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个人简介
Thomas Gernay, an assistant professor in civil and systems engineering, explores and designs innovative alternatives to traditional structural fire protection. His pioneering computational modeling techniques and risk-based methodologies, which are used worldwide, are helping structural engineers, architects, and builders create buildings that are better able to avoid or withstand fire and other man-made and natural threats.
Gernay founded and leads Johns Hopkins’ Multi-Hazard Resilient Structures research group. Focusing on computational mechanics, performance-based design, and the development of numerical analysis software, his team seeks to enhance the resiliency of structures through the development of computer simulations that model the performance of entire buildings under extreme hazards. In particular, he has an interest and noted expertise in studying the effects of fire and multi-hazard scenarios involving a fire on materials, structures, and systems.
Gernay is the co-author of SAFIR®, an innovative software used by more than 250 institutions, engineers, and researchers worldwide to model accurately and predict a structure’s response to fire. His lab also studies the impact of critical infrastructure damage, which can disrupt a city’s ability to function, and develops methods to minimize damage and recovery time to enhance community resiliency.
Gernay founded and leads Johns Hopkins’ Multi-Hazard Resilient Structures research group. Focusing on computational mechanics, performance-based design, and the development of numerical analysis software, his team seeks to enhance the resiliency of structures through the development of computer simulations that model the performance of entire buildings under extreme hazards. In particular, he has an interest and noted expertise in studying the effects of fire and multi-hazard scenarios involving a fire on materials, structures, and systems.
Gernay is the co-author of SAFIR®, an innovative software used by more than 250 institutions, engineers, and researchers worldwide to model accurately and predict a structure’s response to fire. His lab also studies the impact of critical infrastructure damage, which can disrupt a city’s ability to function, and develops methods to minimize damage and recovery time to enhance community resiliency.
研究兴趣
论文共 159 篇作者统计合作学者相似作者
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Construction and Building Materials (2024): 135851
Fire Safety Journalpp.104139, (2024)
JOURNAL OF CONSTRUCTIONAL STEEL RESEARCH (2024): 108517
Resilient Cities and Structuresno. 2 (2024): 20-33
FIRE SAFETY JOURNAL (2024): 104036-104036
Patrick Bamonte, Negar Elhami Khorasani,Jean‐Marc Franssen,Thomas Gernay, Hitesh Lakhani, MZ Naser, Mohsen Roosefid
Bulletin - FIBpp.8-26, (2023)
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JOURNAL OF STRUCTURAL ENGINEERINGno. 2 (2023)
Bulletin - FIBpp.80-106, (2023)
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