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    External: 248
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1. Cavitation erosion of a spinodally decomposed wrought duplex stain.. [168]
2. Implications of solution treatment on cavitation erosion and corro.. [129]
3. Post-fire mechanical and corrosion properties of duplex stainless .. [103]
4. Influences of thermomechanical treatments on the cryogenic treatab.. [101]
5. Effect of laser surface melting and subsequent re-aging on microst.. [100]
6. Short-term spinodal decomposition - its effects on corrosion behav.. [100]
7. 关于瑞利-李兹方法边界条件的讨论 [100]
8. Enhancement in hardness and corrosion resistance of AISI 420 marte.. [96]
9. Remarkable synergistic effect in cobalt-iron nitride/alloy nanoshe.. [93]
10. Surface reconstruction on silver nanoparticles decorated trimetall.. [90]
11. Development of Electrocatalysts for Efficient Nitrogen Reduction R.. [89]
12. Duplex Stainless Steels: Structure, Composition, and Use as Temper.. [88]
13. 关于等参单元的高斯积分 [88]
14. Surface Reconstruction and Phase Transition on Vanadium–Cobalt–I.. [88]
15. Chloride stress corrosion cracking of a non-standard, ‘Borderline.. [83]
16. 2D materials: Excellent substrates for surface-enhanced Raman scat.. [82]
17. 1T′′′Transition-Metal Dichalcogenides: Strong Bulk Photovoltaic.. [82]
18. 应用瑞利 -- 李兹法求高阶频率时剪力边界条件的效应 [81]
19. 无损残余应力测量及其新技术 [78]
20. The Influences of Martensitic Transformations on Cavitation-Erosio.. [75]
21. Knowledge-oriented application in web-enabled training system [74]
22. Desensitization of austenitic and duplex stainless steels by laser.. [74]
23. Laser Surface Modification of Lean-alloyed Austenitic Stainless St.. [73]
24. Stainless Steels: An Introduction and Their Recent Developments [73]
25. Development of Perovskite Oxide-Based Electrocatalysts for Oxygen .. [73]
26. Effect of laser surface melting on intergranular corrosion behavio.. [72]
27. 一个求解振动系统的迭代方案 [72]
28. Vertically-aligned 1T/2H-MS2 (M = Mo, W) nanosheets for surface-en.. [72]
29. Theoretical Screening of Single Atoms Supported on Two-Dimensional.. [70]
30. The interface character distribution of cold-rolled and annealed d.. [69]
31. CNSi/MXene/CNSi: Unique Structure with Specific Electronic Propert.. [68]
32. Failure of Centrifugal Chillers: Coating and Anode Location Proble.. [66]
33. Some Aspects of Using Stainless Steel as Concrete Reinforcing Bars.. [66]
34. Single transition metal atom catalysts on Ti2CN2 for efficient CO2.. [65]
35. Use of a.c. magnetic susceptibility for temperature measurement an.. [64]
36. Stress corrosion cracking of laser-welded stainless steels [64]
37. Magnetic and electronic properties of 2D TiX3(X = F, Cl, Br and I) [64]
38. New observations of electron domains in Fe-Cr-Ni-Mo duplex alloy [63]
39. Multi-Phase Heterostructure of CoNiP/CoxP for Enhanced Hydrogen Ev.. [63]
40. Effect of laser surface melting on corrosion behavior of aged dupl.. [62]
41. Effects of pre-treatment on the ac magnetic susceptibility and age.. [62]
42. Theoretical evidence of the spin-valley coupling and valley polari.. [62]
43. Design of 2D materials-MSi2C: X N4- x (M = Cr, Mo, and W; X = 1 an.. [62]
44. Characterisation of duplex stainless steel subjected to long-term .. [61]
45. Characterisation of residual principal stresses and their implicat.. [61]
46. Remaining strengths and pitting resistance of AISI 316 after a fir.. [60]
47. Recent developments in stainless steels [60]
48. Recently patented gaseous carburising and nitriding techniques for.. [59]
49. Developments in laser-based surface engineering processes: with pa.. [59]
50. Effects of sensitisation-induced martensitic transformation on the.. [56]
51. Magnetic domain characterisation of duplex stainless steel after d.. [56]
52. Substrate strain engineering: An efficient strategy to enhance the.. [56]
53. An enhanced oxygen evolution reaction on 2D CoOOH: Via strain engi.. [56]
54. Magnetic and transformation behaviour of duplex stainless steels u.. [55]
55. Cavitation Erosion Damage Mechanism of a Duplex Stainless Steel Ha.. [55]
56. Microstructural characterisation and change in a.c. magnetic susce.. [54]
57. Thermal, magnetic and composition analyses of the reverse transfor.. [51]
58. Friction-stir processing of AISI 440C high-carbon martensitic stai.. [51]
59. On the cryogenic magnetic transition and martensitic transformatio.. [49]
60. Postfire Properties of a Sigma Phase Containing Duplex Stainless S.. [47]
61. Metallurgical temperature sensors [46]
62. Mechanical properties and hydrogen embrittlement of laser-surface .. [46]
63. PLD-fabricated perovskite oxide nanofilm as efficient electrocatal.. [46]
64. Two-Dimensional Dirac Nodal Line Carbon Nitride to Anchor Single-A.. [44]
65. Insight into adsorption mechanism of water on tricalcium silicate .. [42]
66. Ferroelectricity coexisted with p-orbital ferromagnetism and metal.. [39]
67. Failure of a Sliding Metal Gate Due to Single-Impact Bending Fract.. [34]
68. Effect of multiple-pass friction stir processing on hardness and c.. [34]
69. Wafer-Scale 2H-MoS2 Monolayer for High Surface-enhanced Raman Scat.. [34]
70. Laser surface alloying of copper with Cr/Ti/CNT for enhancing surf.. [32]
71. Correlation between AC magnetic susceptibility and pitting behavio.. [28]
72. Insightful view on the active sites of Ni/NixP for hydrogen evolut.. [20]
73. Waved 2D Transition-Metal Disulfides for Nanodevices and Catalysis.. [19]
74. Toward enhanced oxygen evolution on NaBH4 treated Ba0.5Sr0.5Co0.8F.. [19]
75. Microstructure and Mechanical Properties of Friction Stir Welded 1.. [18]
76. Microstructural characteristics and hardness enhancement of super .. [18]
77. PLD-fabricated perovskite oxide nanofilm as efficient electrocatal.. [15]
78. Ab initio design of a new family of 2D materials: transition metal.. [14]
79. 陶瓷材料三點及四點彎曲斷裂強度關係之討好 [13]
80. Highly Improved Electrocatalytic Activity of NiSx: Effects of Cr-d.. [13]
81. WXy/g-C3N4 (X = C, N & S) composites for highly efficient photocat.. [13]
82. Effect of laser surface melting on ferritic stainless steel for hy.. [12]
83. Hydrogen Embrittlement and Corrosion of Laser-Surface Melted AISI .. [12]
84. Temperature sensors for hostile environments [12]
85. Applications of laser remanufacturing for wear and corrosion resis.. [12]
86. Laser Surface Meltinig (LSM) of Stainless Steels for Mitigating In.. [12]
87. LASER SURFACE MODIFICATION OF LEAN-ALLOYED AUSTENITIC STAINLESS ST.. [11]
88. Surface reconstruction on silver nanoparticles decorated trimetall.. [11]
89. 關於離散振動系統的李茲法 [11]
90. Shrinking Knowledge Gap by Virtual Training Approach [11]
91. Nd:YAG Laser Cutting of Carbon Steel with Continuous and Pulsed Wa.. [10]
92. Magnetic and ageing behaviour of 7MoPLUS and the viability of moni.. [10]
93. On the weighted residual method for rectangular flat plates [10]
94. Magnetic and ageing behaviour of 7MoPLUS and the viability of moni.. [10]
95. The Critical Part of PEMFC – Super Duplex Stainless Steel Bipolar.. [9]
96. Measurement of residaul Stess and a New Device---MAPS [8]
97. Deformation-induced Role Switching between Ferrite and Austenite i.. [7]
98. A comparative study on Nd:YAG laser cutting of steel and stainless.. [7]
99. Corrosion resistance of duplex stainless steel subjected to long-t.. [1]