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Topics

Biomaterials

8 Symposia



Characterization

11 Symposia



Digital Transformation

6 Symposia



Functional Materials, Surfaces and Devices

16 Symposia



Circular Materials

4 Symposia



Modelling and Simulation

6 Symbosia



Processing and Synthesis

7 Symbosia



Structural Materials

11 Symbosia

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Congress
Welcome Address Scientific Coordination Guest Country Keydates & Deadlines
Downloads FAQ Congress Organizer & Contact
Program
Scientific Program Plenary Speakers Poster Session Congress Party
Participation
Tickets Hybrid Event Experience Congress Venue About Darmstadt (Germany) Travel
Information DB Congress Ticket Child Care Security Measures
Topics
Biomaterials Characterization Digital Transformation Functional Materials,
Surfaces and Devices Circular Materials Modelling and Simulation Processing and
Synthesis Structural Materials
Call for Abstracts
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Congress Program Participation Topics Call for Abstracts Exhibition & Sponsoring
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Topics
Biomaterials Characterization Digital Transformation Functional Materials,
Surfaces and Devices Circular Materials Modelling and Simulation Processing and
Synthesis Structural Materials

Characterization

Topic
C: Characterization


Characterization remains at the core of materials science and engineering,
propelling advancements and innovations in various sectors. This topic seeks to
create a vibrant platform for discussions and presentations on the latest
developments in this field, concentrating on the evolution and application of
characterization techniques at macro, micro, nano, and atomic scales. As we
stand at the cusp of a new era, the explicit consideration of the 3D nature of
microstructures gains precedence. Simultaneously, in-situ characterization and
in operando techniques are gaining solid ground, promising unprecedented
insights into material science. High throughput characterization is emerging as
a powerful tool, promising a transformative impact on the field. Dive deep into
this interdisciplinary topic, fostering collaborations and insights that promise
to shape the future of material science.

Symposium
C01: Decoding Material Microstructures - The Future of Characterization -
General Symposium Topic C
Special Symposium
C02: Tomographic and radiographic imaging with X-rays, synchrotron radiation and
neutrons: experimental techniques, applications and data
Special Symposium
C03: 3D, Correlative, Multiscale and Multimodal Imaging for Advanced Material
Science
Special Symposium
C04: Software Tools for Processing and Contextualizing Materials
Characterization Data for FAIR Research Data Management
Special Symposium
C05: In-situ mechanical testing and numerical modeling of small-scale mechanical
behaviour – a COST MecaNano Symposium
Special Symposium
C06: In-situ microstructural analysis of composites and multiphase materials
Special Symposium
C07: In-situ analysis of materials via X-ray, neutron or electron diffraction
Special Symposium
C08: Multi-Method High-Resolution Microscopy for Materials Science
Special Symposium
C09: Multiscale Materials Characterization through 3D Diffraction Microstructure
Imaging
Special Symposium
C10: Opto-thermal measurement techniques
Special Symposium
C11: Tribology: understanding mechanisms of friction and wear across scales and
disciplines
Topic coordinator
Prof. Dr.
Marta-Lena Antti

Luleå University of Technology (SE)

Prof. Dr.-Ing.
Frank Mücklich

Saarland University (DE)

Prof. Dr.
Ronald Schnitzer

Montanuniversität Leoben (AT)

 * Symposium
   C01: Decoding Material Microstructures - The Future of Characterization -
   General Symposium Topic C
   
   Unlock the complexities and innovations in the world of material
   characterization at this expansive symposium. With a foundational focus on
   examining the evolution of material microstructures, we'll explore the
   genesis of these structures, from their atomic roots to their macro
   manifestations. Presentations and discussions will zero in on cutting-edge
   characterization techniques, from in-situ investigations to high throughput
   analysis. This event aims to bring together a consortium of interdisciplinary
   experts, making it a must-attend for everyone keen on understanding the
   materials of tomorrow.
   
   
   
   Symposium Organizer
   Prof. Dr.
   Marta-Lena Antti
   
   Luleå University of Technology (SE)
   
   Prof. Dr.-Ing.
   Frank Mücklich
   
   Saarland University (DE)
   
   Prof. Dr.
   Ronald Schnitzer
   
   Montanuniversität Leoben (AT)

 * Special Symposium
   C02: Tomographic and radiographic imaging with X-rays, synchrotron radiation
   and neutrons: experimental techniques, applications and data
   
   Non-destructive imaging methods using penetrating radiation such as hard
   X-rays and neutrons provide insight into heterogeneous materials and
   engineering components. In combination with tomography they yield a fully
   three-dimensional virtual representation of the internal architecture of
   materials and structures, i.e. for materials characterization and
   non-destructive method for scientific and industrial applications. In
   addition, multi-modal imaging techniques, time-resolved imaging and
   hierarchical multi-scale studies (from material to component) are rapidly
   gaining importance as the systems under study become increasingly complex.
   Classic lab-based X-ray sources are well complemented with large-scale
   synchrotron sources (or even X-ray free-electron lasers) and with Neutron
   sources. 
   
   
   The aim of the symposium is to provide an exchange information platform
   between researchers involved in the rapidly developing experimental
   techniques and users applying these techniques in the field of materials
   science and engineering.  Contributions dealing with tomography and
   radiography using synchrotron and neutron sources will be presented focusing
   on advances on time/spatial resolution as well as on the simultaneous
   combination of tomography/radiography with other contrast methods.
   
   
   
   
   Symposium Organizer
   Dr.
   Yunhui Chen
   
   RMIT University (AU)
   
   Dr.-Ing.
   Alexander Rack
   
   European Synchrotron Radiation Facility - ESRF (FR)
   
   Univ.-Prof. Dr. techn.
   Guillermo Requena
   
   German Aerospace Center (DLR) (DE)

 * Special Symposium
   C03: 3D, Correlative, Multiscale and Multimodal Imaging for Advanced Material
   Science
   
   We invite contributions developing and applying advanced high-dimensional
   imaging methods to drive material science. The major focus of this symposium
   is on the extra and unique information that becomes available when going
   beyond standard 2D data acquisition routines which are not available
   otherwise. The scope of the symposium covers 2D/3D imaging approaches based
   on FIB-SEM-, neutron- or synchrotron tomography, micro-XCT and X-ray
   microscopy for ex- and in-situ experiments as well as correlative measurement
   workflows incorporating structural and chemical information from multiple
   sources and across multiple length scales. Further we address the challenges
   of high-dimensional image data acquisition, processing, and image
   quantification utilizing novel computational approaches and infrastructure
   including conventional- and artificial intelligence-based analysis algorithms
   .Examples of relevant material classes include, but are not limited to,
   energy materials, materials for nano-microelectronics, lightweight materials,
   new structural alloys, polymers, biological materials, and composites.
   
   
   
   Symposium Organizer
   Dr.
   Roland Brunner
   
   Materials Center Leoben Forschung GmbH (AT)
   
   Dr.
   Benjamin Tordoff
   
   Carl Zeiss Microscopy Deutschland GmbH (DE)

 * Special Symposium
   C04: Software Tools for Processing and Contextualizing Materials
   Characterization Data for FAIR Research Data Management
   
   The quality and quantitative significance of microstructure characterization
   experiments benefits from a concerted and well-informed usage of different
   instruments and software tools. Examples include microscopy, spectroscopy,
   tomography, or mechanical testing of materials.
   
   There is a realized demand and increased interest for storing and processing
   the metadata and numerical data of such experiments more completely
   and in better alignment with the aims of FAIR data stewardship principles.
   While a plethora of data repositories has made tasks like finding and
   accessing
   research data easier, tasks like making results more interoperable and
   reproducible remain a challenge:
   Different views and expectations about what is considered relevant of an
   experiment and many different representations
   provided by software tools need to be more standardized and harmonized to
   enable true progress.
   
   Therefore, this symposium invites for a cross-community and
   cross-NFDI-consortia exchange between experimentalists, theoreticians,
   software developers, and knowledge engineers to exchange about their work
   within the following topical areas:
   
   
    * Open software tools and open frameworks which can support experimentalists
      with data management
    * Strategies for including technology partners and scientists to enable a
      more complete extraction of metadata from commercial software and
      instruments
    * Research and user stories on how to navigate the zoo of file formats and
      suggestions how to harmonize the pieces of information contained therein.
    * Work on electronic lab notebooks and their role in supporting scientists
      with documenting experiments and adding pieces of information that are not
      stored in files
    * Tools for storing experimental data in repositories and materials science
      databases
    * Application of artificial intelligence in characterization methods
    * High-throughput software tools for parameter sensitivity studies that
      interface with materials databases
    * Efficient storage, handling, and management of
      large-volume/high-dimensional datasets
   
   
   
   
   
   Symposium Organizer
   Dr.
   Steffen Brinckmann
   
   Max-Planck-Institut für Eisenforschung GmbH (DE)
   
   Dr.-Ing.
   Markus Kühbach
   
   Humboldt University (DE)

 * Special Symposium
   C05: In-situ mechanical testing and numerical modeling of small-scale
   mechanical behaviour – a COST MecaNano Symposium
   
   Mechanical behavior at the micron and nanoscale is gaining increasing
   importance in a wide variety of different materials due to the
   miniaturization of components and systems as well as the introduction of
   hierarchical multi-scale material designs. Therefore, a rapid development of
   innovative in-situ and small-scale testing techniques is necessary, which
   allows further insights in the acting deformation processes and fundamental
   deformation and failure mechanisms. At the same time, these small
   length-scales provide the chance for a direct handshake of experimental
   investigations and computer simulations. Promoting this link will speed up
   the necessary development of material physics based, predictive models of
   small-scale mechanical behaviour.
   
   This symposium, which will be organized together with working groups 1 and 2
   of the European Network for the Mechanics of Matter at the Nano-Scale
   (MecaNano Cost Action21121, https://mecanano-gm23.sciencesconf.org), will
   mainly focus on both, the development, challenges, and application of new
   advanced mechanical in-situ testing techniques as well as simulation methods
   to foster a better understanding of the local mechanical behavior of
   different materials and microstructural constituents. Besides possible size
   effects in the deformation behavior in that scaling regime, combined
   experimental, simulation, and machine learning approaches are also of special
   interest and should be discussed.
   
   Topics of interest include, but are not limited to:
   
   
   
    * Advanced small scale testing techniques (e.g. Nanoindentation,
      µ-compression, µ-tension testing, µ-bending)
    * Testing at elevated and cryogenic temperatures, under various atmospheres,
      such as hydrogen, in different fields, e.g. electro-magnetic fields as
      well as in different environmental conditions, e.g. corrosive environments
      or inert environments for e.g. battery materials
    * Simulation and modelling approaches to complement small scale mechanical
      testing, from the atomistic to the microstructural level; multiscale and
      multiphysics simulations
    * Investigating and understanding and size effects in the deformation
      behavior, including interface mediated deformation behavior and the
      coupling environment and deformation
    * New testing approaches, analysis concepts, and corresponding challenges in
      the micro and nano scale mechanical testing, innovative evaluation of
      localized phenomena by use of digital image correlation, acoustic and
      thermal measurements or combined full-field measurements
    * Correlation with high resolution microscopy analysis as well as in-situ
      and operando testing using optical microscopy, SEM, TEM, APT, AFM, Raman,
      or X-ray
    * Machine-learning and data-science based approaches
   
   
   
   
   
   Symposium Organizer
   Dr.
   André Clausner
   
   Fraunhofer Institute for Ceramic Technologies and Systems IKTS (DE)
   
   Website
   Prof. Dr.
   Karsten Durst
   
   Technische Universität Darmstadt (DE)
   
   PD Dr. habil.
   Rebecca Janisch
   
   Ruhr-Universität Bochum (DE)
   
   Website
   Dr.
   Verena Maier-Kiener
   
   Montanuniversität Leoben (AT)
   
   Website
 * Special Symposium
   C06: In-situ microstructural analysis of composites and multiphase materials
   
   In-situ analyses are essential to understand microstructural changes of
   materials under different conditions regarding their processing and target
   applications. This is especially true for composite materials, since each
   component can behave differently and the relation between their structure and
   properties is more complex. Therefore, this symposium aims to bring together
   experts on the field of in-situ characterization methods for composites and
   multiphase materials. The focus is on the evaluation of microstructural
   changes of composites during operando or specific conditions including, but
   not limited to, under mechanical load, at high/low temperatures, different
   atmospheres or during chemical or physical reactions. The symposium covers
   the evaluation of all types of composites based on polymers, metals and
   ceramics, as well as macroscopic multiphase materials like porous materials.
   Original presentations about the application of techniques such as computer
   tomography, microscopy and imaging, X-ray diffraction, acoustic emission,
   ultra sound and electrical resistance monitoring are welcome. The use of two
   or more techniques in tandem to overcome the usual problems of each method is
   encouraged. Since the measured data is normally too big and/or complex to be
   evaluated by normal data processing techniques, the use of advanced data
   analysis such as machine learning is of particular interest.
   
   
   
   
   Symposium Organizer
   Prof. Dr.
   Kurosch Rezwan
   
   University of Bremen (DE)
   
   Dr.-Ing.
   Renato Saint Martin Almeida
   
   University of Bremen (DE)

 * Special Symposium
   C07: In-situ analysis of materials via X-ray, neutron or electron diffraction
   
   In-situ diffraction using X-rays, neutrons, or electrons has become an
   indispensable tool in contemporary materials research. The relevance of
   in-situ diffraction stems from the ability to provide crucial insights into
   the structural, chemical, and dynamic properties of materials under (close
   to) real-world conditions.
   
   The recent years have brought rapid advancements in instrumentation and data
   analysis, opening new opportunities for studying a wide range of structures
   and behaviours. Innovative multimodal approaches allow to correlate
   diffraction-based insights with complementary information, for instance by
   combining diffraction with spectroscopy, calorimetry, tomographic or
   thermographic imaging. Powerful numerical tools like machine learning
   facilitate efficient and swift processing of large and complex datasets.
   
   The objective of this symposium is to discuss recent advances in
   characterizing material behaviour via in-situ diffraction techniques using
   X-rays, neutrons or electrons. The focus lies on evaluating microstructural
   changes for specific or operando scenarios including (but not limited to)
   mechanical loading, heating/cooling, physical or chemical reactions, or
   exposure to various atmospheres. Contributions on all diffraction techniques
   are welcome, related (but not constrained) to the following topics:
   
   
   
    * Structural and functional materials
    * Catalytic processes and chemical reactions
    * Energy materials incl. batteries and fuel cells
    * 1D, 2D and 3D nanomaterials
    * Geological materials and processes
    * Recycling and sustainability
   
   
   
   
   
   Symposium Organizer
   Prof. Dr.
   Matthias Bönisch
   
   KU Leuven (BE)
   
   Dr.
   Christoph Gammer
   
   Austrian Academy of Sciences (AT)
   
   Dr.
   Steven Van Petegem
   
   Paul Scherrer Institute PSI (CH)
   
   Dr.
   Haoliang Wang
   
   Dongguan University of Technology (DGUT) (CN)

 * Special Symposium
   C08: Multi-Method High-Resolution Microscopy for Materials Science
   
   Many material characteristics and phenomena highly depend on the materials
   microstructure on the atomic scale. For in-depth understanding, revealing the
   chemical and crystallographic nature by advanced characterization methods is
   vital.
   
   Atom probe tomography is one of the well-established high-resolution methods
   for investigating local three-dimensional chemical compositions, of different
   phases, interfaces and grain boundaries, as well as crystal defects (e.g.
   dislocations). However, gaining additional crystallographic information is
   not always possible. This disadvantage can be overcome by the combination
   with crystallographic analyses, in particular with transmission electron
   microscopy, but also with advanced scanning electron microscopic methods
   (e.g. electron backscatter diffraction), in order to understand the interplay
   between the crystallographic structure of the materials and their chemical
   composition, both influencing the overall macroscopic properties.
   
   The aim of this symposium is to bring together experts with a background in
   technique development with specialists, who tackle cutting-edge research
   questions by applying these advanced characterization techniques. We welcome
   contributions applying those techniques, alone or in various combinations to
   structural and functional materials, as metals and alloys, nano- or
   multilayer systems, semiconductors and ceramics.
   
   Topics of interest include, but are not limited to:
   
   
   
    * High-resolution microscopy techniques (e.g. atom probe tomography,
      transmission electron microscopy, and (HR-)scanning electron microscopy,
      electron backscatter diffraction)
    * Correlative approaches for gaining chemical and crystallographic
      information
    * Correlative microstructural investigations for microstructure-property
      relationships
    * Implementation of digital image correlation for advanced analysis
    * In-situ and in-operando testing at various temperatures and atmospheres
      (e.g. high-temperature EBSD, environmental SEM/TEM, cryo-APT workflows)
    * Workflows for advanced data combination, correlation, and evaluation
   
   
   
   Symposium Organizer
   Dr. Dipl.-Ing.
   Anna Sophie Jelinek
   
   Montanuniversität Leoben (AT)
   
   Dr.
   Irmgard Weißensteiner
   
   Montanuniversität Leoben (AT)

 * Special Symposium
   C09: Multiscale Materials Characterization through 3D Diffraction
   Microstructure Imaging
   
   Materials science drives innovation in modern society, necessitating advanced
   tools for comprehensive understanding. The hierarchical arrangement of
   structures, from atomic defects to grains, profoundly influences material
   properties. Traditional electron microscopy, though offering atomic-scale
   resolution, falls short of capturing dynamic processes and multi-scale
   structures within bulk materials. In response, x-ray and neutron-based
   diffraction-contrast imaging techniques have emerged as potent instruments
   for 3D multiscale material exploration, enabling in-situ and in-operando
   experiments. This symposium spotlights these cutting-edge techniques with two
   clear goals: (i) Advancing Diffraction-Based Imaging: Explore innovative
   approaches and applications for characterizing materials, structures, and
   properties. Dive into complex materials science characterization challenges
   through presentations and discussions. (ii) Exploring Collaborative
   Opportunities: Foster interaction among researchers using diverse
   synchrotron, neutron and lab-based diffraction-contrast imaging methods,
   emphasizing synergies. Discuss collective advancements in sample
   environments, data analysis platforms, and instrumentation.
   
   Topics of interest include but are not limited to:
   
   
   
    * Applications in Cutting-Edge Materials Research: Showcasing
      diffraction-based characterization contributions to research on novel
      materials, composites, and functional materials.
    * Instrumentation and Methodological Developments: Highlighting advancements
      in instrumentation, data acquisition, and analysis methods.
    * Sample Environment Innovations: Investigating integration with novel
      sample environments, such as in-situ and in-operando setups.
    * Data Analysis and Computational Approaches: Presenting efficient data
      analysis strategies, visualization, and integration of computational
      simulations with experimental data.
    * Cross-Technique Synergies: Identifying opportunities for collaboration and
      knowledge transfer among imaging methods.
   
   
   
   By hosting this symposium, we aim to nurture the 3D diffraction-contrast
   imaging community's growth and drive continued advancements in
   materials-centered research. Our collaborative efforts strive to find
   innovative, sustainable solutions for contemporary societal challenges.
   
   
   
   Symposium Organizer
   Prof. Dr.
   Ashley Bucsek
   
   University of Michigan (US)
   
   Dr.
   Can Yildirim
   
   European Synchrotron Radiation Facility (FR)
   
   Yubin Zhang
   
   Technical University of Denmark (DK)

 * Special Symposium
   C10: Opto-thermal measurement techniques
   
   Abstract. Optical measurements are well suited for non-contact measurements
   and are, therefore, more and more applied to in-situ process control. E.g.
   the restriction in fossil energy resources and the increasing demand for an
   optimum efficiency, the control of energy conversion processes are gaining
   more attention. Also modern additive manufacturing techniques need in-situ
   process control to obtain well fabricated parts. To fulfil these
   requirements, the measurement of process parameters, in particular
   temperature, is necessary in order to operate the processes at its most
   efficient range, thus producing less waste or gain validated parts. In
   particular the parameters of the materials used for such high-temperature
   processes must be known to have sufficient accuracy at the relevant high
   temperatures in order to optimize the efficiency of the process, to simulate
   the process in advance to prevent unnecessary waste, and to ensure a safe and
   efficient process. As most of these processes operate at elevated
   temperatures, contactless measurement methods, in particular opto-thermal
   methods are used. The proposed Symposium aims to present basic and applied
   research regarding optothermal measurement technology (including optical
   sensors, detectors, radiation thermometers, thermografic devices, etc.) and,
   in addition, dedicated applications of such opto-thermal technologies in the
   above mentioned or other fields.
   
   We are particularly interested in (but not limited to) contributions that
   focus on topics such as:
   
   
   
    * Optothermal sensor technology concepts;
    * Application of optothermal sensor technologies in material science;
    * Application of optothermal sensor technologies in energy technologies;
    * Application of optothermal sensor technologies in process technologies.
   
   
   
   
   
   Symposium Organizer
   Prof. Dr.
   Jürgen Hartmann
   
   Technical University of Applied Science Würzburg-Schweinfurt (DE)
   
   Dr.
   Jochen Manara
   
   Center for Applied Energy Research e.V. (DE)

 * Special Symposium
   C11: Tribology: understanding mechanisms of friction and wear across scales
   and disciplines
   
   Friction and wear occur in a wide variety of technical components, and in
   many cases reduce energy efficiency of operations and lifetimes of
   components. The impact of tribological losses on economy is huge, due to the
   high number of affected systems.
   
   Understanding underlying mechanisms and material reactions is key for the
   design of resilient tribosystems with low wear and friction. This challenge
   can be addressed on different scales and by various approaches – from
   analyzing friction of single asperities and wear on the nanoscale, to the
   design of components with advantageous contact geometries and loads. The
   development of novel coatings or surface modifications, modelling of chemical
   processes at the surface or microstructural alterations, in-situ observations
   of processes in the contact or a lubricant are just few examples of research
   with the goal of improving our understanding of tribological problems.
   
   This symposium brings together experts with a background in numerical and
   experimental tribology. We focus on all time- and length-scales relevant to
   tribology, from component testing on the macroscale down to atomistic-scale,
   with the common goal of strategically tailoring long-lasting tribosystems.
   
   
   
   
   Symposium Organizer
   Dr.
   Steffen Brinckmann
   
   Max-Planck-Institut für Eisenforschung GmbH (DE)
   
   Dr.
   Sylvie Descartes
   
   INSA Lyon (FR)
   
   Prof. Dr.
   Christian Greiner
   
   Karlsruhe Institute of Technology (KIT) (DE)
   
   Prof. Dr.-Ing.
   Stefanie Hanke
   
   University of Duisburg-Essen (DE)



MSE 2024
24 - 26 September 2024 | Hybrid Congress in Darmstadt (Germany) & Online MSE
2024 24 - 26 September 2024 | Hybrid Congress in Darmstadt (Germany) & Online


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 * Congress
   * Welcome Address
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   * Child Care
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 * Topics
   * Biomaterials
   * Characterization
   * Digital Transformation
   * Functional Materials, Surfaces and Devices
   * Circular Materials
   * Modelling and Simulation
   * Processing and Synthesis
   * Structural Materials
 * Call for Abstracts
   * Abstract Submission & Management
   * Template
 * Exhibition & Sponsoring
 * Review MSE 2022

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