Description |
1 online resource (580 p.). |
|
text txt rdacontent |
|
computer c rdamedia |
|
online resource cr rdacarrier |
Series |
Additive manufacturing materials and technologies
|
|
Additive Manufacturing Materials and Technologies Series.
|
Note |
Description based upon online resource; title from PDF title page (viewed October 23rd, 2023). |
Bibliography |
Includes bibliographical references and index. |
Contents |
Intro -- Additive Manufacturing of High-Performance Metallic Materials -- Copyright -- Contents -- Contributors -- Preface -- Chapter 1: Metal additive manufacturing: Motivation, process portfolio, and application potential -- Motivation for AM and materials for metal AM -- Nickel-based alloys -- Chemistry -- Phase constituents -- Titanium alloys -- Advantages and challenges in metal AM -- Processes for metal AM-Powder bed fusion and directed energy deposition techniques -- References -- Chapter 2: Metal powders for additive manufacturing of superalloys and titanium alloys -- Introduction |
|
Powder manufacturing -- Metallurgy -- Atomization -- Powder particle sizing -- Powder characteristics -- Chemical composition -- Sampling of metal powders -- Particle size distribution -- Powder particle morphology -- Apparent density -- Tap density -- Flowability -- Hausner ratio -- Spreadability and feeding -- References -- Chapter 3: Wires for metal additive manufacturing -- Introduction -- Wires for AM -- Classification of wires -- Ti alloys -- Ni alloys -- Procurement, testing, and delivery of wires -- Lot class and level of testing -- Certification -- Delivery condition -- Storage |
Summary |
Acknowledgment -- References -- Chapter 4: Processing of high-performance materials by electron beam-powder bed fusion -- Introduction -- Description of the EB-PBF process -- Description of critical process parameters -- Machine-related parameters -- Geometry and position-related parameters -- Overview of EB-PBF process physical phenomena -- Nickel-based superalloys in EB-PBF process -- Defects -- Round pores -- Lack-of-fusion (LoF) -- Shrinkage pores -- Cracks -- Strategies in EB-PBF to control cracking -- Grain structures -- Typical grain structure -- Effect of process parameters |
Contents |
Phases -- Phases evolution and influence of process parameters -- Titanium alloys -- Microstructure -- Effect of energy density on microstructure -- Effect of build location on microstructure -- Defects -- Effect of process parameter on defect generation -- Effect of process parameter on surface roughness -- Summary -- References -- Chapter 5: Processing of high-performance materials by laser beam-powder bed fusion -- Introduction -- Process description -- Key advantages of LB-PBF process -- Process parameters -- Powder-related process parameters -- Machine-related process parameters -- Defects |
|
Materials used for LB-PBF process -- Nickel-based superalloys -- Alloy 718 -- Alloy 247LC -- Titanium alloys -- Effect of scanning strategy -- Effect of build orientation -- Effect of laser characteristics -- Latest high productivity theme development -- Microstructure of LB-PBFB built titanium -- Concluding remarks: Challenges, opportunities, and future trends -- References -- Chapter 6: Processing of high-performance materials by laser-directed energy deposition with powders -- Introduction -- Process description -- Process hardware and set-up -- Machine-related process parameters |
Note |
Stand-off distance |
Subject |
Additive manufacturing -- Materials.
|
|
Metallic composites.
|
|
Fabrication additive -- Matériaux.
|
|
Composites à matrice métallique.
|
|
Metallic composites
|
Added Author |
Andersson, Joel, author.
|
|
Joshi, Shrikant, author.
|
Other Form: |
Print version: Pederson, Robert Additive Manufacturing of High-Performance Metallic Materials San Diego : Elsevier,c2023 9780323918855 |
ISBN |
0323913822 electronic book |
|
9780323913829 (electronic bk.) |
|
0323918859 |
|
9780323918855 |
|