Pathak / Saha | Cold Spray in the Realm of Additive Manufacturing | Buch | 978-3-030-42758-0 | www2.sack.de

Buch, Englisch, 245 Seiten, Format (B × H): 155 mm x 235 mm, Gewicht: 394 g

Reihe: Materials Forming, Machining and Tribology

Pathak / Saha

Cold Spray in the Realm of Additive Manufacturing


1. Auflage 2020
ISBN: 978-3-030-42758-0
Verlag: Springer

Buch, Englisch, 245 Seiten, Format (B × H): 155 mm x 235 mm, Gewicht: 394 g

Reihe: Materials Forming, Machining and Tribology

ISBN: 978-3-030-42758-0
Verlag: Springer

This book sheds light on the development of the cold spray process in applications of additive manufacturing (AM) and repair/remanufacturing engineering. It covers the process fundamentals of different cold spray techniques, namely low pressure cold spray and high pressure cold spray process. Bonding mechanism and powder substrate interface are an important part of the book. The chapters present the recent developments in materials used in cold spraying for AM and various coating applications. The latest research in this area as well as possible avenues of future research are also highlighted as a way to encourage the researchers.

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Zielgruppe

Research

Autoren/Hrsg.

Pathak, Sunil
Saha, Gobinda C.

Fachgebiete

Weitere Infos & Material

INTRODUCTION

SECTION I                                                                                                    [3 Chapters]

Mechanism and Technology of Cold Spray Process

Process fundamentals, bonding mechanism, powder-substrate interface, effects of various different parameters of process, powder and substrate on the coatings/product, new developments in process to improve process efficiency, Comparative Study of Cold Spray with other traditional and advanced deposition processes and applications of cold spraying.

Chapter 1: Cold Spray Mechanism, types and recent development

Chapter 2: On Effects of Different Parameters on Morphology and Metrology of cold sprayed components

Chapter 3: Comparative Study of Cold Spray with other traditional and advanced deposition processes

 

SECTION II                                                                                                 [2 Chapters]

Evolution and Advancement in Cold Spray Machines and Arrangements

Spray equipment development, novelty in design, Modified equipment’s for special purpose coatings and for additive manufacturing, and repair or remanufacturing applications etc…

Chapter 4:  Advanced in Spraying Nozzle Design for 3D complex Shaped Components in CS

Chapter 5: Novel Modification in CS for Repair and Remanufacturingn  Applications

SECTION III                                                                                                  [4 Chapters]

Development of Cold Spray Additive Manufacturing (CSAM) and Restoration (CSR)

Advancement in cold spray processes for development of 3D components for automobile, aerospace, biomedical. Applications oriented research on biofouling, plating, joining of thin and thick sheets of same and different materials, Hybrid processes based on cold spraying such as Cold spray-friction stir welding, Simultaneous manufacturing and machining using cold spray etc.

Chapter 6: CSAM in biomedical applications

Chapter 7: CSAM of high strength advanced materials.

Chapter 8: Hybrid cold spraying for AM applications

Chapter 9: Cold spraying as replacement for electroplating

SECTION IV                                                                                               [2-3 Chapters]

Recent Materials Development for Cold spray based AM

Advanced feedstock powder development, nanostructured particles in preference, use of various energy efficient materials in cold spray and their characterizations, Cold spraying of plastic etc…

Chapter 10:  Advancement in Material Prospective in Cold Spraying

Chapter 11: Cold Spraying of Plastics, Etc.

SECTION V        OTHER RELATED TOPICS                                          [2-3 Chapters]

Cold spray coatings and their performance behaviour in wear applications, corrosion resistance, Coatings characterization and testing, field trial results, Coating multifunctionality, control of process parameters, optimization techniques, metrology of cold prayed intricate shaped components etc…

Chapter 12: Performance Enhancement of Cold Spraying through parametric optimization

Chapter 13: Inspection Procedure and processes for intricate shaped cold prayed components.

Chapter 14: Advancement in Additive manufcaturing using natural fibers through CS

Prospective Contributors (planned to be contacted)

Dr. Antonello Astarita, University of Naples “Federico II”, Italy

Dr. Julio Villafuerte, Centreline Windsor Ltd, Canada

Dr. Pierre-Laurent Coddet, Université d'Orléans, France

Dr. Christian A Widener, South Dakota School of Mines & Technology, USA

Dr. Heli Koivuluoto, Tampere University of Technology, Finland

Dr Saden Zahiri, CSIRO, Australia

Dr. Ramin Ghelichi, Politecnico Di Milano, Milan, Italy

Dr. Hamid Jahedmotlagh, Unversity of Waterloo, Canada

Dr. Mario Guagliano, Politecnico Di Milano, Milan, Italy

Dr. Hong Gao, College of Power Engineering, Chongqing University, Chongqing, China

Dr. Zhang Jishan, Beijing University of Science and Technology, China

Dr. Pravansu Mohanty, University of Michigan-Dearborn, MI

Dr. Sunny Zafar, Indian Institute of Technology Mandi, India

Dr. Sunil Pathak is specialized in gear engineering and advanced/hybrid manufacturing processes. He has been working in the field of gear engineering since last 9 years and advanced manufacturing for over 6 years. He has conducted extensive research on advanced finishing of gears. He possesses specialized skills in gear finishing, gear metrology (micro, and macro-geometry) and measurement of gear accuracy. Presently he has been working on machining of difficult-to- machine materials using advanced machining processes such as EDM and WEDM. He is also working in developing cold spray coatings as sustainable process for manufacturing of 3D additive manufacturing components and repair/remanufacturing engineering, where he has specially gained experience in materials and remanufacturing engineering. He has developed analytical models of manufacturing processes and optimizing parameters to achieve overall sustainability in manufacturing.

Dr. Gobinda Saha is an Associate Professor and Director of Nanocomposites and Mechanics Laboratory at the University of New Brunswick, Canada. In recent past, Dr. Saha has led the R&D division at two successive nanocomposites manufacturing companies in conjunction with academic appointment at the University of Calgary, Canada. His focused research and innovation work in bio- and nanostructured materials and additive manufacturing is dedicated to serve as bridge building between industry and academia, on the divulsion of theoretical knowledge into applied solutions. Pertaining work in nanostructured materials has contributed to design, synthesis, testing, and commercialization of two surface protective coating systems for oil and gas industry, developed on the high velocity oxy-fuel and cold spraying methodology. Simultaneously, Dr. Saha’s research in design, fabrication, processing, and characterization/testing of smart optical sensor reinforced FRP composites and modelling has contributed to the dissemination of knowledge through peer-review publication in over 50 research papers, two patents, as well as a strong supervision of graduate thesis research track record. Dr. Saha has given numerous invited talks on the topic of ‘Nanostructured Cermet Composites and Biocomposites’. He has served as the Chair of ASME Composites & Heterogeneous Materials Technical Committee, as well the founding member of the Joint Canada-USA Regulatory Cooperation Council on developing strategies for nanomaterials including risk assessment and management and uses of industrial nanomaterials.

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