S
Stefanie Feih
Researcher at RMIT University
Publications - 109
Citations - 4588
Stefanie Feih is an academic researcher from RMIT University. The author has contributed to research in topics: Ultimate tensile strength & Glass fiber. The author has an hindex of 35, co-authored 100 publications receiving 3518 citations. Previous affiliations of Stefanie Feih include University of Kuala Lumpur & The Welding Institute.
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Energy absorption characteristics of metallic triply periodic minimal surface sheet structures under compressive loading
TL;DR: In this paper, the authors investigated the mechanical properties and energy absorption abilities of three types of TPMS sheet structures (Primitive, Diamond, and Gyroid) fabricated by selective laser melting (SLM) with 316 L stainless steel under compression loading and classified their failure mechanisms and printing accuracy with the help of numerical analysis.
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Review of fire structural modelling of polymer composites
Adrian P. Mouritz,Stefanie Feih,Everson Kandare,Z. Mathys,A.G. Gibson,P.E. Des Jardin,Scott W. Case,Brian Y. Lattimer +7 more
TL;DR: In this article, a critical review of research progress in modelling the structural response of polymer matrix composites exposed to fire is presented, where models for analysing the thermal, chemical, physical, and failure processes that control the structural responses of laminates and sandwich composite materials in fire are reviewed.
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Design of graded lattice structure with optimized mesostructures for additive manufacturing
TL;DR: In this paper, a shape metamorphosis technology is incorporated to construct the graded mesostructures with essential interconnections, which enables an optimized load-bearing solution through optimization of geometries of global structures and downscale mesostructure, as well as global distributions of spatially-varying graded meshes.
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Tensile properties of carbon fibres and carbon fibre–polymer composites in fire
TL;DR: In this paper, the effect of fire on the tensile properties of carbon fibres is experimentally determined, and the softening mechanism of T700 carbon fiber following exposure to simulated fires of different temperatures (up to 700 °C) and atmospheres (air and inert).
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Modelling the tension and compression strengths of polymer laminates in fire
TL;DR: In this article, the authors presented a model for predicting the time-to-failure of polymer laminates loaded in tension or compression and exposed to one-sided radiant heating by fire.