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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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Total Views
420
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internal: 6
External: 414
Domestic: 291
Abroad: 129
Annual Views
16
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External: 16
Domestic: 10
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Visits
1.
Tribological behaviors of epoxy composites under water lubrication..
[311]
2.
Role of SiC submicron-particles on tribofilm growth at water-lubri..
[299]
3.
Distinct tribological mechanisms of various oxide nanoparticles ad..
[249]
4.
Significance of combined functional nanoparticles for enhancing tr..
[243]
5.
High lubricity and electrical responsiveness of solvent-free ionic..
[231]
6.
The role of carbon fibers and silica nanoparticles on friction and..
[226]
7.
A New Protocol Toward High Output TENG with Polyimide as Charge St..
[217]
8.
Solvent-free ionic nanofluids based on graphene oxide-silica hybri..
[203]
9.
Impact of counterpart materials and nanoparticles on the transfer ..
[197]
10.
Significant friction and wear reduction by assembling two individu..
[194]
11.
Ultralow Friction and Wear of Polymer Composites under Extreme Unl..
[192]
12.
Formation mechanisms and functionality of boundary films derived f..
[185]
13.
Hybrid effect of ZnS sub-micrometer particles and reinforcing fibe..
[180]
14.
Soft/Hard-Coupled Amphiphilic Polymer Nanospheres for Water Lubric..
[179]
15.
Significantly enhanced wear resistance of PEEK by simply filling w..
[177]
16.
Regulating microstructures of interpenetrating polyurethane-epoxy ..
[175]
17.
PEEK reinforced with low-loading 2D graphitic carbon nitride nanos..
[174]
18.
Significantly enhancing tribological performance of epoxy by filli..
[165]
19.
Tribological performance of PPS composites under diesel lubricatio..
[155]
20.
Tribological investigations of glass fiber reinforced epoxy compos..
[151]
21.
Covalently attached mesoporous silica–ionic liquid hybrid nanomat..
[151]
22.
Exploring the influence of counterpart materials on tribological b..
[150]
23.
Comparative study on tribological mechanisms of polyimide composit..
[150]
24.
Switching Brake Materials To Extremely Wear-Resistant Self- Lubric..
[148]
25.
Comparative study of tribochemistry of ultrahigh molecular weight ..
[146]
26.
Tribological Behaviors of Carbon Fiber Reinforced Epoxy Composites..
[141]
27.
Significance of an in-situ generated boundary film on tribocorrosi..
[135]
28.
热喷涂NiCrBSi基耐磨涂层的研究进展
[133]
29.
Tuning the tribofilm nanostructures of polymer-on-metal joint repl..
[133]
30.
Impact of reinforcing fillers' properties on transfer film structu..
[131]
31.
聚苯硫醚复合材料在柴油润滑状态下的摩擦学性能研究
[128]
32.
Distinct tribological behaviors of polyimide composites when rubbi..
[124]
33.
Enhancing the tribological performance of PEEK exposed to water-lu..
[120]
34.
Mesoscale modeling of the mechanical and tribological behavior of ..
[118]
35.
Modeling of the stress-strain behavior of an epoxy-based nanocompo..
[118]
36.
Extraordinarily Low Friction and Wear of Epoxy-Metal Sliding Pairs..
[117]
37.
一种适用于水润滑的超高分子量聚乙烯多元纳米复合材料
[117]
38.
Formation and function mechanisms of nanostructured tribofilms of ..
[114]
39.
The role of surface topography in the evolving microstructure and ..
[113]
40.
Exploring the beneficial role of tribofilms formed from an epoxy-b..
[112]
41.
Impact of counterface topography on the formation mechanisms of na..
[112]
42.
Effect of heat treatment on structure and property evolutions of a..
[112]
43.
Role of hydrolysable nanoparticles on tribological performance of ..
[104]
44.
海水环境中聚合物防腐抗磨复合涂层
[103]
45.
Comparative Study on the Wear Behaviour of Two High-Temperature-Re..
[101]
46.
聚合物复合材料的摩擦学行为影响因素
[101]
47.
Distinct tribological mechanisms of silica nanoparticles in epoxy ..
[99]
48.
Role of SiC nanoparticles on tribological properties of atmospheri..
[97]
49.
Tribological behavior of PEEK-based materials under mixed and boun..
[95]
50.
热喷涂金属基防滑耐磨涂层的研究进展
[95]
51.
MXene-Al2O3 synergize to reduce friction and wear on epoxy-steel c..
[95]
52.
Effects of temperature and atmosphere on microstructure and tribol..
[93]
53.
Role of Mo on tribological properties of atmospheric plasma-spraye..
[92]
54.
Tribofilm growth at sliding interfaces of PEEK composites and stee..
[89]
55.
Role of carbon nanotubes on growth of a nanostructured double-deck..
[88]
56.
Exploring the potential of Raman spectroscopy for the identificati..
[85]
57.
一种适用于柴油润滑的聚苯硫醚基自润滑纳米复合材料及其制备方法
[85]
58.
Solvent-free ionic silica nanofluids: Smart lubrication materials ..
[79]
59.
一种无溶剂二氧化硅纳米类流体及其应用
[76]
60.
Significant improvement on tribological performance of polyimide c..
[75]
61.
一种多元氧化物填充聚醚醚酮基自润滑纳米复合材料及其制备方法
[73]
62.
一种二元环保聚醚醚酮基刹车片材料及其制备方法
[73]
63.
Role of reinforcement types and silica nanoparticles on tribofilm ..
[68]
64.
一种具有材料协同效应的两级式塑料滑动轴承
[62]
65.
适用于油润滑工况的环氧树脂基纳米复合材料的制备方法
[62]
66.
A novel eco-friendly water lubricant based on in situ synthesized ..
[61]
67.
Wear behaviors of 5 wt % SiO2–Ni60 coatings deposited by atmosph..
[61]
68.
Different tribological behaviors in multilayer 2D graphene and 3D ..
[60]
69.
石墨烯量子点-纳米颗粒-环氧树脂复合材料的制备方法
[58]
70.
一种互穿网络结构聚合物多元纳米复合材料的制备方法
[58]
71.
Tribological properties of polyimide composites reinforced with fi..
[53]
72.
Role of tribochemistry reactions of B4C on tribofilm growth at a P..
[53]
73.
Tribological behaviors of novel epoxy nanocomposites filled with s..
[51]
74.
适用于水润滑工况的环氧树脂基纳米复合材料的制备方法
[49]
75.
BN–SiC ensembles to form tribofilm with excellent shielding effec..
[45]
76.
凹凸棒石增强环氧树脂的摩擦性能
[41]
77.
一种纳米或微米陶瓷颗粒填充的聚醚醚酮基人工关节材料
[39]
78.
一种自润滑复合材料及其制备方法和应用
[37]
79.
一种多元纳米颗粒填充的聚醚醚酮基人工关节材料及应用
[37]
80.
一种无溶剂氧化石墨烯负载二氧化硅纳米类流体及其应用
[34]
81.
一种无溶剂碳纳米管类流体的应用
[34]
82.
一种复合低硫燃油及其制备方法
[15]
83.
无溶剂纳米类流体润滑材料的功能化设计及摩擦学机理研究
[5]
Downloads
1.
Solvent-free ionic nanofluids based on graphene oxide-silica hybri..
[9]
2.
Tribological behaviors of epoxy composites under water lubrication..
[7]
3.
High lubricity and electrical responsiveness of solvent-free ionic..
[7]
4.
A New Protocol Toward High Output TENG with Polyimide as Charge St..
[6]
5.
Significantly enhancing tribological performance of epoxy by filli..
[6]
6.
Extraordinarily Low Friction and Wear of Epoxy-Metal Sliding Pairs..
[6]
7.
Regulating microstructures of interpenetrating polyurethane-epoxy ..
[6]
8.
Switching Brake Materials To Extremely Wear-Resistant Self- Lubric..
[5]
9.
Soft/Hard-Coupled Amphiphilic Polymer Nanospheres for Water Lubric..
[5]
10.
The role of carbon fibers and silica nanoparticles on friction and..
[4]
11.
Enhancing the tribological performance of PEEK exposed to water-lu..
[4]
12.
PEEK reinforced with low-loading 2D graphitic carbon nitride nanos..
[4]
13.
Exploring the beneficial role of tribofilms formed from an epoxy-b..
[3]
14.
Mesoscale modeling of the mechanical and tribological behavior of ..
[3]
15.
Tribological investigations of glass fiber reinforced epoxy compos..
[3]
16.
The role of surface topography in the evolving microstructure and ..
[3]
17.
Comparative Study on the Wear Behaviour of Two High-Temperature-Re..
[3]
18.
Effect of heat treatment on structure and property evolutions of a..
[3]
19.
Tribological performance of PPS composites under diesel lubricatio..
[3]
20.
聚苯硫醚复合材料在柴油润滑状态下的摩擦学性能研究
[3]
21.
Significance of combined functional nanoparticles for enhancing tr..
[3]
22.
Covalently attached mesoporous silica–ionic liquid hybrid nanomat..
[3]
23.
Significance of an in-situ generated boundary film on tribocorrosi..
[3]
24.
Role of hydrolysable nanoparticles on tribological performance of ..
[3]
25.
一种多元氧化物填充聚醚醚酮基自润滑纳米复合材料及其制备方法
[3]
26.
海水环境中聚合物防腐抗磨复合涂层
[3]
27.
Formation and function mechanisms of nanostructured tribofilms of ..
[2]
28.
Exploring the potential of Raman spectroscopy for the identificati..
[2]
29.
Impact of counterpart materials and nanoparticles on the transfer ..
[2]
30.
热喷涂NiCrBSi基耐磨涂层的研究进展
[2]
31.
Formation mechanisms and functionality of boundary films derived f..
[2]
32.
Significant friction and wear reduction by assembling two individu..
[2]
33.
Impact of reinforcing fillers' properties on transfer film structu..
[2]
34.
Hybrid effect of ZnS sub-micrometer particles and reinforcing fibe..
[2]
35.
Significantly enhanced wear resistance of PEEK by simply filling w..
[2]
36.
Ultralow Friction and Wear of Polymer Composites under Extreme Unl..
[2]
37.
Comparative study of tribochemistry of ultrahigh molecular weight ..
[2]
38.
一种二元环保聚醚醚酮基刹车片材料及其制备方法
[2]
39.
Tuning the tribofilm nanostructures of polymer-on-metal joint repl..
[2]
40.
Different tribological behaviors in multilayer 2D graphene and 3D ..
[2]
41.
Impact of counterface topography on the formation mechanisms of na..
[1]
42.
Tribological Behaviors of Carbon Fiber Reinforced Epoxy Composites..
[1]
43.
Exploring the influence of counterpart materials on tribological b..
[1]
44.
Distinct tribological mechanisms of silica nanoparticles in epoxy ..
[1]
45.
Distinct tribological mechanisms of various oxide nanoparticles ad..
[1]
46.
Comparative study on tribological mechanisms of polyimide composit..
[1]
47.
Effects of temperature and atmosphere on microstructure and tribol..
[1]
48.
一种具有材料协同效应的两级式塑料滑动轴承
[1]
49.
一种适用于水润滑的超高分子量聚乙烯多元纳米复合材料
[1]
50.
Solvent-free ionic silica nanofluids: Smart lubrication materials ..
[1]
51.
聚合物复合材料的摩擦学行为影响因素
[1]
52.
凹凸棒石增强环氧树脂的摩擦性能
[1]
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