Qing peng

ORCID iD
https://orcid.org/0000-0002-8281-8636
  • Also known as
  • Show details Hide details
computational material mechanics

Sources:
Qing peng (2015-05-20)

  • Country
  • Show details Hide details
United States

Sources:
Qing peng (2016-01-24)

  • Keywords
  • Show details Hide details
multiscale modeling - solid mechanics - nanomechanics - condensed matter physics - computational materials science

Sources:
Qing peng (2014-01-15)

  • Websites
  • Show details Hide details
website

Sources:
Qing peng (2014-07-23)

Mendeley profile

Sources:
Elsevier - Mendeley (2016-12-13)

  • Other IDs
  • Show details Hide details
Scopus Author ID: 54909338000

Sources:
Scopus to ORCID (2013-08-26)

Biography

Qing Peng is a Research Fellow inNuclear Engineering and Radiological Sciences, University of Michigan, Ann Arbor. He received his Ph.D. in physics from University of Connecticut in 2005, M.S. from Binghamton University, and B.S. from Peking University. His research focuses on advanced materials mechanics, especially radiation effect, using multiscale and first-principles computational modeling and simulation. He is the main inventor of the QCDFT (Quasi-Continuum Density Functional Theory) method which allows full quantum simulation of materials at micron scales and beyond. With QCDFT, he and coworkers have successfully unveiled the strengthening mechanism of solid solution and hydrogen assisted cracking in aluminum. He also studied the nonlinear mechanical behaviors of two-dimensional materials, providing a safe-guide of their applications. In addition, he studied the mechanics coupling with radiation hardness in 2D materials, radiation damage in metals, alloys, crystals, and amorphous materials, and pyroelectrics.
  • : , ,

    {{group.getActive().startDate.year}}-{{group.getActive().startDate.month}}-{{group.getActive().startDate.day}} to present {{group.getActive().endDate.year}}-{{group.getActive().endDate.month}}-{{group.getActive().endDate.day}} {{group.getActive().endDate.year}}-{{group.getActive().endDate.month}}-{{group.getActive().endDate.day}} |  ()
    • Show Details Hide Details
    Organization identifiers
    {{group.getActive().orgDisambiguatedName}}: {{group.getActive().orgDisambiguatedCity}}, {{group.getActive().orgDisambiguatedRegion}}, {{group.getActive().orgDisambiguatedCountry}}
    Other organization identifiers provided by {{group.getActive().disambiguationSource.value}}
    • {{orgDisambiguatedExternalIdentifier.identifierType}}: {{orgDisambiguatedExternalIdentifier.preferred}} (preferred), {{orgDisambiguatedExternalIdentifierAll}}{{$last ? '' : ', '}}
    Created
    Source: {{(group.getActive().sourceName == null || group.getActive().sourceName == '') ? group.getActive().source : group.getActive().sourceName}}
No education added yet
  • : , ,

    {{group.getActive().startDate.year}}-{{group.getActive().startDate.month}}-{{group.getActive().startDate.day}} to present {{group.getActive().endDate.year}}-{{group.getActive().endDate.month}}-{{group.getActive().endDate.day}} {{group.getActive().endDate.year}}-{{group.getActive().endDate.month}}-{{group.getActive().endDate.day}} |  ()
    • Show Details Hide Details
    Organization identifiers
    {{group.getActive().orgDisambiguatedName}}: {{group.getActive().orgDisambiguatedCity}}, {{group.getActive().orgDisambiguatedRegion}}, {{group.getActive().orgDisambiguatedCountry}}
    Other organization identifiers provided by {{group.getActive().disambiguationSource.value}}
    • {{orgDisambiguatedExternalIdentifier.identifierType}}: {{orgDisambiguatedExternalIdentifier.preferred}} (preferred), {{orgDisambiguatedExternalIdentifierAll}}{{$last ? '' : ', '}}
    Created
    Source: {{(group.getActive().sourceName == null || group.getActive().sourceName == '') ? group.getActive().source : group.getActive().sourceName}}
No employment added yet
No publications added yet