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Keyword [Single Crystal Superalloy]
Result: 41 - 60 | Page: 3 of 7
41. Effect Of Carbon Additions On The As-cast Microstructure Of DD90 Ni-based Single Crystal Superalloy
42. The Research On Picosecond Laser Machining Of Holes In Ni-base Single Crystal Superalloys DD6
43. Effect Of B On The Microstructure Of A Single Crystal Ni-Based Superalloy
44. Effect Of Ru On Microstructure And Creep Properties Of Ni Based Single Crystal Superalloy Containing 4.5%Re
45. Recrystallization Behavior Of A Single Superalloy DD6
46. Microstructure Evolution And Thermal Fatigue Of DD5 Nickel-based Single Crystal Superalloy
47. Study On Organizational Optimization And Properties Of High-performance Nickel-based Single Crystal Blade With Low Rhenium
48. Experimental Research On Microstructure Evolution Of Nickle-base Single-crystal Superalloy DD6 Under Thermal-mechanical Loadings
49. Preparation Of A Low Density Ni-based Single Crystal Superalloy And Microstructure/Property Analyses
50. Study On Heat Treatment Process Of The Ni-based Single Crystal Superalloys With Carbon Containing
51. Study On ?' Phase Evolution In Nickel-base Single Crystal Superalloy By Phase Field Simulation
52. Microstructure And Property Of TLP Points For A Ni-based Single Crystal Superalloy
53. Microstructure And Mechanical Properties Of IC10/GH3039 Electron Beam Welding Welded Joints
54. High Temperature Oxidation Behavior Of Nanocrystalline Coaing On A Nickel-base Single-crystal Superalloy N5
55. Study On The Technological Theory And Key Technology In Micro Grinding Nickel-based Single Crystal Superalloy
56. Anisotropic Creep Properties Of A 3rd Generation Nickel-Base Single Crystal Superalloy
57. Influence Of Melt Superheating Treatment On The Solidification Process And Microstructure For A Third-generation Single Crystal Superalloy
58. Repairing Mechanism Of Laser Cladding In Nickel-base Single Crystal Superalloys
59. Microscopy And First-principles Study Of Precipitates In Nickel-base Single Crystal Superalloys
60. On The Tensile And Low Cycle Fatigue Behaviors Of New Elevated-temperature Structural Materials
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