E
Elyas Goli
Researcher at University of Illinois at Urbana–Champaign
Publications - 14
Citations - 505
Elyas Goli is an academic researcher from University of Illinois at Urbana–Champaign. The author has contributed to research in topics: Polymerization & Dicyclopentadiene. The author has an hindex of 8, co-authored 14 publications receiving 258 citations. Previous affiliations of Elyas Goli include University of California, Berkeley & Sharif University of Technology.
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Journal ArticleDOI
Rapid energy-efficient manufacturing of polymers and composites via frontal polymerization
Ian D. Robertson,Mostafa Yourdkhani,Polette J. Centellas,Jia En Aw,Douglas G. Ivanoff,Elyas Goli,Evan M. Lloyd,Leon M. Dean,Nancy R. Sottos,Philippe H. Geubelle,Jeffrey S. Moore,Scott R. White +11 more
TL;DR: Frontal polymerization of dicyclopentadiene is used to generate thermoset polymers and composite materials with much lower energy requirements and cure times than are needed in conventional oven or autoclave curing approaches.
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Frontal Polymerization of Dicyclopentadiene: A Numerical Study.
TL;DR: A finite-element-based numerical study of the initiation and propagation of a polymerization front in dicyclopentadiene (DCPD) allows to draw a direct link between the cure kinetics model and the key characteristics of the front, i.e., front velocity and characteristic length scales.
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Frontal polymerization of unidirectional carbon-fiber-reinforced composites
Elyas Goli,Nil A Parikh,Mostafa Yourdkhani,N.G. Hibbard,Jeffrey S. Moore,Nancy R. Sottos,Philippe H. Geubelle +6 more
TL;DR: In this paper, a homogenized thermo-chemical model is formulated to simulate the manufacturing of unidirectional composites made of carbon fibers embedded in a thermosetting dicyclopentadiene (DCPD) matrix using frontal polymerization.
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Manufacturing of unidirectional glass-fiber-reinforced composites via frontal polymerization: A numerical study
TL;DR: In this article, front polymerization is explored as a faster and energy-efficient manufacturing method for dicyclopentadiene (DCPD) matrix, E-glass-fiber-reinforced composites through a series of numerical simulations based on a homogenized reaction-diffusion model.
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Mixed mode fracture analysis of adiabatic cracks in homogeneous and non-homogeneous materials in the framework of partition of unity and the path-independent interaction integral
TL;DR: In this article, the path independent interaction integral has been implemented in the framework of the extended finite element method for mixed mode adiabatic cracks under thermo-mechanical loadings particularly in orthotropic non-homogenous materials.