Metal Matrix Composites
portes grátis
Metal Matrix Composites
Properties and Applications
Bansal, Suneev Anil; Gupta, Pallav; Khanna, Virat
Taylor & Francis Ltd
10/2024
276
Mole
9781032048598
Pré-lançamento - envio 15 a 20 dias após a sua edição
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1. Materials System for Functional Properties of Metal Matrix Composites: Self-Lubricating, Anti-Wear and Self-Cleaning Properties
2. The progressive development of metal matrix composites: from Alloy to hybrid composites-A review
3. Corrosion behavior of metal, alloy and composite: An overview
4. Characterization and Applications of Fe/Cu/Mg/Al Based Metal Matrix Composites
5. Graphene/Metal Matrix Nanocomposites: Synthesis, Characterization and Properties
6. Fracture process in Micro reinforced Metal Matrix Composites
7. Basics of Metal Matrix Composites and its Application in Transistor Electronics
8. Metal Matrix Nanocomposites in aircraft engine and space applications: The need of the hour - A review
9. Lubricated tribology of light-weight MMCs: Recent and future perspectives of AMMCs
2. The progressive development of metal matrix composites: from Alloy to hybrid composites-A review
3. Corrosion behavior of metal, alloy and composite: An overview
4. Characterization and Applications of Fe/Cu/Mg/Al Based Metal Matrix Composites
5. Graphene/Metal Matrix Nanocomposites: Synthesis, Characterization and Properties
6. Fracture process in Micro reinforced Metal Matrix Composites
7. Basics of Metal Matrix Composites and its Application in Transistor Electronics
8. Metal Matrix Nanocomposites in aircraft engine and space applications: The need of the hour - A review
9. Lubricated tribology of light-weight MMCs: Recent and future perspectives of AMMCs
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Lubrication;Transistor;Tribology;Heat Exchanger;Corrosion;Nanocomposites;Fracture;Metal Matrix Composites;Stir Casting;Hybrid Composite;Friction Stir Processing;SPS;Friction Stir Process;Solid Lubricant;Accumulative Roll Bonding;Stir Casting Process;MMCs Base;MMLs.;Graphene Oxide;Wear Rate;Disintegrated Melt Deposition;SC Technique;Powder Metallurgy Route;FMLs;Reduced Graphene Oxide;ZK60 Alloy;Wear Volume Loss;Laser Textures Surfaces;SS;GNPs Nanocomposites;Magnesium Matrix Composites;Graphene Nanocomposites
1. Materials System for Functional Properties of Metal Matrix Composites: Self-Lubricating, Anti-Wear and Self-Cleaning Properties
2. The progressive development of metal matrix composites: from Alloy to hybrid composites-A review
3. Corrosion behavior of metal, alloy and composite: An overview
4. Characterization and Applications of Fe/Cu/Mg/Al Based Metal Matrix Composites
5. Graphene/Metal Matrix Nanocomposites: Synthesis, Characterization and Properties
6. Fracture process in Micro reinforced Metal Matrix Composites
7. Basics of Metal Matrix Composites and its Application in Transistor Electronics
8. Metal Matrix Nanocomposites in aircraft engine and space applications: The need of the hour - A review
9. Lubricated tribology of light-weight MMCs: Recent and future perspectives of AMMCs
2. The progressive development of metal matrix composites: from Alloy to hybrid composites-A review
3. Corrosion behavior of metal, alloy and composite: An overview
4. Characterization and Applications of Fe/Cu/Mg/Al Based Metal Matrix Composites
5. Graphene/Metal Matrix Nanocomposites: Synthesis, Characterization and Properties
6. Fracture process in Micro reinforced Metal Matrix Composites
7. Basics of Metal Matrix Composites and its Application in Transistor Electronics
8. Metal Matrix Nanocomposites in aircraft engine and space applications: The need of the hour - A review
9. Lubricated tribology of light-weight MMCs: Recent and future perspectives of AMMCs
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Lubrication;Transistor;Tribology;Heat Exchanger;Corrosion;Nanocomposites;Fracture;Metal Matrix Composites;Stir Casting;Hybrid Composite;Friction Stir Processing;SPS;Friction Stir Process;Solid Lubricant;Accumulative Roll Bonding;Stir Casting Process;MMCs Base;MMLs.;Graphene Oxide;Wear Rate;Disintegrated Melt Deposition;SC Technique;Powder Metallurgy Route;FMLs;Reduced Graphene Oxide;ZK60 Alloy;Wear Volume Loss;Laser Textures Surfaces;SS;GNPs Nanocomposites;Magnesium Matrix Composites;Graphene Nanocomposites