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中国科学院兰州化学物理研究所机构知识库
KMS Lanzhou Institute of Chemical Physics,Chinese Academy of Sciences
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固体润滑国家重点实... [96]
中国科学院材料磨损... [96]
青岛研发中心/青岛... [14]
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Bioinspired PcBN/hBN fibrous monolithic ceramic: High-temperature crack resistance responses and self-lubricating performances
期刊论文
Journal of advanced ceramics, 2022, 卷号: 11, 期号: 9, 页码: 1391-1403
Authors:
Chen SN(陈淑娜)
;
Fan HZ(樊恒中)
;
Su YF(苏云峰)
;
Li JC(李继承)
;
Song JJ(宋俊杰)
;
Hu LT(胡丽天)
;
Zhang YS(张永胜)
Adobe PDF(3153Kb)
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Submit date:2022/11/28
Strong, tough and high temperature self-lubricated fibrous monolithic ceramic in Al2O3/Cr2O3 system
期刊论文
Tribology International, 2022, 卷号: 172, 期号: 0, 页码: 107646
Authors:
Chen SN(陈淑娜)
;
Su YF(苏云峰)
;
Sun QA(孙秋安)
;
Fan HZ(樊恒中)
;
Song JJ(宋俊杰)
;
Hu LT(胡丽天)
Adobe PDF(15259Kb)
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Submit date:2022/11/28
Role of SiC nanoparticles on tribological properties of atmospheric plasma sprayed 5 wt% SiC–Ni60 coatings
期刊论文
Tribology International, 2020, 期号: 146, 页码: 106220
Authors:
Xu, Jinyong
;
Zhang, Chao
;
Sun, Guodong
;
Xiao, Jinkun
;
Zhang, Ligang(张利刚)
;
Zhang, Ga(张嘎)
Adobe PDF(3366Kb)
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View/Download:98/0
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Submit date:2020/12/14
Nanoparticles
Microstructure
Tribological performance
Boundary lubrication
Solvent-free ionic silica nanofluids: Smart lubrication materials exhibiting remarkable responsiveness to weak electrical stimuli
期刊论文
Chemical Engineering Journal, 2020, 期号: 383, 页码: 123202
Authors:
Guo, Yuexia(郭月霞)
;
Liu Guoqiang
;
Li, Guitao(李贵涛)
;
Zhao, Fuyan(赵福燕)
;
Zhang, Ligang(张利刚)
;
Guo, Feng
;
Zhang, Ga(张嘎)
Adobe PDF(4427Kb)
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Submit date:2020/11/26
Solvent-free ionic nanofluid
Lubrication
Electrical responsiveness
Adsorption layer
Tribofilm
Role of carbon nanotubes on growth of a nanostructured double-deck tribofilm yielding excellent self-lubrication performance
期刊论文
Carbon, 2020, 期号: 161, 页码: 445-455
Authors:
Che, Qinglun
;
Li, Hao
;
Zhang, ligang(张利刚)
;
Zhao, Fuyan(赵福燕)
;
Li, Guitao(李贵涛)
;
Guo, Yufeng
;
Zhang, Jianjun
;
Zhang, Ga(张嘎)
Adobe PDF(3546Kb)
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Submit date:2020/11/26
MWCNTs
ZrO2 nanoparticles
Double-deck tribofil
Self-lubrication
Wear resistance
Highly Dispersed Ag2S Nanoparticles: In-situ Synthesis, Size Control, and Modification to Mechanical and Tribological Properties towards Nanocomposite Coatings
期刊论文
Nanomaterials, 2019, 卷号: 9, 期号: 1308, 页码: 1-14
Authors:
Yanjun Ma(马彦军)
;
Zhicheng Zhao(赵志成)
;
Yanbo Xian(鲜彦博)
;
Hongqi Wan(万宏启)
;
Yinping Ye(冶银平)
;
Lei Chen(陈磊)
;
Huidi Zhou(周惠娣)
;
Jianmin Chen(陈建敏)
Adobe PDF(3288Kb)
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Submit date:2019/11/24
in situ synthesis
size control
Ag2S nanoparticles
mechanical properties
tribological properties
nanocomposite coating
Effective sugar-derived organic gelator for three different types of lubricant oils to improve tribological performance
期刊论文
Friction, 2019, 期号: 暂无, 页码: 1-14
Authors:
Zhang RC(张若冲)
;
Liu XQ(刘旭庆)
;
Guo ZG(郭志光)
;
Cai MR(蔡美荣)
;
Shi L(石雷)
Adobe PDF(4949Kb)
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Submit date:2019/11/15
gel lubricant
supermolecular assembly
rheological property
tribological performance
lubricating mechanism
Solvent-free ionic nanofluids based on graphene oxide-silica hybrid as highperformance lubricating additive
期刊论文
Applied Surface Science, 2019, 期号: 471, 页码: 482-493
Authors:
Guo Yuexia(郭月霞)
;
Guo Lihe(郭丽和)
;
Li Guitao(李贵涛)
;
Zhang Ligang(张利刚)
;
Zhao Fuyan(赵福燕)
;
Wang Chao(王超)
;
Zhang Ga(张嘎)
Adobe PDF(4954Kb)
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Submit date:2019/01/02
Nanofluids
Lubrication Additive
Graphene Oxide
Silica Nanoparticles
Tribofilm
Regulating microstructures of interpenetrating polyurethane-epoxy networks towards high-performance water-lubricated bearing materials
期刊论文
Tribology International, 2019, 期号: 131, 页码: 454–464
Authors:
Yu Ping(喻萍)
;
Li Guitao(李贵涛)
;
Zhang Ligang(张利刚)
;
Zhao Fuyan(赵福燕)
;
Chen Shoubing(陈守兵)
;
Dmitriev, Andrey I.
;
Zhang, Ga(张嘎)
Adobe PDF(6236Kb)
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Submit date:2018/11/29
Polyurethane/epoxy Interpenetration Networks
Water Lubrication
Tribological Properties
Novel Design of Copper–Graphite Self-Lubricating Composites for Reliability Improvement Based on 3D Network Structures of Copper Matrix
期刊论文
Tribology Letters, 2018, 卷号: 66, 期号: 4, 页码: 143
Authors:
姜小芳
;
宋俊杰
;
苏云峰
;
张永胜
;
胡丽天
Adobe PDF(4441Kb)
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Submit date:2018/11/23
Mechanical Seals
Fatigue Crack Propagation
Self-lubrication
Wear Mechanisms