J
Jinsong Leng
Researcher at Harbin Institute of Technology
Publications - 619
Citations - 20854
Jinsong Leng is an academic researcher from Harbin Institute of Technology. The author has contributed to research in topics: Shape-memory polymer & Composite number. The author has an hindex of 57, co-authored 526 publications receiving 14901 citations. Previous affiliations of Jinsong Leng include Beijing University of Technology & Nanyang Technological University.
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A phenomenological model for simulating the chemo-responsive shape memory effect in polymers undergoing a permeation transition
TL;DR: A phenomenological model for studying the constitutive relations and working mechanism of the chemo-responsive shape memory effect (SME) in shape memory polymers (SMPs) is presented in this paper.
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Analysis of small-scale topology and macroscale mechanical properties of shape memory chiral-lattice metamaterials
TL;DR: In this article, the design strategy was based on a network structure with a periodic lattice topology, which was formed by three outer rings connected to the central ring via ligaments.
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Remote actuation of light activated shape memory polymers via D-shaped optical fibres
Madhubhashitha Herath,Jayantha Ananda Epaarachchi,Mainul Islam,Fenghua Zhang,Jinsong Leng,Liang Fang,Cheng Yan,Gang-Ding Peng,Wolfgang Schade +8 more
TL;DR: In this article, the capability of D-shaped optical fibres to send near infrared (NIR) light into a light activated shape memory polymer composite (LASMPC) which generates the adequate photothermal effect necessary for the shape recovery process of relatively large samples is presented.
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Effects of accelerated aging on thermal, mechanical, and shape memory properties of a cyanate-based shape memory polymer: II atomic oxygen
TL;DR: In this paper, a chemical crosslinked cyanate-based SMP (Tg~206°C) was exposed to atomic oxygen in a ground simulation system, and the irradiation effects of atomic oxygen were investigated in terms of microscopic morphology, chemical structure, thermal stability, mechanical properties, loss factor and the storage modulus.
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Cooperative dynamics of heuristic swelling and inhibitive micellization in double-network hydrogels by ionic dissociation of polyelectrolyte
TL;DR: In this paper, a cooperative model has been proposed for the double network (DN) hydrogel, which synchronously undergoes heuristic swelling and inhibitive micellization by the ionic dissociation of polyelectrolyte.