Mechanical Properties Research Lab (MPRL)

GT Home → CoE Home → MPRL → Computational Material Science in the MPRL

• Welcome
• Mission & Vision
• Supporting CoE's Strategic Directions
  • Energy
  • Environment
  • Health
  • Security
• Research
• Recent Initiatives
  • Materials Design
  • Properties of Nanomaterials and Nanostructures
  • Advanced Materials for Transportation and Energy
• Participating Faculty
• Facilities
• MPRL Usage & Policies
• Virtual Tour
• Educational Opportunities
  • Certificate Program
• Computational Material Science in the MPRL
• Contact Information

Computational Material Science in the MPRL

Click on an image to view a larger version

	Dislocation interactions with twin boundaries in Cu using atomistics (Zhu et al.)
	Dislocation nucleation from asymmetric S3 twin boundaries in Cu (McDowell et al.)
	Tools have been developed to build and analyze 3D polycrystalline single and multiphase microstructures (McDowell et al.)
	Effects of crystallographic texture in dual phase Ti-6Al-4V polycrystals (McDowell et al.)
	Crystal plasticity simulations of edge of contact cumulative plastic flow in fretting fatigue of Ti-6Al-4V (Neu and McDowell)
	Use of cohesive finite element method to study arbitrary fracture patterns in a brittle dual phase composite materials (Zhou et al.)

Contact Us  |   Legal & Privacy Information  |   Accountability

©2013 The Mechanical Properties Research Laboratory (MPRL) at the Georgia Tech College of Engineering
Atlanta, GA 30332-0245  •  Phone: 404.894.5128  •   ICPA  T0752101