Materials properties characterization in the most extreme environments

There is an ever-increasing need for material systems to operate in the most extreme environments encountered in space exploration, energy production, and propulsion systems. To effectively design materials to reliably operate in extreme environments, we need an array of tools to both sustain lab-sc...

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Published inMRS bulletin Vol. 47; no. 11; pp. 1128 - 1142
Main Authors Schreiber, Daniel K., Schwaiger, Ruth, Heilmaier, Martin, McCormack, Scott J.
Format Journal Article
LanguageEnglish
Published Cham Springer International Publishing 01.11.2022
Springer Nature B.V
Cambridge University Press (CUP)
Subjects
Applied and Technical Physics
Characterization and Evaluation of Materials
Chemistry and Materials Science
Energy Materials
Extreme environments
Material properties
Materials Engineering
Materials Science
Mechanical tests
Nanotechnology
Propulsion system design
Review Article
Space exploration
System effectiveness
Materials in extreme environments
Extreme chemical environments
Properties at extreme temperatures
Extreme mechanical testing
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Abstract There is an ever-increasing need for material systems to operate in the most extreme environments encountered in space exploration, energy production, and propulsion systems. To effectively design materials to reliably operate in extreme environments, we need an array of tools to both sustain lab-scale extreme conditions and then probe the materials properties across a variety of length and time scales. Within this article, we examine the state-of-the-art experimental systems for testing materials under extreme environments and highlight the limitations of these approaches. We focus on three areas: (1) extreme temperatures, (2) extreme mechanical testing, and (3) chemically hostile environments. Within these areas, we identify six opportunities for instrument and technique development that are poised to dramatically impact the further understanding and development of next-generation materials for extreme environments. Graphical abstract
AbstractList There is an ever-increasing need for material systems to operate in the most extreme environments encountered in space exploration, energy production, and propulsion systems. To effectively design materials to reliably operate in extreme environments, we need an array of tools to both sustain lab-scale extreme conditions and then probe the materials properties across a variety of length and time scales. Within this article, we examine the state-of-the-art experimental systems for testing materials under extreme environments and highlight the limitations of these approaches. We focus on three areas: (1) extreme temperatures, (2) extreme mechanical testing, and (3) chemically hostile environments. Within these areas, we identify six opportunities for instrument and technique development that are poised to dramatically impact the further understanding and development of next-generation materials for extreme environments. Graphical abstract
There is an ever-increasing need for material systems to operate in the most extreme environments encountered in space exploration, energy production, and propulsion systems. To effectively design materials to reliably operate in extreme environments, we need an array of tools to both sustain lab-scale extreme conditions and then probe the materials properties across a variety of length and time scales. Within this article, we examine the state-of-the-art experimental systems for testing materials under extreme environments and highlight the limitations of these approaches. We focus on three areas: (1) extreme temperatures, (2) extreme mechanical testing, and (3) chemically hostile environments. Within these areas, we identify six opportunities for instrument and technique development that are poised to dramatically impact the further understanding and development of next-generation materials for extreme environments.
Abstract There is an ever-increasing need for material systems to operate in the most extreme environments encountered in space exploration, energy production, and propulsion systems. To effectively design materials to reliably operate in extreme environments, we need an array of tools to both sustain lab-scale extreme conditions and then probe the materials properties across a variety of length and time scales. Within this article, we examine the state-of-the-art experimental systems for testing materials under extreme environments and highlight the limitations of these approaches. We focus on three areas: (1) extreme temperatures, (2) extreme mechanical testing, and (3) chemically hostile environments. Within these areas, we identify six opportunities for instrument and technique development that are poised to dramatically impact the further understanding and development of next-generation materials for extreme environments. Graphical abstract
Author Heilmaier, Martin
Schreiber, Daniel K.
Schwaiger, Ruth
McCormack, Scott J.
Author_xml – sequence: 1
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  surname: Schreiber
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– sequence: 2
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  surname: Schwaiger
  fullname: Schwaiger, Ruth
  organization: Institute of Energy and Climate Research, Forschungszentrum Jülich
– sequence: 3
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  surname: Heilmaier
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  givenname: Scott J.
  orcidid: 0000-0002-0715-3451
  surname: McCormack
  fullname: McCormack, Scott J.
  email: sjmccormack@ucdavis.edu
  organization: Department of Materials Science and Engineering, University of California, Davis
BackLink https://www.osti.gov/biblio/1905949$$D View this record in Osti.gov
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Keywords Materials in extreme environments
Extreme chemical environments
Properties at extreme temperatures
Extreme mechanical testing
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Snippet There is an ever-increasing need for material systems to operate in the most extreme environments encountered in space exploration, energy production, and...
Abstract There is an ever-increasing need for material systems to operate in the most extreme environments encountered in space exploration, energy production,...
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SubjectTerms Applied and Technical Physics
Characterization and Evaluation of Materials
Chemistry and Materials Science
Energy Materials
Extreme environments
Material properties
Materials Engineering
Materials Science
Mechanical tests
Nanotechnology
Propulsion system design
Review Article
Space exploration
System effectiveness
Title Materials properties characterization in the most extreme environments
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https://www.osti.gov/biblio/1905949
Volume 47
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