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Keyword [Laves phase]
Result: 1 - 20 | Page: 1 of 5
1. Structure And Properties Study On La(NiMMn)5+x,Ti-Mo,Ti(Zr)/Mn2 Base Laves Phase Hydrogen Storage Alloys
2. The Study On The Synthesis And Properties For Giant Magnetostrictive Materials With Light Rare Earth
3. Study Of Microstructures And Mechanical Behavior Of Mg-Zn-Gd-based Alloys Reinforced By In-situ Quasicrystals
4. Research On Fabrication, Toughening, Oxidation Behavior And Mechanism Of Laves Phase NbCr2 Based Alloys
5. First-Principles Study Of Phase Stability And Mechanical Property Several Novel Materials
6. Laves Phase Ticr <sub> 2 </ Sub> Particles Enhance The Preparation Of Ti-based Alloys And Their Organizations, Performance And Mechanical Behavior
7. The Research On Electrochemical Performance Of Zr-Cr-Ni AB2 Laves Phase Hydrogen Storage Alloys
8. Study On Absorb-Hydrogen Mechanism And Functions Of Substitute Element In AB2 Type Laves Phase Hydrogen Storage Alloys
9. Studies On Structure And Magnetostriction Of Light Rare Earth Compounds With Laves Phase
10. Study On The Properties Of La-Mg Based Hydrogen Storage Compounds And The Laves Phase Structures Of Binary Alloys
11. Study On Preparation Process And Properties Of Rare-Earth Magnetostrictive Materials
12. The Research Of TiFe2 Laves Phase Intermetallics
13. Phase Structures And Hydrogen Storage Properties Of Ti-Zr-Cr-Mn Based Laves Phase Multiple Alloys
14. The Preparation And Characterization Of MgCu2 Type Laves Phase Mg(Cu1-XAlX)2
15. The Preparation And Characterization Of The Nickel-based Ternary Intermetallic Alloys
16. The Pilot Study On Synthesizing Metal/Metal Silicide Multiphase Alloys By Hot-pressing In-situ Reaction Sintering
17. An Investigation On The Hydrogen-Storage Properties And Mechanism Of Li-Based Metal Complex And Zr-Mn-Based Laves Phase Alloys
18. Effects Of Ni, Mo And Zr Additions On Microstructure And Properties Of Laves Phase NbCr2 Compound
19. Investigation On Strength-Toughness Mechanism Of Low Nickel, Cobalt Free Maraging Steel
20. Study On The Microstructural Evolution And Strength Degradation Of 9% Chromium Ferritic/Martensitic Heat Resistant Steels
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