Ye Tian
Jilin University
24 Papers
50 Citations
Ye Tian is an academic researcher from Jilin University. The author has contributed to research in topics: Modal analysis & Adiabatic shear band. The author has an hindex of 5, co-authored 22 publications.
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Papers
Decreasing the dielectric constant and water uptake by introducing hydrophobic cross-linked networks into co-polyimide films
Ningning Song,Hongyan Yao,Tengning Ma,Tianjiao Wang,Kaixiang Shi,Ye Tian,Bo Zhang,Shiyang Zhu,Yunhe Zhang,Shaowei Guan +9 more
TL;DR: In this article, a series of novel co-polyimides are successfully prepared based on cross-linkable diamine monomer by a two-step pathway combining polymerization and crosslinking reaction.
77
Patent
Positive pressure adjustable micro nano stick slip inertia drive platform
Zhao Hongwei,Hu Xiaoli,Mingkun Shao,Li Jianping,Han Qu,Luquan Ren,Xiaoqin Zhou,Fan Zunqiang,Ye Tian,Bai Meilin +9 more
- 23 Oct 2013
TL;DR: In this article, a positive pressure adjustable micro nano stick slip inertia drive platform is proposed for high precision drive and machining, large-scale integrated circuits and micro operation robots, and has the advantages of simple structure, stable work, high efficiency, less investment, high benefit and the like.
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Influences of sequential cuts on micro-cutting process studied by smooth particle hydrodynamic (SPH)
TL;DR: In this paper, the effect of the cutting edge radius on residual stress was investigated and the simulation results showed that the chip curled severely and the minimum chip thickness decreased in the second cut because of residual stress in the machined surface after the first cut.
24
Improving resistive switching characteristics of polyimide-based volatile memory devices by introducing triphenylamine branched structures
Ye Tian,Ying Song,Hongyan Yao,Huaxuan Yu,Haiwei Tan,Ningning Song,Kaixiang Shi,Bo Zhang,Shiyang Zhu,Shaowei Guan +9 more
TL;DR: In this article, two solution-processable polyimide (PI-6FDA) and co-polyimide(CoPI)-based memory devices with triphenylamine (TPA)-derived structure as electron donor units and trifluoromethyl-containing phthalimide as electron acceptor units, were designed and synthesized for polymer memory device application.
16
HOMO-controlled donor-acceptor contained polyimide for nonvolatile resistive memory device
TL;DR: In this article, two triazole-based donor-acceptor contained polyimides with similar LUMO levels but different HOMO levels are designed and synthesized by introducing the pendant groups with different electron-donating ability.
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