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Daniele Malomo

Title: 
Assistant Professor
Academic title(s): 

Ph.D.

Daniele Malomo
Contact Information
Email address: 
daniele.malomo [at] mcgill.ca
Biography: 

ProfessorÌýMalomo is the director of , a cutting-edge structural engineering research lab at McGill University working onÌýearthquake engineering, old structures, climate change-adapted design, numerical and experimental simulations. Since 2021, he serves in the Board of Directors of theÌýCanadian chapter of theÌýInternational Council on Monuments and Sites (ICOMOS), as well as an expert member of the International Scientific Committee on the Analysis and Restoration of Structures of Architectural Heritage (ISCARSAH). His work has recently been awarded by The Masonry Society (TMS), Pacific Earthquake Engineering Research Center (PEER) and the International Association of Bridge and Structural Engineering (IABSE).

Degree(s): 
  • Post-Doctoral Research Fellow, UC Berkeley (USA)
  • Ph.D., University of Pavia (Italy)
  • Visiting Researcher, University of Cambridge (UK)
  • M.Sc., University of Rome "La Sapienza" (Italy)
Areas of expertise: 
  • Structural and earthquake engineering
  • Old structures and bridges
  • Numerical modelling
  • Structural and environmental lab testing
  • Forensic and collapse analysis
Courses: 
  • CIVE 207Ìý- Solid MechanicsÌý- 4 Credits (Winter)
  • CIVE 463Ìý-ÌýDesign of Concrete StructuresÌý- 3 Credits (Winter)
  • CIVE 616 - Nonlinear Analysis for Buildings - 4 Credits (Fall)
  • CIVE 648 - Structural assessment and retrofit of existing buildingsÌý- 4 Credits (Fall)
Research areas: 
Structural Engineering
Current research: 
  • Seismic assessment of Eastern Canada's oldÌýmasonryÌýbuildings

  • Combined structural-energy retrofits with engineeredÌýtimber

  • Corrosion and deterioration evaluation inÌýconcreteÌýbridges

  • Climate change design adaptation for new masonry structures

  • Advanced discrete element simulation of large structures

  • Climate change design adaptation for new masonry structures

  • Advanced discrete element simulation of large structures

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