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个人简介
Under the broad heading of Structural Metallic Materials, Dr. Young's research group focuses on the development, processing, and characterization of structural alloys, specifically:
shape memory alloys (e.g. NiTi-, Cu-, Fe-based, etc…);
refractory and reactive metal alloys (e.g. Ti-, Zr-, Hf-, Nb-, Ta-based, etc…);
lightweight alloys (e.g. Al-, Mg-, Ti-based, etc…);
amorphous metal alloys;
high entropy alloys (HEAs) and complex concentrated alloys (CCAs);
In terms of characterization techniques, Dr. Young’s research group is especially focused on characterizing materials using neutron, synchrotron and laboratory X-ray scattering in combination with thermomechanical testing. In addition to characterization of structural metallic materials, Dr. young’s group also examines battery materials (Pb-based, etc…) and superconducting materials (REBCO, etc…).
Another branch of Dr. Young’s research group is focused on examining modern and ancient art historical objects by using a multitude of advanced techniques such as optical microscopy, SEM, TEM, neutron diffraction, synchrotron X-ray diffraction and imaging, DSC, FIB, nanoindentation, and 3D atom probe. Most of these cultural heritage objects are of historical significance so it is important to pay special attention to testing nondestructively and non-invasively.
shape memory alloys (e.g. NiTi-, Cu-, Fe-based, etc…);
refractory and reactive metal alloys (e.g. Ti-, Zr-, Hf-, Nb-, Ta-based, etc…);
lightweight alloys (e.g. Al-, Mg-, Ti-based, etc…);
amorphous metal alloys;
high entropy alloys (HEAs) and complex concentrated alloys (CCAs);
In terms of characterization techniques, Dr. Young’s research group is especially focused on characterizing materials using neutron, synchrotron and laboratory X-ray scattering in combination with thermomechanical testing. In addition to characterization of structural metallic materials, Dr. young’s group also examines battery materials (Pb-based, etc…) and superconducting materials (REBCO, etc…).
Another branch of Dr. Young’s research group is focused on examining modern and ancient art historical objects by using a multitude of advanced techniques such as optical microscopy, SEM, TEM, neutron diffraction, synchrotron X-ray diffraction and imaging, DSC, FIB, nanoindentation, and 3D atom probe. Most of these cultural heritage objects are of historical significance so it is important to pay special attention to testing nondestructively and non-invasively.
研究兴趣
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Willow Knight,Faith Gantz, Matthew Carl,Marcus L. Young,Brigitte Kovacevich, Dawn Crawford, Elena Torok, Fran Baas
HERITAGE SCIENCEno. 1 (2024): 1-23
Willow Knight,Faith Gantz,Matthew Carl,Marcus L. Young,Brigitte Kovacevich, Dawn Crawford, Elena Torok, Fran Baas
Heritage Scienceno. 1 (2024): 1-23
Allan N. Kolek, Sophia R. Cooper, Kristopher D. Behler,Anindya Ghoshal, Tucker W. Moore,Andrew J. Wright, Victoria L. Blair,Richard F. Reidy,Marcus L. Young,Andrey A. Voevodin,Samir M. Aouadi
INTERNATIONAL JOURNAL OF APPLIED CERAMIC TECHNOLOGYno. 2 (2024): 1010-1021
Metallurgical and Materials Transactions App.1-13, (2024)
J. Open Source Softw.no. 83 (2023): 4862-4862
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JOURNAL OF PHYSICS-ENERGYno. 2 (2023): 024020-024020
Frontiers in Metals and Alloys (2023)
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Gerardo Gamboa, Zane Wright,Diana Berman,Samir Aouadi,Marcus L. Young,Nicholas Ku,Raymond E. Brennan
MRS ADVANCESno. 2 (2023): 59-65
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