Innovative Lightweight and High-Strength Alloys
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Innovative Lightweight and High-Strength Alloys
Multiscale Integrated Processing, Experimental, and Modeling Techniques
Zikry, Mohammed A.
Elsevier - Health Sciences Division
04/2024
446
Mole
Inglês
9780323995399
15 a 20 dias
Descrição não disponível.
1. Process-structure-property models for metal additive manufacturing using AI/ML approaches
2. An overview on recent processing, metallurgy, and experiments related to microstructure engineering in additive manufacturing
3. Dislocations in processing and material behavior
4. Machine learning-enabled parametrically upscaled constitutive models for bridging length scales in Ti and Ni alloys
5. Data-driven approaches for computational modelling for plasticity, fatigue, and fracture behavior of alloys
6. Twin transmission and variant continuity in Mg bicrystals
7. Thin-walled LPBF-manufactured Inconel 718 honeycomb structures: Multiscale characterization
8. Sample size dependence of mechanical properties in metallic materials
9. Intelligent processing and development of high-performance automotive aluminum alloys: Application of physics-based and data-driven modeling
10. Comparing the effect of different parameters on the fatigue behavior of aerospace aluminum alloys
11. Multiscale model-based design of high-strength alloys with reduced hydrogen embrittlement susceptibility
12. Microstructural predictions of how processing and additive manufacturing can affect the mechanical behavior of Inconel alloys
13. Breaking boundaries: Deformation processing techniques for the next generation of lightweight and high-strength materials
2. An overview on recent processing, metallurgy, and experiments related to microstructure engineering in additive manufacturing
3. Dislocations in processing and material behavior
4. Machine learning-enabled parametrically upscaled constitutive models for bridging length scales in Ti and Ni alloys
5. Data-driven approaches for computational modelling for plasticity, fatigue, and fracture behavior of alloys
6. Twin transmission and variant continuity in Mg bicrystals
7. Thin-walled LPBF-manufactured Inconel 718 honeycomb structures: Multiscale characterization
8. Sample size dependence of mechanical properties in metallic materials
9. Intelligent processing and development of high-performance automotive aluminum alloys: Application of physics-based and data-driven modeling
10. Comparing the effect of different parameters on the fatigue behavior of aerospace aluminum alloys
11. Multiscale model-based design of high-strength alloys with reduced hydrogen embrittlement susceptibility
12. Microstructural predictions of how processing and additive manufacturing can affect the mechanical behavior of Inconel alloys
13. Breaking boundaries: Deformation processing techniques for the next generation of lightweight and high-strength materials
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Aluminum; titanium; magnesium; martensitic steel; austenitic steel; high entropy alloys; additive manufacturing; characterization; dynamics; experimental mechanics; computational modeling; microstructure; machine learning
1. Process-structure-property models for metal additive manufacturing using AI/ML approaches
2. An overview on recent processing, metallurgy, and experiments related to microstructure engineering in additive manufacturing
3. Dislocations in processing and material behavior
4. Machine learning-enabled parametrically upscaled constitutive models for bridging length scales in Ti and Ni alloys
5. Data-driven approaches for computational modelling for plasticity, fatigue, and fracture behavior of alloys
6. Twin transmission and variant continuity in Mg bicrystals
7. Thin-walled LPBF-manufactured Inconel 718 honeycomb structures: Multiscale characterization
8. Sample size dependence of mechanical properties in metallic materials
9. Intelligent processing and development of high-performance automotive aluminum alloys: Application of physics-based and data-driven modeling
10. Comparing the effect of different parameters on the fatigue behavior of aerospace aluminum alloys
11. Multiscale model-based design of high-strength alloys with reduced hydrogen embrittlement susceptibility
12. Microstructural predictions of how processing and additive manufacturing can affect the mechanical behavior of Inconel alloys
13. Breaking boundaries: Deformation processing techniques for the next generation of lightweight and high-strength materials
2. An overview on recent processing, metallurgy, and experiments related to microstructure engineering in additive manufacturing
3. Dislocations in processing and material behavior
4. Machine learning-enabled parametrically upscaled constitutive models for bridging length scales in Ti and Ni alloys
5. Data-driven approaches for computational modelling for plasticity, fatigue, and fracture behavior of alloys
6. Twin transmission and variant continuity in Mg bicrystals
7. Thin-walled LPBF-manufactured Inconel 718 honeycomb structures: Multiscale characterization
8. Sample size dependence of mechanical properties in metallic materials
9. Intelligent processing and development of high-performance automotive aluminum alloys: Application of physics-based and data-driven modeling
10. Comparing the effect of different parameters on the fatigue behavior of aerospace aluminum alloys
11. Multiscale model-based design of high-strength alloys with reduced hydrogen embrittlement susceptibility
12. Microstructural predictions of how processing and additive manufacturing can affect the mechanical behavior of Inconel alloys
13. Breaking boundaries: Deformation processing techniques for the next generation of lightweight and high-strength materials
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
