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1. Understanding the ultra-low friction behavior of hydrogenated full.. [704]
2. Ultralow friction behaviors of hydrogenated fullerene-like carbon .. [663]
3. Hydrophobic, mechanical and tribological properties of fluorine in.. [560]
4. 一种含氢纳米结构CNx梯度薄膜的制备方法 [540]
5. DLC薄膜技术在汽车发动机关键零部件的应用研究 [515]
6. Spontaneous symmetry breaking discovers the formation of aeroplane.. [495]
7. The effect of a static magnetic field on the hydrogen bonding in w.. [467]
8. Lower friction and higher wear resistance of fluorine-incorporated.. [461]
9. Direct Synthesis of Nitrogen-Doped Carbon Nanosheets with High Sur.. [444]
10. Designed fabrication of hard Cr—Cr2O3—Cr7C3 nanocomposite coatin.. [439]
11. Ultra-low friction of fluorine-doped hydrogenated carbon film with.. [437]
12. Improving the internal stress and wear resistance of DLC film by l.. [429]
13. 模具钢表面多层梯度纳米复合类金刚石薄膜的制备方法 [408]
14. Mechanical and tribological properties of Ti-DLC films with differ.. [380]
15. Ultra-elastic recovery and low friction of amorphous carbon films .. [380]
16. Increasing fluorine concentration to control the microstructure fr.. [345]
17. 在不锈钢上制备薄膜的方法 [322]
18. 以环戊二烯为碳源制备类富勒烯结构碳基薄膜的结构及力学性能 [307]
19. Effects of negative bias on the structural,topological and tribolo.. [305]
20. Preparation of Crystalline Chromium Coating on Cu Substrate Direct.. [296]
21. 碳基纳米结构薄膜的制备及构效关系研究 [294]
22. Structural, mechanical and tribological behavior of fullerene-like.. [292]
23. Engineering-scale superlubricity of the fingerprintlike carbon fil.. [289]
24. The effect of thermal annealing on the microstructure and mechanic.. [288]
25. Further improving the mechanical and tribological properties of lo.. [281]
26. The tribological properties of fullerene-like hydrogenated carbon .. [280]
27. 在钛合金表面制备生物活性复合薄膜的方法 [273]
28. Formation of hydrogenated amorphous carbon films containing fuller.. [267]
29. Spontaneous symmetry breaking during formation of ZnO nanocrystals [242]
30. The tribological performance of fullerene-like hydrogenated carbon.. [240]
31. Monitoring the nanostructure of a hydrogenated fullerene-like film.. [225]
32. Fabrication of highly conductive Ru/a-CNx:H composite films by ano.. [213]
33. Graphene nano scrolls responding to superlow friction of amorphous.. [208]
34. Pencil sketch graphene films as solid lubricant on steel surface: .. [208]
35. 在金属内表面制备类金刚石碳膜的方法 [203]
36. 一种多层复合类富勒烯薄膜在汽车发动机上产业化的方法 [197]
37. Magnetron sputtering deposition of carbon nitride nanocolumns at l.. [196]
38. Hydrogenated amorphous carbon films on steel balls and Si substrat.. [195]
39. 一种类富勒烯碳膜与不同偶件对摩时的摩擦学行为及其机制研究 [193]
40. 强韧与润滑一体化碳基薄膜关键技术与工程应用(国家) [192]
41. 强韧与润滑一体化碳基薄膜关键技术与工程应用(甘肃省) [182]
42. Onion-like carbon films endow macro-scale superlubricity [179]
43. Recent advances in the mechanical and tribological properties of f.. [176]
44. 直流法制备类富勒烯碳氢薄膜的摩擦学性能研究 [175]
45. Nanocrystalline Graphite Formed at Fullerene-Like Carbon Film Fric.. [168]
46. Structure evolution from nanocolumns to nanoporous of nitrogen dop.. [161]
47. Hierarchical structure graphitic-like/MoS2 film as superlubricity .. [158]
48. 工程导向碳薄膜宏观超滑研究进展 [156]
49. Preparation of Crystalline Chromium Coating on Cu Substrate Direct.. [152]
50. Assembling of carbon nanotubes film responding to significant redu.. [152]
51. An improved galvanic replacement deposition method for synthesis o.. [150]
52. Facile fabrication and corrosion behavior of iron and iron-reduced.. [140]
53. Mass fabrication and superior microwave absorption property of mul.. [140]
54. Structure effects of sp2-rich carbon films under super-low frictio.. [138]
55. 合金工具钢柱塞表面批量化沉积类富勒烯碳薄膜的方法 [126]
56. 阳极场辅磁控溅射镀膜装置 [125]
57. Tribological properties of hydrogenated amorphous carbon films in .. [125]
58. Tuning the inner hollow structure of lightweight amorphous carbon .. [125]
59. 具高功率脉冲离子源的磁控溅射装置 [123]
60. Ball Milling of Hexagonal Boron Nitride Microflakes in Ammonia Flu.. [118]
61. 含氢类富勒烯碳薄膜制备及超滑性能研究进展 [117]
62. Simultaneous production and functionalization of hexagonal boron n.. [117]
63. Hydrogenated amorphous carbon films with different nanostructure: .. [117]
64. Probing superlubricity stability of hydrogenated diamond-like carb.. [115]
65. Perspectives of the Friction Mechanism of Hydrogenated Diamond-Lik.. [109]
66. Fullerene-Like Structure Hydrogenated Carbon Film: One Way to the .. [106]
67. Reduction of interlayer friction between bilayer hexagonal boron n.. [104]
68. Interlayer friction properties of oxygen-doped hexagonal boron nit.. [103]
69. 通过含氢碳薄膜与二硫化钼组成配副体系实现超滑宏观的方法 [103]
70. 柱塞表面类金刚石薄膜批量化沉积方法 [101]
71. 低摩擦固体润滑碳薄膜关键技术及产业化应用 [99]
72. Super-Lubricious, Fullerene-like, Hydrogenated Carbon Films [95]
73. Heating induced nanostructure and superlubricity evolution of full.. [95]
74. Superlow friction of amorphous diamond-like carbon films in humid .. [95]
75. 一种摩擦界面原位形成石墨烯和洋葱实现超滑的方法 [94]
76. Large scale fabrication of porous boron nitride microrods with tun.. [91]
77. 箍缩磁场辅助磁控溅射镀膜装置 [90]
78. Grown of superlubricity a-C:H/MoS2 film on 9Cr18Mo steel for indus.. [90]
79. 一种类金刚石薄膜的磁靴增强磁控溅射镀膜装置 [89]
80. The high-temperature tribological properties of Si-DLC films [88]
81. 催化超滑:金催化作用下非晶含氢碳薄膜的工程超滑 [86]
82. 大气环境下超滑纳米晶-非晶碳薄膜的制备方法 [85]
83. Catalytic superlubricity via in-situ formation of graphene during .. [84]
84. 不同应用环境下MoS基薄膜摩擦学性能研究进展 [81]
85. 一种纳米羰基金属复合超滑含氢碳薄膜的制备方法 [81]
86. 栅极辅助柱状电弧离子镀膜装置 [80]
87. Macro superlubricity of two-dimensional disulphide/amorphous carbo.. [75]
88. Fabrication of novel hydrophobic SiC/SiO2 bead-string like core-sh.. [72]
89. 类富勒烯薄膜的载荷依赖摩擦滞后行为研究 [71]
90. 低摩擦长寿命类富勒烯碳基薄膜的制备及其摩擦学特性 [71]
91. Electronic conductive and corrosion mechanisms of dual nanostructu.. [71]
92. 一种超滑二硫化钨/含氢碳薄膜及其制备方法 [71]
93. 低温气相沉积洋葱结构碳基超润滑薄膜的方法 [70]
94. 一种通过自组装黑磷纳米片制备超滑含氢碳薄膜的方法 [67]
95. Comparison study of gold coatings prepared by traditional and modi.. [66]
96. 一种橡胶基复合材料及其制备方法 [65]
97. Regulating the electrical conductivity of hexagonal boron nitride .. [65]
98. Two dimensional cubic boron nitride nanosheets converted from hexa.. [65]
99. 一种超滑性能复合纳米滑石粉含氢碳薄膜的制备方法 [65]
100. 具高功率脉冲离子源的磁控溅射装置 [63]

Downloads

1. DLC薄膜技术在汽车发动机关键零部件的应用研究 [57]
2. Ultralow friction behaviors of hydrogenated fullerene-like carbon .. [22]
3. Fullerene-Like Structure Hydrogenated Carbon Film: One Way to the .. [21]
4. Understanding the ultra-low friction behavior of hydrogenated full.. [20]
5. Increasing fluorine concentration to control the microstructure fr.. [15]
6. 模具钢表面多层梯度纳米复合类金刚石薄膜的制备方法 [14]
7. Ultra-elastic recovery and low friction of amorphous carbon films .. [13]
8. Direct Synthesis of Nitrogen-Doped Carbon Nanosheets with High Sur.. [13]
9. Engineering-scale superlubricity of the fingerprintlike carbon fil.. [13]
10. Lower friction and higher wear resistance of fluorine-incorporated.. [12]
11. Ultra-low friction of fluorine-doped hydrogenated carbon film with.. [12]
12. Spontaneous symmetry breaking discovers the formation of aeroplane.. [12]
13. Hydrophobic, mechanical and tribological properties of fluorine in.. [11]
14. Further improving the mechanical and tribological properties of lo.. [11]
15. Structural, mechanical and tribological behavior of fullerene-like.. [10]
16. Improving the internal stress and wear resistance of DLC film by l.. [10]
17. The effect of a static magnetic field on the hydrogen bonding in w.. [9]
18. Preparation of Crystalline Chromium Coating on Cu Substrate Direct.. [9]
19. The tribological performance of fullerene-like hydrogenated carbon.. [9]
20. Monitoring the nanostructure of a hydrogenated fullerene-like film.. [9]
21. Graphene nano scrolls responding to superlow friction of amorphous.. [9]
22. 碳基纳米结构薄膜的制备及构效关系研究 [8]
23. The tribological properties of fullerene-like hydrogenated carbon .. [8]
24. 在不锈钢上制备薄膜的方法 [8]
25. Nanocrystalline Graphite Formed at Fullerene-Like Carbon Film Fric.. [8]
26. Structure effects of sp2-rich carbon films under super-low frictio.. [8]
27. 高性能碳基润滑材料 [8]
28. Formation of hydrogenated amorphous carbon films containing fuller.. [7]
29. 一种含氢纳米结构CNx梯度薄膜的制备方法 [7]
30. Mechanical and tribological properties of Ti-DLC films with differ.. [7]
31. 直流法制备类富勒烯碳氢薄膜的摩擦学性能研究 [7]
32. Recent advances in the mechanical and tribological properties of f.. [7]
33. Onion-like carbon films endow macro-scale superlubricity [7]
34. The effect of thermal annealing on the microstructure and mechanic.. [6]
35. 在钛合金表面制备生物活性复合薄膜的方法 [6]
36. Hydrogenated amorphous carbon films on steel balls and Si substrat.. [6]
37. 一种多层复合类富勒烯薄膜在汽车发动机上产业化的方法 [6]
38. 工程导向碳薄膜宏观超滑研究进展 [6]
39. An improved galvanic replacement deposition method for synthesis o.. [5]
40. 一种类富勒烯碳膜与不同偶件对摩时的摩擦学行为及其机制研究 [4]
41. 以环戊二烯为碳源制备类富勒烯结构碳基薄膜的结构及力学性能 [4]
42. Preparation of Crystalline Chromium Coating on Cu Substrate Direct.. [4]
43. Tribological properties of hydrogenated amorphous carbon films in .. [4]
44. Assembling of carbon nanotubes film responding to significant redu.. [4]
45. Effects of negative bias on the structural,topological and tribolo.. [3]
46. Structure evolution from nanocolumns to nanoporous of nitrogen dop.. [3]
47. Facile fabrication and corrosion behavior of iron and iron-reduced.. [3]
48. 强韧与润滑一体化碳基薄膜关键技术与工程应用(国家) [3]
49. 强韧与润滑一体化碳基薄膜关键技术与工程应用(甘肃省) [3]
50. Spontaneous symmetry breaking during formation of ZnO nanocrystals [2]
51. The high-temperature tribological properties of Si-DLC films [2]
52. 柱塞表面类金刚石薄膜批量化沉积方法 [2]
53. Hierarchical structure graphitic-like/MoS2 film as superlubricity .. [2]
54. Probing superlubricity stability of hydrogenated diamond-like carb.. [2]
55. 一种摩擦界面原位形成石墨烯和洋葱实现超滑的方法 [2]
56. Tuning the inner hollow structure of lightweight amorphous carbon .. [2]
57. Hydrogenated amorphous carbon films with different nanostructure: .. [2]
58. Effect of vacuum atomic oxygen irradiation on the tribological pro.. [2]
59. 通过含氢碳薄膜与二硫化钼组成配副体系实现超滑宏观的方法 [2]
60. Macro superlubricity of 2D disulphide/amorphous carbon heterogeneo.. [2]
61. 碳基薄膜固液复合润滑研究现状 [2]
62. Designed fabrication of hard Cr—Cr2O3—Cr7C3 nanocomposite coatin.. [1]
63. Magnetron sputtering deposition of carbon nitride nanocolumns at l.. [1]
64. 在金属内表面制备类金刚石碳膜的方法 [1]
65. 栅极辅助柱状电弧离子镀膜装置 [1]
66. 一种类金刚石薄膜的磁靴增强磁控溅射镀膜装置 [1]
67. 合金工具钢柱塞表面批量化沉积类富勒烯碳薄膜的方法 [1]
68. Pencil sketch graphene films as solid lubricant on steel surface: .. [1]
69. 不同应用环境下MoS基薄膜摩擦学性能研究进展 [1]
70. Simultaneous production and functionalization of hexagonal boron n.. [1]
71. Reduction of interlayer friction between bilayer hexagonal boron n.. [1]
72. Ball Milling of Hexagonal Boron Nitride Microflakes in Ammonia Flu.. [1]
73. Heating induced nanostructure and superlubricity evolution of full.. [1]
74. Comparison study of gold coatings prepared by traditional and modi.. [1]
75. 催化超滑:金催化作用下非晶含氢碳薄膜的工程超滑 [1]
76. Bilayer a-C:H/MoS2 film to realize superlubricity in open atmosphe.. [1]
77. Catalytic superlubricity via in-situ formation of graphene during .. [1]
78. Grown of superlubricity a-C:H/MoS2 film on 9Cr18Mo steel for indus.. [1]
79. Grown of superlubricity a-C:H/MoS2 film on 9Cr18Mo steel for indus.. [1]
80. 一种超滑纳米硫复合含氢碳膜制备方法 [1]
81. 橡胶表面碳基薄膜耐磨改性研究进展 [1]
82. Macro superlubricity of two-dimensional disulphide/amorphous carbo.. [1]
83. Effect of methane on magnetron sputtering graphite target deposite.. [1]
84. Tribology Dependence of Annealed a‑C:H Films in Dry Air and Metha.. [1]
85. Catalytic superlubricity via in-situ formation of graphene during .. [1]
86. Comparative study of the tribology of amorphous carbon films via m.. [1]
87. 一种超滑二硫化钨/含氢碳薄膜及其制备方法 [1]
88. 氮流量对六方氮化硼(hBN)薄膜结构和力学性能的影响 [1]
89. 离子注渗复合表面改性技术研究进展 [1]
90. 脉冲频率对HiPIMS制备TiN薄膜组织和力学性能的影响 [1]
91. Comparative study the tribology of amorphous carbon films via magn.. [1]