1.
Growth and structure of hydrogenated carbon films containing fulle..
[458]
|
2.
类富勒烯碳膜的制备方法
[400]
|
3.
Influences of bias voltage on mechanical and tribological properti..
[362]
|
4.
Effects of Al incorporation on the mechanical and tribological pro..
[341]
|
5.
碳基纳米复合薄膜的设计、制备及其性能研究
[332]
|
6.
Comparing internal stress in diamond-like carbon films with differ..
[303]
|
7.
The tribological properties of fullerene-like hydrogenated carbon ..
[298]
|
8.
Structural, mechanical and tribological behavior of fullerene-like..
[296]
|
9.
Influence of nitrogen content on the structural, electrical and me..
[289]
|
10.
Effects of Ar/H/N-ion bombardment on the surface free energy and f..
[288]
|
11.
Formation of hydrogenated amorphous carbon films containing fuller..
[269]
|
12.
Superlow friction of titanium/silicon codoped hydrogenated amorpho..
[261]
|
13.
Structure and characteristics of amorphous (Ti,Si)–C:H films depo..
[213]
|
14.
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
[202]
|
15.
MoS2基复合薄膜制备及其结构与摩擦学性能研究
[201]
|
16.
Selective-releasing-affected lubricant mechanism of a self-assembl..
[189]
|
17.
Erosion Mechanism of MoS2-Based Films Exposed to Atomic Oxygen Env..
[181]
|
18.
Structural, mechanical and tribological properties of Mo-S-N solid..
[178]
|
19.
Tribological behaviors of fullerene-like hydrogenated carbon (FL-C..
[176]
|
20.
Tribological behaviors of diamond-like carbon coatings on plasma n..
[172]
|
21.
Influence of the gamma irradiation dose on tribological property o..
[166]
|
22.
Growth and characteristics of self-assembled MoS2/Mo-S-C nanoperio..
[162]
|
23.
中频磁控溅射沉积含铝类金刚石碳膜结构及其摩擦磨损性能研究
[155]
|
24.
The effect of applied negative bias voltage on the structure of Ti..
[155]
|
25.
Tribological properties of duplex MAO/DLC coatings on magnesium al..
[152]
|
26.
Effect of Li on Safety of Cu Components for EAST
[151]
|
27.
Carbon and nitrogen co-doping self-assembled MoS2 multilayer films
[150]
|
28.
不同调制周期MoS2/DLC多层薄膜结构及摩擦学性能
[150]
|
29.
Influence of the incident flux angles on the structures and proper..
[147]
|
30.
The effect of applied substrate negative bias voltage on the struc..
[141]
|
31.
The structure and tribological behaviors of CrN and Cr–Ti–N coat..
[141]
|
32.
C/N共掺MoS2复合薄膜的微结构及其摩擦特性研究
[141]
|
33.
Deuterium retention in tungsten films after different heat treatme..
[139]
|
34.
Erosion and deuterium retention of CLF-1 steel exposed to deuteriu..
[139]
|
35.
Influence of C dopant on the structure, mechanical and tribologica..
[136]
|
36.
Influence of Ni13+ ions irradiation on the microstructure, mechani..
[133]
|
37.
Tribological behaviors of Pb/MoS2 film under electrical condition ..
[132]
|
38.
Development and characterization of magnetron sputtered self-lubri..
[128]
|
39.
Structure, properties and growth mechanism of a self-assembled nan..
[123]
|
40.
The preparation and mechanical properties of Al-containing a-C:H t..
[122]
|
41.
核环境下的摩擦、磨损与润滑
[122]
|
42.
Surface studies on the characterization of RAFM steel after deuter..
[120]
|
43.
Structure, Mechanical and Tribological Properties of MoSN/MoS2 Mul..
[117]
|
44.
一种金镍碳复合导电润滑涂层材料及其制备方法
[116]
|
45.
Lubrication degradation mechanism of Mo-S-Ti composite films irrad..
[113]
|
46.
Wear behavior of zirconium-4 alloy after different irradiation dam..
[112]
|
47.
Fretting wear behaviors of Zr-4 alloy under different ions irradia..
[106]
|
48.
Deuterium retention in tungsten and tungsten alloys exposed to pur..
[105]
|
49.
Self-ion irradiation on hydrogenated amorphous carbon films at dep..
[105]
|
50.
钛合金表面高硬度微弧氧化膜的制备和耐磨性研究
[104]
|
51.
Amorphous carbon films in-situ formed from PTFE transfer layer in ..
[103]
|
52.
Plasma electrolytic fluorination on Al alloys: Coating growth and ..
[103]
|
53.
Nonuniform transitions of heavy-ion irradiated a-C:H films in dept..
[100]
|
54.
氦离子预注入对钨中氘滞留行为的影响
[99]
|
55.
Effect of electric currents on tribological behaviors of Ti/MoS2 c..
[98]
|
56.
The self-repairing of ion irradiation damaged Mo–S–Ti (MoST) lub..
[95]
|
57.
Thermal stability of tungsten sub-nitride thin film prepared by re..
[94]
|
58.
Influences of displacement damage due to heavy ion irradiation on ..
[92]
|
59.
γ辐照对a-C: H薄膜微观组织、力学性能及摩擦学性能的影响
[92]
|
60.
Deuterium retention and release behaviours of tungsten and deuteri..
[89]
|
61.
Influence of surface melting on the deuterium retention in pure an..
[88]
|
62.
Experimental measurement of deuterium concentration and depth prof..
[87]
|
63.
MoS2 Nanocomposite Films with High Irradiation Tolerance and Self-..
[86]
|
64.
盐雾腐蚀对 DLC 薄膜摩擦学性能的影响
[85]
|
65.
Conceptual design main progress of EAST Articulated Maintenance Ar..
[84]
|
66.
Sputtering properties of RAFM steels under high-flux He plasma exp..
[82]
|
67.
Thermal stability of Pt-Ti bilayer films annealing in vacuum and a..
[82]
|
68.
Influence of gamma irradiation‑induced surface oxidation on tribo..
[80]
|
69.
Fluoride-dominated coating on Mg alloys fabricated by plasma elect..
[79]
|
70.
镁合金表面PEF 膜与PEO 膜 腐蚀防护行为的对比研究
[79]
|
71.
Ultrahigh Radiation Resistance of Nanocrystalline Diamond Films fo..
[74]
|
72.
Erosion and fuel retentions of various reduced-activation ferritic..
[73]
|
73.
Erosion and deuterium retention behavior of tungsten exposed to im..
[67]
|
74.
Comparative study on microstructure, mechanical, and tribological ..
[64]
|
75.
轴承外圈支撑组件及轴承外圈内滚道溅射镀膜装置
[62]
|
76.
Helium retention depth profile in plasma-facing materials measured..
[60]
|
77.
Elucidating the nature role of acid etching on the CoMnOx catalyst..
[60]
|
78.
Influence of surface structure on D retention and erosion behaviou..
[59]
|
79.
Surface modification and deuterium retention of tungsten and tungs..
[54]
|
80.
Effect of 3 MeV Fe11+ ions pre-damage on blistering and deuterium ..
[52]
|
81.
Comparing deuterium retention in heavy ion damaged tungsten measur..
[47]
|
82.
一种腐蚀磨损实验装置
[32]
|
83.
模拟边界等离子体辐照下低活化钢刻蚀与燃料滞留行为研究
[8]
|