J
Jianguo Lin
Researcher at Imperial College London
Publications - 326
Citations - 8617
Jianguo Lin is an academic researcher from Imperial College London. The author has contributed to research in topics: Creep & Hot stamping. The author has an hindex of 41, co-authored 319 publications receiving 6679 citations. Previous affiliations of Jianguo Lin include Coventry Health Care & University of Birmingham.
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A crystal plasticity study of the necking of micro-films under tension
TL;DR: An integrated crystal viscoplastic modeling process has been developed to account for the effect of microstructure in the mechanical response of polycrystalline materials as mentioned in this paper, where grain distributions, including size, shape and orientation, are generated automatically based on probability theories using VGRAIN software.
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A virtual crystal plasticity simulation tool for micro-forming
TL;DR: In this article, a virtual integrated micro-mechanics simulation tool is presented, that was developed within the framework of crystal plasticity (CP) theory, and a polycrystalline Finite Element (FE) model was produced by introducing grain size, orientations and distribution patterns using VGRAIN software.
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An accelerated springback compensation method for creep age forming
TL;DR: In this article, a new accelerated springback compensation method integrating springback mechanism of a plate with creep-ageing behaviour of materials has been developed for CAF tool design to manufacture both singly and varyingly curved products.
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An integrated model to predict residual stress reduction by multiple cold forging operations in extra-large AA7050 T-section panels
TL;DR: In this article, a finite element model has been developed to determine the effectiveness of a cold compression technique to reduce the large residual stresses generated from quenching solution heat treated T-section components of aluminium alloy AA7050.
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Strain-based continuum damage mechanics model for predicting FLC of AA5754 under warm forming conditions.
TL;DR: In this paper, a strain-based continuum damage mechanics (CDM) model for predicting AA5754 under warm forming conditions is presented, which is formulated and calibrated based on two different sets of experimental data; isothermal uniaxial tensile data at temperature range of 20-300°C and strain rate range of 0.001-10 s-1.