• GML-2005 : Électrochimie, corrosion et protection
• GML-3020 : Conception propriétés/choix des matériaux
• GML-3250 : Matériaux composites
• GML-4105 : Électrométallurgie

Consulter la liste de projets de recherche en cours.

Consulter la liste actuelle sur le Google Scholar ou le Scopus

• Tanji A, Feng R, Lyu Z, Sakidja R, Liaw PK, Hermawan H. Passivity of AlCrFeMnTi and AlCrFeCoNi high–entropy alloys in Hanks’ solution. Corrosion Science 210 (2023) 110828.
• Tanji A, Fan X, Sakidja R, Liaw PK, Hermawan H. Niobium addition improves the corrosion resistance of TiHfZrNbx high-entropy alloys in Hanks’ solution. Electrochimica Acta 424 (2022) 140651.
• Alavi R, Akbarzadeh AH, Hermawan H. Post-corrosion mechanical properties of absorbable open cell iron foams with hollow struts. Journal of the Mechanical Behavior of Biomedical Materials 117 (2021).
• Sotoudeh Bagha P, Khakbiz M, Sheibani S, Ebrahimi-Barough S, Hermawan H. In vitro degradation, hemocompatibility, and cytocompatibility of nanostructured absorbable Fe-Mn-Ag alloys for biomedical application. ACS Biomaterials Science and Engineering 6 (2020) 2094.
• Champagne S, Mostaed E, Safizadeh F, Ghali E, Vedani M, Hermawan H. In vitro degradation of absorbable zinc alloys in artificial urine. Materials 12 (2019) 295.
• Su Y, Champagne S, Trenggono A, Tolouei R, Mantovani D, Hermawan H. Development and characterization of bioactive CaP and Ag/CaP coatings on pure iron foam intended for bone scaffold applications. Materials & Design 148 (2018) 124.
• Dambatta MS, Sudin I, Kurniawan D, Hermawan H. Processing of Zn-3Mg alloy by equal channel angular pressing for biodegradable metal implants. Journal of King Saud University - Sciences 29 (2017) 455.
• Santos PF, Niinomi M, Liu H, Cho K, Nakai M, Trenggono A, Champagne S, Hermawan H, Narushima T. Improvement of microstructure, mechanical and corrosion properties of biomedical Ti-Mn alloys by Mo addition. Materials & Design 110 (2016) 414.
• Dambatta MS, Sudin I, Kurniawan D, Farahany S, Yahaya B, Hermawan H. Influence of thermal treatment on microstructure, mechanical and degradation properties of Zn–3Mg alloy as potential biodegradable implant material. Materials & Design 85 (2015) 431.

• Ingénieur (PEng) : Ordre des ingénieurs de l’Ontario (PEO)
• Membre du comité éditorial : Biomaterials Advances, Scientific Reports, Materials, Journal of Orthopaedic Translation
• Membre : ASM International, AMPP (NACE)

• Professeur agrégé, Université Laval (depuis 2019)
• Professeur adjoint, Université Laval (2014 - 2019)
• Senior lecturer, Universiti Teknologi Malaysia (2010 - 2014)
• Postdoctorat industriel, Québec-Espagne (2008 - 2010)
• PhD, génie de la métallurgie, Université Laval (2004 - 2009)
• BEng, MEng, génie des matériaux, Institut Teknologi Bandung (1994 - 2002)