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Stepan Vladimirovitch Lomov
Researcher at Katholieke Universiteit Leuven
Publications - 601
Citations - 17556
Stepan Vladimirovitch Lomov is an academic researcher from Katholieke Universiteit Leuven. The author has contributed to research in topics: Ultimate tensile strength & Epoxy. The author has an hindex of 61, co-authored 577 publications receiving 15046 citations. Previous affiliations of Stepan Vladimirovitch Lomov include De Montfort University & Skolkovo Institute of Science and Technology.
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Simulation of the cross-correlated positions of in-plane tow centroids in textile composites based on experimental data
TL;DR: In this paper, in-plane centroids of textile composites are simulated as cross-correlated random fields using a framework based on the Karhunen-Loeve series expansion that is calibrated with experimental information from prior work.
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Tensile behaviour of thermally bonded nonwoven structures: model description
Amit Rawal,Apurv Priyadarshi,Stepan Vladimirovitch Lomov,Ignace Verpoest,Jozef Vankerrebrouck +4 more
TL;DR: In this paper, a modified micromechanical model describing the tensile behaviour of thermally bonded nonwovens is proposed by incorporating the effect of fibre re-orientation during the deformation.
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Compaction behaviour of dense sheared woven preforms: Experimental observations and analytical predictions
TL;DR: In this article, a model of fabric compaction is presented, which shows that fine features of dense woven preforms, conventionally neglected in consolidation analysis, have a significant impact on thickness and consequently on yarn crimp inside the composite.
On the formability of multi-layered fabric composites
TL;DR: In this paper, a viscous-frictional contact behavior for fabric reinforced thermoplastic polymers is proposed to reduce the occurrence of wrinkling in fabric laminate structures.
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Single carbon and glass fibre properties characterised using large data sets obtained through automated single fibre tensile testing
TL;DR: In this article, a large data set of fibre mechanical properties were acquired using automated single fibre tensile testing equipment to improve the reliability of the measurements on T700S, 34-700, T300, HS40 and HYBON 2026 fibres.