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Keyword [superalloys]
Result: 41 - 60 | Page: 3 of 10
41. Study On Process And Microstructure Properties Of Tlp Bonded Gh99 Superalloy
42. Research On Fracture Properties And Fatigue Properties Of Superalloys Gh4169 Welded Joints
43. The New Anti-oxidized Low-expansion Superalloy Component To Explore Its Performance Study
44. Study On Diffusion Kinetics In Some Co-based Ternary Alloys
45. Diffusion Kinetics In The Ni-Ti-X(X=Al,Cu And Cr) Systems And Thermodynamic Descriptions For Pb-S And Bi-S Binary Systems
46. Influence Of Element Re On Creep Properties At Medium Temperature Of Nickel-Base Single Crystal Superalloys
47. Influence Of Heat Treatment On Nickel-base Single Crystal Superalloy Containing Re
48. Research On High-temperature Oxidation Property Of Calorized Coatings On GH907 Superalloys
49. Study On Fabrication And Oxidation Behavior Of 12Cr-ODS Fe-based Superalloys
50. The Effect Of TI On The Microstructure And Mechanical Property In Re-Containing Single Crystal Superalloys
51. Oxidation And Hot Corrosion Behaviour Of A Ni-Based Superalloys With Ti And NiCrAlY Coating Deposited By Arc Ion Plating During High Temperature Exposure
52. First Principle Calculation On Critical Properties Of Several Transition Metal Alloys
53. Atomistic Simulation Of The Effect Of Heavy Element Re On The Crack Propagation In The Ni-based Single Crystal Model Superalloys
54. Construction And Application Of Multi-element EAM Potential In Ni-based Single Crystal Model Superalloys
55. Effects Of Multiple Alloying Elements On Microstructure And High-temperature Low-stress Creep Behavior In Fourth Generation Ni-based Single Crystal Superalloys
56. Effect Of Ta And Ti On Microstructural Stability And Creep Behavior Of Novel γ’strengthened Co-base Single Crystal Superalloys
57. Thermodynamic Analysis And Alloy Design Of Co-Al-W Based Superalloys
58. Diffusivity And Strengthening Of Ni-based Superalloys: Atomistic Simulations
59. Atomistic Simulation The Effect Of Alloying Elements On Crack Propagation In The Ni-based Single Crystal Superalloys
60. Composition Design Of Ni-base Superalloys Based On The Cluster-plus-glue-atom Model
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