The 7th Powder Metallurgy and Additive Manufacturing of Titanium (PMTi 2024)
Published on 31. March 2025
238 pages
978-3-0357-3313-6 (ISBN)
Description
The 7th edition of the International Conference on Powder Metallurgy and Additive Manufacturing of Titanium, PMTi2024, was held in Madrid, Spain, for the first time after a successful series of previous conferences held in Australia, New Zealand, Germany, China, the United States and Canada. Having gathered researchers and professionals on the processing, design and application of titanium and its alloys fabricated by powder metallurgy and additive manufacturing technologies, it was a big success, providing a great insight into different topics. This publication is organised into six chapters comprising a selection of articles from the contributions that were presented during the conference.
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Trans Tech Publications Ltd | Elena Gordo Odériz | Elisa Maria Ruiz-Navas
The 7th Powder Metallurgy and Additive Manufacturing of Titanium (PMTi 2024)
Book
03/2025
Trans Tech Publications Ltd
€222.84
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Content
Preface
Chapter 1: Titanium Aluminides
Powder Metallurgy and Heat Treatment Effects on Microstructure in a ?-TiAl Ti-4522XD Alloy
Sintering Titanium Aluminides with Co Addition
Effect of Heat Treatment Temperature and Rolling on Microstructure and Mechanical Property of Powder Metallurgy Ti43Al9V(Y) Alloy in Electron Backscattering Diffraction
Chapter 2: Titanium Matrix Composites
Recent Developments in Producing Highly Dense Ti Matrix Composites via Powder Metallurgy Approaches
Additive Manufacturing of TiBw-Reinforced Titanium Matrix Composites Fabricated by Electron Beam Melting: Microstructure and Mechanical Properties
Optimizing Titanium-Boron Carbide Composites for Aerospace Manufacturing via Plasma Metal Deposition
Microstructural Development of Ti-35Nb-TiC Metal Matrix Composites
Enhancing Wear Resistance of Titanium Alloys: Insights from Tribological Testing
Improvement of the Mechanical Properties of a P/M Ti-6Al-4V Alloy with Additions of Carbon and Silicon
Chapter 3: Metal Injection Molding and Sinter-Based Additive Manufacturing
Suitability of Novel Titanium Powder for Metal Injection Moulding Application
Interaction of Binder and Powder in Processing of Titanium by MEX-AM
Processing of a Beta Titanium Alloy by Metal Injection Molding (MIM)
Comparing Lithography-Based Metal Manufacturing for Titanium with Established Processes such as Cold Metal Fusion
Chapter 4: Other Additive Manufacturing Techniques
Large Titanium Preforms Manufactured by Cold Spray
Manufacturing of a Ti6Al4V Aerospace Component by Metallic Wire Based Laser Beam Directed Energy Deposition
Ti and Co-Cr-Mo Alloy Dissimilar Surface Modification Obtained by Laser Surface Alloying / Additive Manufacturing
Effect of Layer Thickness and Particle Size Distribution on the Microstructure and Properties of Ti6Al4V Processed by Laser Powder Bed Fusion
Chapter 5: Sustainability and Recycling
Exploitation of FAST/SPS to Recycle Surplus Titanium Alloy Particulates for Sustainable Solutions and near Net Shape Components
3D Printing of Ti-6Al-4V Parts from Waste Material
Effect of the Scanning Speed and Powder Recycling Impact on Titanium Ti-6Al-4V Alloy by PBF - L/M
Chapter 6: Some Specialized Applications
Porous Titanium for Biomedical Applications Produced Using Coarse Titanium Powder via the Space Holder Technique
Comparison between TiN Coating on Porous Ti-6Al-4V Produced by PBF-EB/M or PM for Bipolar Plates in PEM Fuel Cells
Powder Metallurgy Technologies for Low-Cost Titanium-Based Laminated Armor
Sintered Titanium Sponge Using Stop-Controlled SPS Technology
Chapter 1: Titanium Aluminides
Powder Metallurgy and Heat Treatment Effects on Microstructure in a ?-TiAl Ti-4522XD Alloy
Sintering Titanium Aluminides with Co Addition
Effect of Heat Treatment Temperature and Rolling on Microstructure and Mechanical Property of Powder Metallurgy Ti43Al9V(Y) Alloy in Electron Backscattering Diffraction
Chapter 2: Titanium Matrix Composites
Recent Developments in Producing Highly Dense Ti Matrix Composites via Powder Metallurgy Approaches
Additive Manufacturing of TiBw-Reinforced Titanium Matrix Composites Fabricated by Electron Beam Melting: Microstructure and Mechanical Properties
Optimizing Titanium-Boron Carbide Composites for Aerospace Manufacturing via Plasma Metal Deposition
Microstructural Development of Ti-35Nb-TiC Metal Matrix Composites
Enhancing Wear Resistance of Titanium Alloys: Insights from Tribological Testing
Improvement of the Mechanical Properties of a P/M Ti-6Al-4V Alloy with Additions of Carbon and Silicon
Chapter 3: Metal Injection Molding and Sinter-Based Additive Manufacturing
Suitability of Novel Titanium Powder for Metal Injection Moulding Application
Interaction of Binder and Powder in Processing of Titanium by MEX-AM
Processing of a Beta Titanium Alloy by Metal Injection Molding (MIM)
Comparing Lithography-Based Metal Manufacturing for Titanium with Established Processes such as Cold Metal Fusion
Chapter 4: Other Additive Manufacturing Techniques
Large Titanium Preforms Manufactured by Cold Spray
Manufacturing of a Ti6Al4V Aerospace Component by Metallic Wire Based Laser Beam Directed Energy Deposition
Ti and Co-Cr-Mo Alloy Dissimilar Surface Modification Obtained by Laser Surface Alloying / Additive Manufacturing
Effect of Layer Thickness and Particle Size Distribution on the Microstructure and Properties of Ti6Al4V Processed by Laser Powder Bed Fusion
Chapter 5: Sustainability and Recycling
Exploitation of FAST/SPS to Recycle Surplus Titanium Alloy Particulates for Sustainable Solutions and near Net Shape Components
3D Printing of Ti-6Al-4V Parts from Waste Material
Effect of the Scanning Speed and Powder Recycling Impact on Titanium Ti-6Al-4V Alloy by PBF - L/M
Chapter 6: Some Specialized Applications
Porous Titanium for Biomedical Applications Produced Using Coarse Titanium Powder via the Space Holder Technique
Comparison between TiN Coating on Porous Ti-6Al-4V Produced by PBF-EB/M or PM for Bipolar Plates in PEM Fuel Cells
Powder Metallurgy Technologies for Low-Cost Titanium-Based Laminated Armor
Sintered Titanium Sponge Using Stop-Controlled SPS Technology
