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Fly Cutting Technology for Ultra-precision Machining de Suet To

Fly Cutting Technology for Ultra-precision Machining: Precision Manufacturing

Editat de Suet To, Sujuan Wang
en Limba Engleză Hardback – 24 aug 2023

Diferențiindu-se de documentația tehnică standard care prezintă adesea doar parametrii nominali de funcționare, Fly Cutting Technology for Ultra-precision Machining oferă o analiză profundă a variabilelor care afectează integritatea suprafeței în mediul real de producție. Apreciem modul în care volumul transformă teoria frezării raster de ultra-precizie într-un ghid aplicat, adresând direct provocările legate de generarea suprafețelor cu geometrie liberă (freeform).

Structura cărții este riguros organizată pentru a ghida cititorul de la principiile de lucru către factorii perturbatori. După o introducere în mecanismele de așchiere, conținutul explorează succesiv influența vibrațiilor și a înclinației axului (spindle), uzura sculei și, esențial, modul în care proprietățile materialului influențează rezultatul final. Această progresie logică indică o acoperire exhaustivă a procesului de UPRM (Ultra-precision Raster Milling), oferind soluții pentru obținerea rugozității nanometrice solicitate în industrii de vârf precum optica sau biotehnologia.

Complementar volumului Ultra-precision High Performance Cutting de Ekkard Brinksmeier, care se axează pe viteze mari de așchiere și strategii de control la peste 10.000 rpm, lucrarea editată de Suet To și Sujuan Wang pune accent pe optimizarea costurilor și pe mecanismele specifice de generare a suprafeței prin tehnologia fly cutting. În contextul operei editorului, această apariție completează temele abordate în Fabrication of Micro/Nano Structures via Precision Machining, făcând trecerea de la metodele generale de micro-prelucrare la o tehnologie specifică, extrem de flexibilă și eficientă. Reținem acest titlu ca pe o resursă tehnică vitală pentru înțelegerea fenomenelor fizice care apar la scară sub-micrometrică în ingineria producției moderne.

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Specificații

ISBN-13: 9789819907373
ISBN-10: 9819907373
Pagini: 458
Ilustrații: XVII, 458 p. 316 illus., 252 illus. in color.
Dimensiuni: 155 x 235 mm
Greutate: 0.93 kg
Ediția:1st ed. 2023
Editura: Springer Nature Singapore
Colecția Springer
Seria Precision Manufacturing

Locul publicării:Singapore, Singapore

De ce să citești această carte

Recomandăm această carte inginerilor și cercetătorilor care au nevoie de o fundamentare tehnică solidă în utilizarea tehnologiei fly cutting. Cititorul câștigă o înțelegere clară a modului în care vibrațiile utilajului și proprietățile materialului dictează precizia nanometrică. Este un instrument esențial pentru oricine dorește să producă componente optice sau medicale de înaltă calitate cu costuri de producție optimizate.

Despre autor

Suet To este un expert recunoscut în domeniul ingineriei de precizie, activând în cercetarea proceselor de fabricație avansată. Expertiza sa se concentrează pe micro-prelucrare și tehnologii de ultra-precizie, fiind editor și autor al mai multor lucrări de referință. Printre contribuțiile sale notabile se numără studii despre fabricarea structurilor micro/nano și explorarea lacunelor tehnologice în prelucrarea sustenabilă. Prin volumul Fly Cutting Technology for Ultra-precision Machining, autorul își consolidează poziția de autoritate în optimizarea proceselor mecanice pentru suprafețe complexe, integrând experiența sa vastă în soluții practice pentru industria de înaltă tehnologie.

Descriere scurtă

This handbook covers the fly cutting technique, an ultra-precision mechanical machining technology which is regarded as the fastest and most reliable low-cost machining method to generate high quality complex surfaces.  The ultra-precision raster milling provides more flexibility and suitability for freeform and structural surfaces with a uniform quality with sub-micrometric form error and nanometric surface roughness. These surfaces are widely applied into optics, medicine, biotechnology, electronics, and communications. The fundamental and latest advancing knowledge of fly-cutting technology is important for the future development and applications in ultra-precision mechanical machining technology. This book provides a good reference for fly-cutting technology in ultra-precision machining for undergraduate and postgraduate students, researchers, engineers, and postdoctoral fellow in advanced manufacturing area. It gives the audience an overview of the working principles, processmechanism, salient features, applications, and research directions of ultra-precision fly-cutting technology.

Cuprins

Overview of Fly Cutting in Ultra-precision Machining.- Cutting Mechanism and Surface Generation in UPRM.- Spindle Vibration and Its Effects on Surface Generation.-Spindle Inclination Induce Effects on Surface Generation.- Tool Wear Induced Effects on Surface Generation.- Material Induced Effects on Surface Generation.- Applications.

Notă biografică

Prof. Sandy, Suet To is a Professor of the Department of Industrial and Systems Engineering of The Hong Kong Polytechnic University, Associate Director of State Key Laboratory of Ultra-precision Machining Technology. Prof. To was graduated from Kunming University of Science and Technology with Bachelor Degree in Mechanical Engineering and obtained her MPhil degree in Materials Science from Brunel University in UK and PhD in Ultra-precision Machining Technology from The Hong Kong Polytechnic University. She started her academic career as Assistant Professor in 2005 and promoted to Associate Professor and Professor in 2010 and 2018 respectively. Since 1994, she began to engage in the fundamental and applied researches in ultra-precision machining, micro/nanostructured surface, difficult-to-cut materials, advanced optical manufacturing, precision injection molding technology and material engineering. Her main research directions include the mechanism of ultra-precision machining, design and machining of micro-nanostructures, the influence of materials in ultra-precision machining, the processing mechanism of brittle materials and other materials, the machining strategy of multi-axis ultra-precision machining, the tool path generation, the online inspection of cutting tool and error compensation, and precision mold for plastic injection molding technology. Prof. To has successfully received grants from more than 20 research projects including General Research Fund from Hong Kong Research Grants Council, Innovation and Technology Fund of the Hong Kong Innovation and Technology Commission, National Natural Science Foundation of China, and the research projects jointly organized by the European Commission/Hong Kong Research Grants Council, etc. She has published four books, and more than 280 international journals (SCI) and 150 international conference papers. She has been invited to deliver Keynotes and invited talks at international conferences for many times. According to Web of Science, the academic papers published by Prof. To with ranking first in the fields of ultra-precision machining. In addition, she successfully obtained 13 granted patents as the first inventor. Prof. To's achievements in research and professional studies have been widely recognized locally and internationally. She has received the Second Class Technology Progress Award from China's Ministry of Education in 2009 and the Second Class in Natural Science Award from China's Ministry of Education in 2011 respectively. The developed project entitled "High Power LED Street Lighting System with a Modular Lamp Holder" beat 1,000 invention projects around the world and won three awards at the 36th Geneva International Invention and Innovative Technology and Products Exhibition in Switzerland, which include the Grand International Press Prize, the Gold Award, and the Award of High Scientific and Technological Level of Invention from the Romania Ministry of Education, Research and Youth at the 36th International Exhibition of Inventions, New Techniques & Products. The research project entitled "Micro-Nano Structure Surface by Rapid Prototyping Technology for Anti-counterfeiting" won the Gold Award and the Outstanding Ultra-Precision Technology Invention Award in the Asia International Innovation and Invention Award in 2019. Prof. To holds various honorary positions in professional bodies including Board Member of the Asian Society for Precision Engineering and Nanotechnology (ASPEN), Committee Member of the Production Engineering Division of the Chinese Society for Mechanical Engineers (CSME) and Associate Member of the International Academy for Production Engineering (CIRP). She also serves as Associate Editor for Journal of Materials Processing Technology and Editorial Board member in several international journals, such as Journal of Manufacturing and Materials Processing, Journal of Applied Optics, Journal of Nano-manufacturing and Metrology, International Journal of Extreme Manufacturing and Chinese Journal of Mechanical Engineering.
Dr. Grace, Sujuan Wang is an Associate professor of School of Electromechanical Engineering in Guangdong University of Technology. Dr. Wang obtained her Bachelor Degree in Mechanical Engineering from Harbin University of Science Technology, and MPhil degree in Mechanical Engineering from Harbin Institute of Technology and PhD degree in Ultra-precision Machining Technology from The Hong Kong Polytechnic University. Dr. Wang is one of core members of Guangdong Innovative Research team, Communication Review Expert of National Natural Science Foundation of China (NSFC) and Senior Member of China Society of Mechanical Engineering. Her major research areas include the ultra-precision machining, advanced optics manufacturing technology and development of ultra-precision machine tools. She has published over 60 research papers in international journals and conferences, as well as obtained morethan 10 patents in China. She has secured 5 NSFC projects and over 10 projects from Guangdong province and Guangzhou City.

Caracteristici

Describes the latest development in the field of fly-cutting technology in ultra-precision machining Includes working principles, process mechanisms and future research directions of fly-cutting technology Highlights spindle vibration and inclination, tool wear, material induced effects on surface generation