these filters, material strength determination is a necessary step to improve their performance. The Brazilian disc test (BDT) is a method to determine mechanical properties of brittle materials with indirect tensile stresses. The simplicity of the specimen production, test application, as well as results evaluation makes this test attractive. Herein, experimental investigations of different variations of the BDT setup on C−Al2O3 specimens are conducted. Test variations mainly concern the geometry of the load application to ensure a defined failure of the specimens. Digital image correlation (DIC) technique is used to extract the necessary data for the evaluation of the results. Moreover, within an inverse parameter identification method finite element analysis is used to determine strength and elastic material parameters. Additionally, a high‐speed camera is used for the detection of crack formation. It can be concluded that a special variation of the BDT is a suitable method to evaluate the mechanical properties of C−Al2O3. [ABSTRACT FROM AUTHOR]

Published
2022
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32. Mehrskalige Modellierung und Finite-Elemente-Simulation magnetorheologischer Elastomere

Author

Kästner, Markus, Kiefer, Björn, Technische Universität Dresden, Kalina, Karl Alexander, Kästner, Markus, Kiefer, Björn, Technische Universität Dresden, and Kalina, Karl Alexander

Abstract

Die vorliegende Arbeit stellt eine mehrskalige Modellierungs-Strategie für die Beschreibung magnetorheologischer Elastomere (MRE) vor. Diese ermöglicht die Betrachtung von MRE sowohl auf der Mikroskala, wo die heterogene Mikrostruktur bestehend aus Partikeln und Matrix explizit aufgelöst ist, als auch auf der Makroskala, in welcher das MRE als homogener magnetisch aktiver Körper aufzufassen ist. Auf beiden Skalen kommt dabei eine Kontinuumsformulierung des gekoppelten magneto-mechanischen Feldproblems mit Gültigkeit für finite Deformationen zum Einsatz, wobei die Lösung des Systems partieller Differentialgleichungen mittels der Finite-Elemente-Methode erfolgt. Ausgehend von einer experimentellen Charakterisierung der Konstituenten werden Materialmodelle für die elastomere Matrix sowie Carbonyleisen- und Neodym-Eisen-Bor-Partikel formuliert und mittels dieser Daten kalibriert. Im nächsten Schritt erfolgt die Analyse des effektiven Verhaltens hart- und weichmagnetischer MRE auf Basis von numerischen Homogenisierungen verschiedener mikroskopischer Partikelverteilungen und den Materialmodellen für die Konstituenten. Um weiterhin die effiziente Simulation makroskopischer MRE-Proben und -Bauteile zu ermöglichen, ist daran anschließend die Entwicklung und Parametrisierung eines Makromodells ausgehend von mikroskopisch generierten Datensätzen beschrieben. Mit diesem für isotrope, weichmagnetische und elastische MRE gültigen Modell werden abschließend Simulationen des magnetostriktiven sowie des magnetorheologischen Effektes verschiedener Proben durchgeführt., In this contribution, a strategy for the multiscale modeling of magnetorheological elastomers (MREs) is presented. It allows to consider these materials on the microscopic scale, where the heterogeneous microstructure consisting of an elastomer matrix and embedded magnetizable particles is explicitly resolved, as well as the macroscopic scale, where the MRE is considered to be a homogeneous magneto-active body. On both scales, a continuum formulation of the coupled magneto-mechanical boundary value problem valid for finite strains is applied. The solution of the system of partial differential equations is calculated by using the finite element method. Starting with an experimental characterization of the individual constituents, constitutive models for the elastomer matrix as well as carbonyl iron and neodymium-iron-boron particles are formulated and adjusted to experimental data. In a next step, basic effective properties of magnetically soft and hard MREs are analyzed by using a computational homogenization scheme, where different geometrical arrangements of the particles on the microscale are considered. In order to enable the efficient simulation of macroscopic MRE samples and components, the developement and parametrization of a macroscopic model based on a microscopically generated data basis is described. With this model which is applicable for isotropic, magnetically soft and elastic MREs, simulations of the magnetostrictive and magnetorheological effects of several sample geometries are performed.

Published
2020

37. A theory for the homogenisation towards micromorphic media and its application to size effects and damage

Author

Forest, Samuel, Kiefer, Björn, Steinmann, Paul, TU Bergakademie Freiberg, Hütter, Geralf, Forest, Samuel, Kiefer, Björn, Steinmann, Paul, TU Bergakademie Freiberg, and Hütter, Geralf

Abstract

The classical Cauchy-Boltzmann theory of continuum mechanics requires that the dimension, over which macroscopic gradients occur, are much larger than characteristic length scales of the microstructure. For this reason, the classical continuum theory comes to its limits for very small specimens or if material degradation leads to a localisation of deformations into bands, whose width is determined by the microstructure itself. Deviations from the predictions of the classical theory of continuum mechanics are referred to as size effects. It is well-known, that generalised continuum theories can describe size effects in principle. Especially micromorphic theories gain increasing popularity due its favorable numerical implementation. However, the formulation of the additionally necessary constitutive equations is a problem. For linear-elastic behavior, the number of material parameters increases considerably compared to the classical theory. The experimental determination of these parameters is thus very difficult. For nonlinear and history-dependent processes, even the qualitative structure of the constitutive equations can hardly be assessed solely on base of phenomenological considerations. Homogenisation methods are a promising approach to solve this problem. The present thesis starts with a critical review on the classical theory of homogenisation and the approaches on micromorphic homogenisation which are available in literature. On this basis, a theory is developed for the homogenisation of a classical Cauchy-Boltzmann continuum at the microscale towards a micromorphic continuum at the macroscale. In particular, the micro-macro-relations are specified for all macroscopic kinetic and kinematic field quantities. On the microscale, the corresponding boundary-value problem is formulated, whereby kinematic, static or periodic boundary conditions can be used. No restrictions are imposed on the material behavior, i. e. it can be linear or nonlinear. The special cases o, Die klassische Cauchy-Boltzmann-Kontinuumstheorie setzt voraus, dass die Abmessungen, über denen makroskopische Gradienten auftreten, sehr viele größer sind als charakteristische Längenskalen der Mikrostruktur. Aus diesem Grund stößt die klassische Kontinuumstheorie bei sehr kleinen Proben ebenso an ihre Grenzen wie bei Schädigungsvorgängen, bei denen die Deformationen in Bändern lokalisieren, deren Breite selbst von der Längenskalen der Mikrostruktur bestimmt wird. Abweichungen von Vorhersagen der klassischen Kontinuumstheorie werden als Größeneffekte bezeichnet. Es ist bekannt, dass generalisierte Kontinuumstheorien Größeneffekte prinzipiell beschreiben können. Insbesondere mikromorphe Theorien erfreuen sich auf Grund ihrer vergleichsweise einfachen numerischen Implementierung wachsender Beliebtheit. Ein großes Problem stellt dabei die Formulierung der zusätzlich notwendigen konstitutiven Gleichungen dar. Für linear-elastisches Verhalten steigt die Zahl der Materialparameter im Vergleich zur klassischen Theorie stark an, was deren experimentelle Bestimmung sehr schwierig macht. Bei nichtlinearen und lastgeschichtsabhängigen Prozessen lässt sich selbst die qualitative Struktur der konstitutiven Gleichungen ausschließlich auf Basis phänomenologischer Überlegungen kaum erschließen. Homogenisierungsverfahren stellen einen vielversprechenden Ansatz dar, um dieses Problem zu lösen. Die vorliegende Arbeit gibt zunächst einen kritischen Überblick über die klassische Theorie der Homogenisierung sowie die im Schrifttum verfügbaren Ansätze zur mikromorphen Homogenisierung. Auf dieser Basis wird eine Theorie zur Homogenisierung eines klassischen Cauchy-Boltzmann-Kontinuums auf Mikroebene zu einem mikromorphen Kontinuum auf der Makroebene entwickelt. Insbesondere werden Mikro-Makro-Relationen für alle makroskopischen kinetischen und kinematischen Feldgrößen angegebenen. Auf der Mikroebene wird das entsprechende Randwertproblem formuliert, wobei kinematische, statische oder per

Published
2018

38. Special Issue: 2015 ASME Conference on Smart Materials, Adaptive Structures and Intelligent Systems (SMASIS), Symposium on Modeling, Simulation and Control of Adaptive Systems

Author

Kiefer, Björn, Marschner, Uwe, and Mahoodi, S. Nima

Subjects
ddc:670, aktiv/passiv dynamischen Systeme, statischen strukturellen Systeme, Kontrolle von integrierten Systemen, active/passive dynamic systems, static structural systems, control of integrated systems, ddc:600
Abstract

The 2015 ASME Conference on Smart Materials, Adaptive Structures and Intelligent Systems (SMASIS) was held from 21 to 23 September 2015, in Colorado Springs, Colorado. The scope of the conference covers intelligent, flexible, adaptive materials and systems that respond to changes in the environment to perform in the most profitable way. Scientific strides and technological maturity in the field are linked to the interdisciplinary efforts at universities, government and industry. SMASIS aims at assembling world experts across engineering and scientific disciplines such as mechanical, aerospace, electrical, materials, and civil engineering, as well as biology, physics and chemistry, to discuss the latest findings and trends in this fruitful area of research.

Published
2017

41. In memoriam of Christian Miehe

Author

Ehlers, Wolfgang, primary, Govindjee, Sanjay, additional, Keip, Marc-André, additional, Kiefer, Björn, additional, Linder, Christian, additional, and Schröder, Jörg, additional

Published
2017
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42. Special Issue: ASME 2014 Conference on Smart Materials, Adaptive Structures and Intelligent Systems (SMASIS), Symposium on Modeling, Simulation and Control

Author

Koo, Jeong-Hoi, Kiefer, Björn, Marschner, Uwe, Koo, Jeong-Hoi, Kiefer, Björn, and Marschner, Uwe

Abstract

The ASME 2014 Conference on Smart Materials, Adaptive Structures and Intelligent Systems (SMASIS) was held from 8-10 September 2014 in Newport, Rhode Island. The scope of the Conference covers intelligent, flexible, adaptive materials and systems that respond to changes in the environment to perform in the most profitable way. Scientific strides and technological maturity in the field are linked to the interdisciplinary efforts at universities, government and industry. SMASIS aims at assembling world experts across engineering and scientific disciplines such as mechanical, aerospace, electrical, materials, and civil engineering, as well as biology, physics and chemistry, to discuss the latest findings and trends in this fruitful area of research.

Published
2016

47. Teaching Tips – Gute Lehre ist kein Glücksfall!

Author

Kiefer, Björn, Metz-Göckel, Hellmuth, Syrou, Meni, Quellmelz, Matthia, Baumert, Britta, Haertel, Tobias, Terkowsky, Claudius, Schumacher, Eva-Maria, Schmitz, Daniela, Ruschin, Sylvia, and May, Dominik

Subjects
Hochschuldidaktik
Abstract

Fragen wir die Teilnehmerinnen und Teilnehmer unserer hochschuldidaktischen Weiterbildungen nach ihren Erwartungen, so nennen sie an erster Stelle immer „konkrete Hilfestellungen für den Lehralltag“. Schauen wir genauer hin, wie diese Hilfestellungen aussehen könnten, so zeigen sich deutliche Unterschiede in den Zielgruppen der Lehrenden. Stehen sie noch am Anfang ihrer Lehrkarriere, wünschen sie sich besonders Hilfestellungen, die den Einstieg in die Lehre erleichtern bzw. ihnen helfen, effektiv zu lehren und effiziente Lehrende zu werden. Für erfahrene Lehrende hingegen, die zudem mit Prüfungen betraut sind, stellt sich darüber hinaus oft die Frage nach der Auswahl von Prüfungsformen und die Bewertung von Prüfungsleistungen, vor allem da ihnen die Modulabschlussprüfungen eine größere Bandbreite an Formen alternativer Leistungsbewertung eröffnen. Beiden Zielgruppen gemein ist die Suche nach praktischer Hilfe bei der Professionalisierung ihres didaktischen Handelns. Mit Patentrezepten ist ihnen dabei nicht gedient. Das Interesse der Lehrenden an Methoden wird gleichwohl als ein legitimes Interesse gesehen, denn Methodenwissen spielt bei der Vermittlung von Wissen eine große Rolle. Besonders im Kontext von Medialisierung werden die Vermittlungsmethoden wichtiger. Die hochschuldidaktische Weiterbildung will den Lehrenden bei der Entwicklung ihres individuellen und professionellen Lehrprofils theoretisch begründet, serviceorientiert zur Seite stehen. Seit Mitte der 1990er Jahre ist die didaktische Ausbildung für die Lehre nicht mehr dem Zufall überlassen, ebenso wie es keine Notwendigkeit mehr ist, sich hochschuldidaktisches Wissen autodidaktisch anzueignen. Die Entwicklung der Hochschuldidaktik und damit einhergehend die Entwicklung von curriculumbasierten, modularisierten und systematisch aufgebauten Weiterbildungsprogrammen hat in den letzten Jahrzehnten nicht zuletzt dank verschiedener Programme und Initiativen (z.B. Länderprogramme „Qualität der Lehre“, „Exzellenzinitiative“, BMBF, Stifterverband) eine enorme Steigerung erfahren. Die Qualität der Lehre an Universitäten ist zu einem Wettbewerbsfaktor unter den Universitäten geworden und kann zu ihrer Profilbildung beitragen. Die Lehrkompetenz kann als Schlüssel für die Qualität der Lehre gesehen werden und ist ein Merkmal akademischer Personalentwicklung. Dieses Journal soll in kleinem Rahmen als praxisorientierter Ratgeber auftreten. Es soll darüber hinaus das Interesse an hochschuldidaktischer Weiterbildung wecken, Lust machen, sich mit der eigenen Lehre auseinanderzusetzen, sich den kollegialen Fragen der anderen Teilnehmer/inne/n in den Workshops zu stellen, gemeinsam mit ihnen und uns, den Hochschuldidaktikern und Hochschuldidaktikerinnen, mögliche Antworten aufzuspüren und so das eigene Lehrrepertoire zu erweitern., Journal Hochschuldidaktik;2013, 1+2, Journal Hochschuldidaktik ; 24. Jahrgang 2013 Heft 1 und 2

Published
2013
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