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1. 中国学科发展战略.润滑材料 [2219]
2. A novel way towards CdS sensitized TiO2 nanoparticles [842]
3. 纳米润滑材料的研制及其摩擦学性能 [649]
4. 纳米润滑材料与技术 [643]
5. A simple route to synthesize size-controlled Ag2S core-shell nanoc.. [573]
6. 合成润滑油的研究现状及发展趋势 [536]
7. 一种水溶性润滑添加剂及其制备方法 [508]
8. Graphene oxide-iron complex: synthesis, characterization and visib.. [479]
9. 冰水浴和自然冷却条件下锂基润滑脂的流变学性能 [458]
10. Improvement of oxidative stability of trimethylolpropane trioleate.. [451]
11. Tribological properties of castor oil tris(diphenyl phosphate) as .. [445]
12. 新型润滑添加剂制备与应用 [432]
13. Tribological Properties of Alkylphenyl Diphosphates as High-Perfor.. [430]
14. Oxidative degradation of synthetic ester and its influence on trib.. [427]
15. Study on the selectivity of calcium carbonate nanoparticles under .. [419]
16. Fabrication of copper sulfide hierarchical architectures with tuna.. [418]
17. Tribological behaviour of protic ionic liquids with ammonium salts.. [407]
18. Hydroquinone bis(diphenyl phosphate) as an Antiwear/Extreme Pressu.. [384]
19. Performance and anti-wear mechanism of CaCO3 nanoparticles as a gr.. [375]
20. Ionothermal synthesis of bismuth sulfide nanostructures and their .. [374]
21. Performance and anti-wear mechanism of Cu nanoparticles as lubrica.. [373]
22. Thermal conductivity and rheological properties of graphite/oil na.. [364]
23. 3种烷基二苯胺类抗氧剂的合成与性能 [363]
24. 纳米碳酸钙胶核硼化改性对高碱值磺酸钙清净剂摩擦学性能的影响 [347]
25. 纳米碳酸钙作为润滑脂添加剂的摩擦学性能及流变行为研究 [346]
26. Tribological behaviors of novel tri(hydroxymethyl)propane esters c.. [340]
27. Nanolubricants Made of Metals [336]
28. MoS2/WS2 Quantum Dots as High-Performance Lubricant Additive in Po.. [327]
29. 一种水溶性润滑添加剂的制备及其摩擦学性能研究 [326]
30. Mass-synthesized anatase titania nanocrystals with tunable size an.. [320]
31. 含纳米添加剂的润滑体系在摩擦过程中的接触电阻研究 [320]
32. Tribological Behavior of Protic Ionic Liquids with Dodecylamine Sa.. [319]
33. A gel-sol transition phenomenon of oxidation multi-walled carbon n.. [316]
34. Tribological Properties of Three S-Alkyl-N,N-dicarboxymethyl Dithi.. [316]
35. Tribological properties of naphthyl phenyl diphosphates as antiwea.. [316]
36. Relationship between dispersion state and reinforcement effect of .. [308]
37. 硫化铋纳米材料的制备方法 [303]
38. Controlled synthesis and size-dependent thermal conductivity of Fe.. [301]
39. 硫化银半导体纳米颗粒的制备方法 [300]
40. Preparation of nano-SO42-/TiO2 catalyst and its application in est.. [293]
41. DNS-Am型可分散性SiO2纳米微粒的表征及摩擦学性能 [293]
42. Investigation of electrical contact resistance of Ag nanoparticles.. [292]
43. 一种基于氧化石墨烯修饰的纳米添加剂及其在润滑油中的应用 [291]
44. 油溶性二氧化钛纳米线的制备方法 [290]
45. A novel benztriazole derivative for enhancing the anti-oxidation p.. [290]
46. Tribological Performance of Lubricating Greases Based on Calcium C.. [289]
47. Ionic liquid-based stable nanofluids containing gold nanoparticles [288]
48. Facile preparation of cubic calcium carbonate nanoparticles with h.. [284]
49. 三羟甲基丙烷油酸壬二酸混合酯的合成及其润滑性能研究 [278]
50. 纳米铜粒子与二聚酸抗磨剂复配体系的摩擦磨损性能研究 [274]
51. A high-performance multifunctional lubricant additive for water–g.. [268]
52. Tribological performance of poly(sodium 4-styrenesulphonate) as ad.. [268]
53. Gold-ionic liquid nanofluids with preferably tribological properti.. [266]
54. Investigating the tribological behavior of PEGylated MoS2 nanocomp.. [266]
55. 硼酸盐超细颗粒润滑添加剂的制备方法 [265]
56. Surface Modification of MoS2 Nanosheets as Effective Lubricant Add.. [265]
57. Nanosized MoS2 deposited on graphene as lubricant additive in poly.. [264]
58. Tribological Study of Boron-Containing Soybean Lecithin as Environ.. [260]
59. Rheological and tribological properties of Ionic liquid-based nano.. [258]
60. Underwater superoleophobic graphene oxide coated meshes for the se.. [258]
61. The preparation and tribological investigation of Ni–P amorphous .. [257]
62. 硫化铅半导体纳米颗粒的制备方法 [257]
63. 表面修饰SiO2纳米微粒对锂基脂抗磨性能影响的研究 [257]
64. S-N型润滑添加剂的合成及其摩擦学性能研究 [256]
65. 纳米铜添加剂与磷酸三甲酚酯复配体系的摩擦学性能 [254]
66. Tribological properties of nano-calcium borate as lithium grease a.. [254]
67. 氟化镧一维纳米材料的化学制备方法 [251]
68. Reduced graphene oxides by microwave-assisted ionothermal treatmen.. [250]
69. 纳米Cu在聚乙二醇溶液中的摩擦磨损性能研究 [249]
70. 硫化物半导体纳米线的制备方法 [247]
71. 硫化铜纳米颗粒的制备方法 [247]
72. 表面修饰FeS纳米微粒的研究(Ⅱ)——摩擦学特性研究 [245]
73. Antioxidant synergism between synthesised alkylated diphenylamine .. [245]
74. Influence of antioxidant on the thermal-oxidative degradation beha.. [245]
75. 噻二唑衍生物作为润滑脂多功能添加剂的性能研究 [244]
76. Facile synthesis and characterization of hydrophobic vaterite CaCO.. [243]
77. 半导体纳米复合薄膜的制备方法 [241]
78. Novel Single-Source Precursors Approach to Prepare Highly Uniform .. [236]
79. 受阻酚衍生物多功能润滑添加剂的制备及性能研究 [234]
80. Tribological properties of polymeric aryl phosphates grafted onto .. [234]
81. New insight to the tribology-structure interrelationship of lubric.. [233]
82. Tribological Behavior of Amorphous and Crystalline Overbased Calci.. [230]
83. 表面修饰纳米铜添加剂与硫化烯烃棉籽油复合效应研究 [230]
84. Sulphate-functionalized multi-walled carbon nanotubes as catalysts.. [229]
85. 两种 P- N 型润滑添加剂的性能研究 [228]
86. Microwave-assisted synthesis of spheroidal vaterite CaCO3 in ethyl.. [226]
87. Natural Garlic Oil as a High-Performance, Environmentally Friendly.. [225]
88. 油溶性金属银纳米粉体及其制备方法 [221]
89. 喷雾干燥技术在制备超微及纳米粉体中的应用及展望 [221]
90. 油溶性锐钛矿型纳米氧化钛颗粒的制备方法 [220]
91. Viscosity modification of lubricating oil based on high-concentrat.. [214]
92. 合成润滑油在齿轮传动领域的应用展望 [213]
93. Exploring the effect of nanoparticle size on the tribological prop.. [210]
94. 表面改性FeS纳米微粒的结构表征 [209]
95. Reinforcing effect of Lewis acid–base interaction on the high-tem.. [209]
96. Tribological properties of water-solube TiO2 nanoparticles as addi.. [206]
97. Preparation of High-Temperature Lubricants by Blending Castor Oil .. [200]
98. Reinforcing effect on the tribological behaviour of nanoparticles .. [198]
99. Mechanical synthesis of chemically bonded phosphorus–graphene hyb.. [198]
100. Tribological investigation of CaF2 nanocrystals as grease additive.. [196]

Downloads

1. 中国学科发展战略.润滑材料 [1140]
2. 纳米润滑材料与技术 [63]
3. Nanolubricants Made of Metals [29]
4. Thermal conductivity and rheological properties of graphite/oil na.. [22]
5. Tribological properties of castor oil tris(diphenyl phosphate) as .. [16]
6. Tribological Properties of Alkylphenyl Diphosphates as High-Perfor.. [16]
7. Investigating the tribological behavior of PEGylated MoS2 nanocomp.. [15]
8. Performance and anti-wear mechanism of Cu nanoparticles as lubrica.. [14]
9. Tribological behaviors of novel tri(hydroxymethyl)propane esters c.. [12]
10. Tribological properties of naphthyl phenyl diphosphates as antiwea.. [12]
11. Performance and anti-wear mechanism of CaCO3 nanoparticles as a gr.. [11]
12. Tribological Performance of Lubricating Greases Based on Calcium C.. [11]
13. 一种水溶性润滑添加剂及其制备方法 [10]
14. 油溶性二氧化钛纳米线的制备方法 [10]
15. 硫化银半导体纳米颗粒的制备方法 [10]
16. Reinforcing effect of Lewis acid–base interaction on the high-tem.. [10]
17. Rheological and tribological properties of Ionic liquid-based nano.. [9]
18. Tribological Behavior of Amorphous and Crystalline Overbased Calci.. [9]
19. 一种长链烷基咪唑磷酸酯离子液体及其制备方法和应用 [9]
20. Surface Modification of MoS2 Nanosheets as Effective Lubricant Add.. [9]
21. 纳米润滑材料的研制及其摩擦学性能 [8]
22. Graphene oxide-iron complex: synthesis, characterization and visib.. [8]
23. Hydroquinone bis(diphenyl phosphate) as an Antiwear/Extreme Pressu.. [8]
24. Tribological behaviour of protic ionic liquids with ammonium salts.. [8]
25. 合成润滑油的研究现状及发展趋势 [8]
26. Viscosity modification of lubricating oil based on high-concentrat.. [8]
27. Exploring the effect of nanoparticle size on the tribological prop.. [8]
28. 一种高温润滑脂减摩擦抗磨添加剂及其制备方法 [8]
29. MoS2/WS2 Quantum Dots as High-Performance Lubricant Additive in Po.. [8]
30. Tribological evaluation of environmentally friendly ionic liquids .. [8]
31. Insights into the rheological behaviors and tribological performan.. [8]
32. Fabrication of copper sulfide hierarchical architectures with tuna.. [7]
33. 三羟甲基丙烷油酸壬二酸混合酯的合成及其润滑性能研究 [7]
34. Mass-synthesized anatase titania nanocrystals with tunable size an.. [7]
35. A gel-sol transition phenomenon of oxidation multi-walled carbon n.. [7]
36. Tribological Behavior of Protic Ionic Liquids with Dodecylamine Sa.. [7]
37. Tribological Study of Boron-Containing Soybean Lecithin as Environ.. [7]
38. Oxidative degradation of synthetic ester and its influence on trib.. [7]
39. Tribological Properties of Three S-Alkyl-N,N-dicarboxymethyl Dithi.. [7]
40. Improvement of oxidative stability of trimethylolpropane trioleate.. [7]
41. Influence of antioxidant on the thermal-oxidative degradation beha.. [7]
42. Ionic liquid-based stable nanofluids containing gold nanoparticles [6]
43. The preparation and tribological investigation of Ni–P amorphous .. [6]
44. 氟化镧一维纳米材料的化学制备方法 [6]
45. 油溶性锐钛矿型纳米氧化钛颗粒的制备方法 [6]
46. Controlled synthesis and size-dependent thermal conductivity of Fe.. [6]
47. Natural Garlic Oil as a High-Performance, Environmentally Friendly.. [6]
48. Tribological properties of nano-calcium borate as lithium grease a.. [6]
49. Reinforcing effect on the tribological behaviour of nanoparticles .. [6]
50. Tribological behavior of LaF3 nanoparticles as additives in poly-a.. [6]
51. Synthesis and properties of trimethylolpropane trioleate as lubric.. [6]
52. Investigating the tribological performance of nanosized MoS2 on gr.. [6]
53. Preparation of High-Temperature Lubricants by Blending Castor Oil .. [6]
54. 合成酯型摩擦改进剂的制备及摩擦学性能研究 [6]
55. 一种基于氧化石墨烯修饰的纳米添加剂及其在润滑油中的应用 [6]
56. In situ formed ionic liquids in lard oil as high‐performance lubr.. [6]
57. Preparation of nano-SO42-/TiO2 catalyst and its application in est.. [5]
58. 两种 P- N 型润滑添加剂的性能研究 [5]
59. Microwave-assisted synthesis of spheroidal vaterite CaCO3 in ethyl.. [5]
60. 低温溶剂热法合成圆饼状球霰石碳酸钙 [5]
61. Investigation of electrical contact resistance of Ag nanoparticles.. [5]
62. 油酸修饰纳米氟化钙的萃取法制备及其摩擦学性能 [5]
63. 三种含金属类纳米添加剂摩擦学性能比较 [5]
64. 硫化铅半导体纳米颗粒的制备方法 [5]
65. Relationship between dispersion state and reinforcement effect of .. [5]
66. Study on the selectivity of calcium carbonate nanoparticles under .. [5]
67. 3种烷基二苯胺类抗氧剂的合成与性能 [5]
68. 半导体纳米复合薄膜的制备方法 [5]
69. 硼酸盐超细颗粒润滑添加剂的制备方法 [5]
70. Antioxidant synergism between synthesised alkylated diphenylamine .. [5]
71. A novel benztriazole derivative for enhancing the anti-oxidation p.. [5]
72. New insight to the tribology-structure interrelationship of lubric.. [5]
73. Study of soybean lecithin as multifunctional lubricating additives [5]
74. A study of 2,5-dimercapto-1,3,4-thiadiazole derivatives as multifu.. [5]
75. 一种硼化高碱值环烷酸钙的制备方法 [5]
76. Tribological properties of polymeric aryl phosphates grafted onto .. [5]
77. Tribological properties of trimellitates containing polymethacryla.. [5]
78. Mesoporous silica nanoparticles-loaded methyl 3-(3,5-di-tert-butyl.. [5]
79. Anticorrosion and lubricating properties of a fully green lubrican.. [5]
80. Sulphate-functionalized multi-walled carbon nanotubes as catalysts.. [4]
81. A novel way towards CdS sensitized TiO2 nanoparticles [4]
82. 硫化铜纳米颗粒的制备方法 [4]
83. 油溶性二氧化钛纳米棒的制备方法 [4]
84. Tribological performance of poly(sodium 4-styrenesulphonate) as ad.. [4]
85. 油溶性金属银纳米粉体及其制备方法 [4]
86. 冰水浴和自然冷却条件下锂基润滑脂的流变学性能 [4]
87. 硫化铋纳米材料的制备方法 [4]
88. Underwater superoleophobic graphene oxide coated meshes for the se.. [4]
89. 纳米碳酸钙作为润滑脂添加剂的摩擦学性能及流变行为研究 [4]
90. Effect of alkylated diphenylamine on thermal-oxidative degradation.. [4]
91. Bio-lubricants Derived from Waste Cooking Oil with Improved Oxidat.. [4]
92. Hindered Phenol Derivative as a Multifunctional Additive in Lithiu.. [4]
93. The influence of oxidation on the tribological performance of dies.. [4]
94. A novel phosphate ionic liquid plays dual role in synthetic ester .. [4]
95. Effect of a new phosphate compound (BAFDP) addition on the lubrica.. [4]
96. Mechanical synthesis of chemically bonded phosphorus–graphene hyb.. [4]
97. 一种极压复合锂基润滑脂组合物 [4]
98. 偏苯三酸酯基础油的摩擦降解及对抗氧化性能的影响 [4]
99. Preparation of WS2 nanocomposites via mussel-inspired chemistry an.. [4]
100. 一种水溶性聚离子液体润滑添加剂及应用 [4]