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Iwona Jasiuk
Researcher at University of Illinois at Urbana–Champaign
Publications - 218
Citations - 6914
Iwona Jasiuk is an academic researcher from University of Illinois at Urbana–Champaign. The author has contributed to research in topics: Cortical bone & Elastic modulus. The author has an hindex of 41, co-authored 197 publications receiving 5742 citations. Previous affiliations of Iwona Jasiuk include Concordia University Wisconsin & Northwestern University.
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Experimental trends in polymer nanocomposites—a review
TL;DR: A review of the recent work on polymer matrix nanocomposites is presented in this paper, where a number of composite systems with amorphous and/or crystalline polymer matrices and different nano-sized filler materials are discussed.
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TEM analysis of the nanostructure of normal and osteoporotic human trabecular bone
Matthew A Rubin,Iwona Jasiuk,Jeannette V. Taylor,Janet Rubin,Timothy Ganey,Robert P. Apkarian +5 more
TL;DR: It was found that crystals were of platelet shape with irregular edges and that there was no substantial difference in crystal length or crystal thickness between normal and osteoporotic trabecular bone.
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Mechanical properties of 3D printed polymeric cellular materials with triply periodic minimal surface architectures
TL;DR: In this paper, three types of triply periodic minimal surfaces (TPMS) are utilized to create novel polymeric cellular materials (CM), and their properties are tested to provide inputs and serve as validation for finite element modeling.
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Mechanical properties of 3D printed polymeric Gyroid cellular structures: Experimental and finite element study
Diab W. Abueidda,Mohamed Elhebeary,Cheng Shen (Andrew) Shiang,Siyuan Pang,Rashid K. Abu Al-Rub,Iwona Jasiuk +5 more
TL;DR: In this paper, the mechanical properties of polymeric gyroid-structure specimens made of PA 2200 at different relative densities were investigated both experimentally and computationally using finite element analysis.
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Multiscale modeling of elastic properties of cortical bone
TL;DR: In this paper, the authors predict the elastic constants of cortical bone by modeling its elastic response at these different scales, spanning from the nanostructural to messtructural levels, using micromechanics methods and composite materials laminate theories.