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Proceedings of 16th International Conference on Emerging Materials and Nanotechnology 2018
Mar 22-23, 2018 London, UK Key Topics : Materials and Devices, Emerging Materials for Energy Storage, Materials Science and Engineering, Next-Generation Materials, Nanotechnology in Materials Science, Energy Materials, Mining and Metallurgy, Surface Science and Engineering, Biomaterials and Tissue Engineering, Materials Characterization, Polymer Technology, Electrical, Optical and Magnetic Materials, Materials Chemistry and Physics, Advanced Materials, Materials Applications
Proceedings of 11th International Conference on Advanced Materials & Processing 2017
September 7-8 2017 Edinburgh, Scotland Key Topics : Advanced Materials Engineering, Advanced Ceramics and Composite Materials, Polymers Science and Engineering, Advancement in Nanomaterials Science And Nanotechnology, Metals, Metallurgy and Materials, Optical, Electronic and Magnetic Materials, Advanced Biomaterials, Bio devices & Tissue Engineering, Materials for Energy application& Energy storage, Carbon Based Nanoscale Materials, Entrepreneurs Investment Meet, Materials Processing and characterization, Processing and Fabrication of Advanced Materials, Emerging Areas of Materials Science, Materials Based Engineering Design and Control, Materials Engineering and Performance, Materials Science and Engineering, Needs, Priorities and Opportunities For Materials, Material Properties at High Temperature Applications, Coatings and Surface Engineering, Functional Materials, Materials For Engineering and Environmental Sustainability,
Proceedings of the 13th World Conference on Titanium
This book contains the Proceedings of the 13th World Conference on Titanium.
High Pressure Technology of Nanomaterials
The aim of the celebrated High Pressure School (HPS) is to provide a platform where both young and experienced researchers can meet and exchange their experiences in high-pressure research techniques.
Nanocrystalline Titanium
Nanocrystalline Titanium discusses the features of nanocrystalline titanium production by various SPD methods, also comparing their microstructure and properties. The authors characterize the physical, chemical and mechanical properties of ultrafine grained titanium, indicating which are crucial for their application. Titanium alloys are characterized by high specific strength combined with excellent corrosion resistance, whereas the mechanical properties of pure (or commercial purity - CP) titanium are much lower. SPD methods are proving to be an effective way to increase strength, even to a level typical for structural titanium alloys. This book is useful for academics and professionals studying the behavior of metallic materials. - Discusses various SPD techniques and their applications for titanium - Previews the limitations of SPD methods for titanium, along with the problems that can be encountered during production - Characterizes the physical, chemical and mechanical properties of ultrafine grained titanium and indicates which are crucial for its production applications
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