Laser cladding of metals / Pasquale Cavaliere, editor.
Cavaliere, Pasquale, editor.
2021
TA491 .L37 2021eb
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Title Laser cladding of metals / Pasquale Cavaliere, editor.
ISBN 9783030531959 (electronic bk.)
3030531953 (electronic bk.)
3030531945
9783030531942
DOI https://doi.org/10.1007/978-3-030-53195-9
Published Cham, Switzerland : Springer, [2021]
Language English
Description 1 online resource (xi, 441 pages) : illustrations (some color)
1 online resource
Item Number 10.1007/978-3-030-53195-9 doi
Call Number TA491 .L37 2021eb
Dewey Decimal Classification 671.73
Summary Laser cladding is an additive manufacturing technology capable of producing coatings due to the surface fusion of metals. The selected powder is fed into a focused laser beam to be melted and deposited as coating. This allows to apply material in a selected way onto those required sections of complex components. The process main properties are the production of a perfect metallurgically bonded and fully dense coatings; the minimal heat affected zone and low dilution between the substrate and filler material resulting in functional coatings that perform at reduced thickness, so fewer layers are applied; fine, homogeneous microstructure resulting from the rapid solidification rate that promotes wear resistance of carbide coatings; near net-shape weld build-up requires little finishing effort; extended weldability of sensitive materials like carbon-rich steels or nickel-based superalloys that are difficult or even impossible to weld using conventional welding processes; post-weld heat treatment is often eliminated as the small heat affected zone minimizes component stress; excellent process stability and reproducibility because it is numerical controlled welding process. The typical applications are the dimensional restoration; the wear and corrosion protection; additive manufacturing. The wide range of materials that can be deposited and its suitability for treating small areas make laser cladding particularly appropriate to tailor surface properties to local service requirements and it opens up a new perspective for surface engineered materials. The main key aspect to be scientifically and technologically explored are the type of laser; the powders properties; the processing parameters; the consequent microstructural and mechanical properties of the processed material; the capability of fabrication of prototypes to rapid tooling and rapid manufacturing. Distills critical concepts, methods, and applications from leading full-length chapters, along with the authors's own deep understanding of the material taught, into a concise yet rigorous graduate and advanced undergraduate text; Reinforces concepts covered with detailed solutions to illuminating and challenging industrial applications; Discusses current and future applications of laser cladding in additive manufacturing.
Bibliography, etc. Note Includes bibliographical references and index.
Access Note Access limited to authorized users.
Digital File Characteristics text file
PDF
Source of Description Online resource; title from PDF title page (SpringerLink, viewed February 2, 2021).
Added Author Cavaliere, Pasquale, editor.
Available in Other Form Print version: 9783030531942
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Intro
Preface
Contents
Nomenclature
Chapter 1: Laser Cladding
Additive Manufacturing
1.1 Introduction to Additive Manufacturing with Laser Cladding
1.2 Laser Cladding Setup for Additive Manufacturing
1.3 Process Parameters of Laser Cladding
1.4 Power-Based Laser Cladding with its Limitations and Possibilities
1.5 Creation of Multi-Material Components
1.6 Conclusion and Outlook
References
Chapter 2: Additive Manufacturing by Laser Cladding: State of the Art
2.1 Introduction
2.2 Materials for Laser Cladding
2.3 Clad Geometry

2.4 Textures and Microstructure Evolution
2.5 Laser Cladding Monitoring and Control
2.6 Conclusions
References
Chapter 3: Laser Cladding of Metals by Additive Manufacturing: Moving Toward 3D Printing
3.1 Introduction
3.2 Additive Manufacturing of Metals: Processes and Materials
3.2.1 Description of AM Processes
3.2.2 Common Alloys Currently Used for Additive Manufacturing of Metals
3.2.3 Common Potential Defects Forming during AM of Metals
3.3 Predictive Tools for Optimization of Metal AM Processes
3.3.1 Physics-Based Modeling

3.3.2 In Situ Monitoring and Control
3.4 Further Aspects of AM for Metals: Industrial Market and Current Challenges
3.4.1 Industrial Market: History and Outlook
3.4.2 Current Challenges
3.5 Conclusion
References
Chapter 4: CET Model to Predict the Microstructure of Laser Cladding Materials
4.1 Introduction
4.2 State of the Art
4.3 Modeling of Laser Cladding Process
4.3.1 Attenuation of Laser Beam on Subtract by Effect of the Powder Shadow
4.3.2 Energy and Mass Balance on the Substrate Surface by Interaction of Powder and Laser Beam

4.3.3 Energy Quantification for Powder Temperature by Use of Negative Enthalpy
4.3.4 Modeling of Phase Change for Inconel 718 and Temperature-Dependent Thermal Properties
4.3.5 Determination of Powder Temperature as Function of Laser Beam Power and Thermal Properties of Material
4.3.6 Effect of Change in Values of the Main Variables for Powder Attenuation over the Available Laser Beam Power for Substrate
4.3.7 Application of Energy Balance by Means of a General Type Heat Source on the Substrate to Obtain the Temperature Field

4.3.8 Determination of Melt Pool Temperatures as a Function of Attenuated Laser Beam and Thermal Properties of Material
4.3.9 Calculation of Temperature Gradient (GL) for Liquid Isotherm and the Grow Rate (V) in the Melt Pool
4.3.10 Metallurgy of Laser Cladding Process
4.4 Crystallization Model
4.4.1 Relationship Between a Solidification Map and Gäumann's Crystallization Model
4.4.2 Objectives of the Crystallization Model
4.4.3 Model of Crystallization Based on Gäumann's Model as a Probability Distribution

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