Author Page for Amit Misra

In situ Transmission Electron Microscopy Investigation of Nucleation of GP Zones Under Natural Aging in Al-Zn-Mg Alloy

Number of pages: 21 Posted: 08 Jun 2021

Arya Chatterjee, Liang Qi and Amit Misra

University of Michigan at Ann Arbor - Department of Materials Science and Engineering, University of Oxford - Department of Materials and University of Michigan at Ann Arbor - Department of Materials Science and Engineering

Downloads 131 (561,789)

Citation 6

Abstract:

2.

In Situ Micro-Pillar Compression to Examine Radiation-Induced Hardening Mechanisms of FeCrAl Alloys

Number of pages: 29 Posted: 01 Jun 2020

Yuchi Cui, Eda Aydogan, Jonathan G. Gigax, Stuart A. Maloy, Yongqiang Wang, Amit Misra and Stuart A. Maloy

Government of the United States of America - Center for Integrated Nanotechnologies, Government of the United States of America - MST-8 Materials Science in Radiation and Dynamics Extremes Group, Government of the United States of America - Center for Integrated Nanotechnologies, Government of the United States of America - MST-8 Materials Science in Radiation and Dynamics Extremes Group, Government of the United States of America - MST-8 Materials Science in Radiation and Dynamics Extremes Group, University of Michigan at Ann Arbor - Department of Materials Science and Engineering and Government of the United States of America - MST-8 Materials Science in Radiation and Dynamics Extremes Group

Downloads 128 (565,439)

Abstract:

3.

Interface-Mediated Plasticity of Nanoscale Al-Al ₂Cu Eutectics

Number of pages: 40 Posted: 26 Nov 2019

Guisen Liu, Shujuan Wang, Amit Misra and Jian Wang

University of Nebraska at Lincoln - Department of Mechanical and Materials Engineering, University of Michigan at Ann Arbor - Department of Materials Science and Engineering, University of Michigan at Ann Arbor - Department of Materials Science and Engineering and University of Nebraska at Lincoln - Department of Mechanical and Materials Engineering

Downloads 114 (626,371)

Abstract:

4.

Compositionally-Driven Formation Mechanism of Hierarchical Morphologies in Co-Deposited Immiscible Alloy Thin Films

Number of pages: 18 Posted: 07 Apr 2021

Max Powers, James A. Stewart, Remi Dingreville, Benjamin Derby and Amit Misra

University of Michigan at Ann Arbor - Department of Materials Science and Engineering, Sandia National Laboratories - Energetic Materials Dynamic & Reactive Science Department, Sandia National Laboratories, Albuquerque, Los Alamos National Laboratory - Center for Integrated Nanotechnologies and University of Michigan at Ann Arbor - Department of Materials Science and Engineering

Downloads 52 (1,041,696)

Citation 3

Amit Misra

University of Michigan at Ann Arbor - Department of Materials Science and Engineering

4

425

9

Scholarly Papers (4)

In situ Transmission Electron Microscopy Investigation of Nucleation of GP Zones Under Natural Aging in Al-Zn-Mg Alloy

Abstract:

In Situ Micro-Pillar Compression to Examine Radiation-Induced Hardening Mechanisms of FeCrAl Alloys

Abstract:

Interface-Mediated Plasticity of Nanoscale Al-Al ₂Cu Eutectics

Abstract:

Compositionally-Driven Formation Mechanism of Hierarchical Morphologies in Co-Deposited Immiscible Alloy Thin Films

Abstract:

Amit Misra

University of Michigan at Ann Arbor - Department of Materials Science and Engineering

4

425

9

Scholarly Papers (4)

In situ Transmission Electron Microscopy Investigation of Nucleation of GP Zones Under Natural Aging in Al-Zn-Mg Alloy

Abstract:

In Situ Micro-Pillar Compression to Examine Radiation-Induced Hardening Mechanisms of FeCrAl Alloys

Abstract:

Interface-Mediated Plasticity of Nanoscale Al-Al 2Cu Eutectics

Abstract:

Compositionally-Driven Formation Mechanism of Hierarchical Morphologies in Co-Deposited Immiscible Alloy Thin Films

Abstract:

Interface-Mediated Plasticity of Nanoscale Al-Al ₂Cu Eutectics