Radzevich, S. P.
Kinematic Geometry of Surface Machining
CRC Press 2007.12
536 pp.(H)
ISBN 1-4200-6340-5
20,100円
Contents
Part I: Basics: 1.Part Surfaces: Geometry/ 2.Elements of differential geometry of surfaces/ 3.On difference between classical differential geometry and engineering geometry/ 4.On classificationof surfaces/ 5.Kinematics of Surface Generation/ 6.Kinematics of sculptured surface generation/ 7.Generating motions of the cutting tool/ 8.Motions of orientation of the cutting tool/ 9.Relative motions those causing sliding of a surface over itself/ 10.Feasible kinematic schemes of surface generation/ 11.On a possibility of the replacement of axodes with pitch surfaces/ 12.Examples of implementation of the kinematic schemes of surface generation/ 13.Applied Coordinate Systems and Linear Transformations/ 14.Applied coordinate systems/ 15.Coordinate system transformation/ 16.Useful equations/ 17.Chains of consequent linear transformations and a closed loop of consequent coordinate systems transformations/ 18.Impact of the coordinate systems transformations on fundamental forms of the surfaces/ Part II: Fundamentals: 19.The Geometry of Contact of Two Smooth Regular Surfaces/ 20.Local relative orientation of a part surface and of the cutting tool/ 21.The first order analysis: common tangent plane/ 22.The second order analysis/ 23.Rate of conformity of two smooth regular surfaces in the first order of tangency/ 24.Plker conoid: more characteristic curves/ 25.Feasible kinds of contact of the surfaces p and t/ 26.Profiling Of the Form Cutting Tools of the Optimal Design/ 27.Profiling of the form cutting tools for sculptured surface machining/ 28.Generating of enveloping surfaces/ 29.Profiling of the form cutting tools for machining parts on conventional machine tools/ 30.Characteristic line of the part surface and of the generation surface of the cutting tool/ 31.Selection of the form cutting tools of rational design/ 32.The form cutting tools having continuously changeable the generating surface/ 33.Incorrect problems in profiling of the form cutting tools/ 34.Intermediate conclusion/ 35.Geometry of Active Part of a Cutting Tool/ 36.Transformation of the body bounded by the generating surface T into the cutting tool/ 37.Geometry of the active part of cutting tools in the tool-in-hand system/ 38.Geometry of the active part of cutting tools in the tool-in-use system/ 39.On capabilities of the analysis of geometry of the active part of cutting tools/ 40.Conditions of Proper Part Surface Generation/ 41.Optimal work-piece orientation on the worktable of multi-axis NC machine/ 42.Necessary and sufficient conditions of proper part surface generation/ 43.Global verification of satisfaction of the conditions of proper part surface generation/ 44.Accuracy of Surface Generation/ 45.Two principal kinds of deviations of the machined surface from the nominal part surface/ 46.Local approximation of the contacting surfaces P and T/ 47.Computation of the elementary surface deviations/ 48.Total displacement of the cutting tool with respect to the part surface/ 49.Effective reduction of the elementary surface deviations/ 50.Principle of superposition of elementary surface deviations/ Part III: Application: 51.Selection of the Criterion of Optimization/ 52.Criteria of the efficiency of part surfaces machining/ 53.Productivity of surface machining/ 54.Interpretation of the surface generation output as a function of conformity/ 55.Synthesis of Optimal Surface Machining Operations/ 56.Synthesis of optimal surface generation: the local analysis/ 57.Synthesis of optimal surface generation: the regional analysis/ 58.Synthesis of optimal surface generation: the global analysis/ 59.Rational re-parameterization of the part surface/ 60.On a possibility of the DG/K-based CAD/CAM system for optimal sculptured surface machining/ 61.Examples of Implementation of the Dg/K-Based Method of Surface Generation/ 62.Machining of sculptured surfaces on multi-axis NC machine/ 63.Machining of surfaces of revolution/ 64.Finishing of involute gears/
* This one-of-a-kind resource guides you through this cutting-edge technique beginning with an analytical description of part surfaces, the basics of differential geometry for sculptured surfaces, and the principal elements of the multi-parametric motion on a rigid body in E3 space theory. The book reveals the analytical method for investigating cutting tool geometry and explains a set of described conditions required for proper part surface generation. Next, the author illustrates the selection of criterion for optimization and describes the synthesis of optimal machining operations. He includes examples of the DG/K based method of surface generation implementation.
* Written by a leading expert in the field who holds over 150 patents, Kinematic Geometry of Surface Machining invokes Occam痴 well-known philosophical principle so that you can apply the simplest solution to achieve optimal, time-saving surface machining processes. *
Dahotre, N. B. & Harimkar, S.
Laser Fabrication and Machining of Materials
Springer-Verlag 2008.
558 pp.(H)
ISBN 0-387-72343-9
13,400円
Contents
1.Basics of Lasers/ 2.Laser Materials Interaction/ 3.Manufacturing Processes/ 4.Laser Drilling/ 5.Laser Cutting/ 6.Three-Dimensional Machining/ 7.Laser Micromachining/ 8.Laser Forming/ 9.Laser Rapid Prototyping/ 10.Laser Welding/ 11.Laser Interference Processing/ 12.Laser Dressing/ 13.Laser Machining in Medical & surgical Applications/ index/
* Laser Fabrication and Machining of Materials introduces readers to the fundamental properties and physical phenomena of laser machining and its applications on the macro, micro, and nano scales. Examples of existing, emerging, and potential techniques are discussed, giving students and practicing engineers alike the opportunity to expand their use of lasers in such disciplines as mechanical processes, electronics, materials, and manufacturing. *
Ostrikov, K. & Xu, S.
Plasma-Aided Nanofabrication
From Plasma Sources to Nanoassembly
Wiley -VCH 2007.7
315 pp. (H)
ISBN 3-527-40633-6
14,400円
Contents
1. Introduction / 2.Generation of highly-uniform, high-density inductively coupled plasma / 3.Plasma sources: meeting the demands of nanotechnology / 4.Carbon-based nanostructures / 5.Quantum confinement structures / 6.Hydroxyapatite bioceramics / 7.Other examples of plasma-aided nanofabrication / 8.Further examples, conclusions and outlook / *
* In this single work to cover the use of plasma as nanofabrication tool in sufficient depth internationally renowned authors with much experience in this important method of nanofabrication look at reactive plasma as a nanofabrication tool, plasma production and development of plasma sources, as well as such applications as carbon-based nanostructures, low-dimensional quantum confinement structures and hydroxyapatite bioceramics. Written principally for solid state physicists and chemists, materials scientists, and plasma physicists, the book concludes with the outlook for such applications. *
Kane, D.M.
Laser Cleaning II
World Scientific Publishing Co.Pte. Ltd. 2006.
289 pp. (H)
ISBN 981-270-372-1
11,200円
Contents
1.Laser Cleaning and Surface Modifications: Applications in Nano- and Biotechnology / 2.An Overview of Experimental Research into the Laser Cleaning of Contaminants from Surfaces/ 3.Particle on a Surface: About Possible Acoustic and Plasmonics Effects in Dry Laser Cleaning/ 4.Axially Symmetries Focusing of Light in Dry Laser Cleaning and Nanopatterning/ 5.Liquid-Assisted Laser Shock Cleaning for Nanoscale Particle Removal/ 6.UV Laser-Induced Dehydroxylation of UV Fused Silica Surfaces/ 7.Removal of Silica Microspheres from Glass and Silica Substrates by Dry Laser Cleaning/ 8.The Effect of Pulse Shape on 3D Modeling of Laser Cleaning Fluences/ 9.Nanoparticles During Laser Cleaning of Decoration Samples of Sigismunds Chapel/ 10.Femtosecond Laser Cleaning of Metallic Antique Artworks Advantages, Limits and Economic Aspects/ 11.Ultrafast Laser Cleaning of Museum Artifacts/ 12.Laser Cleaning of Entrance Window During Ultra-Fast Pulsed Laser Deposition/ 13.Surface Cleaning of Optical Materials Using Novel VUV Sources/ 14.Micro- and Nano-Machining with Ultrashort Laser Pulses: From Basic Science to the Real World/ 15.Optical Surface Profilometry of Low Reflectance Materials Evaluation as a Laser Processing Diagnostic/ * and other papers / *
Cui, Zheng
Micro-Nanofabrication
Technologies and Applications
Springer-Verlag 2005.
304 pp. (H)
ISBN 3-540-28922-4
12,000円
Contents
1.Introduction.- 2.Optical Lithography.- 3.Electron Beam Lithography.- 4.X-ray lithography.- 5.Etching technology.- 6.Replication technology.- 7.Applications of micro-nanofabrication technologies/ *
* The book is a collection of the author's years of experience and research findings, as well as the latest development, in micro-nanofabrication technologies. It gives a detailed introduction on the basics of micro-nanofabrication, including optical lithography, electron beam lithography, focused ion beam technique, X-ray lithography, various etching and replication techniques. *
Bishop, C.A.
Vacuum Deposion Onto Webs, Films and Foils
William Andrew 2006.11
650 pp.(H)
ISBN 0-8155-1535-9
25,200円
Contents
Section I: Vacuum Basics.: 2. Products using vacuum deposited coatings/ 3. Pressure Measurement/ 4. Pumping/ 5. Process Diagnostics & Coating Characteristics/ 6. Leaks, water vapour and leak testing/ 7. Mass spectrometers, Helium leak detectors & residual gas analysers/ 9. Surface treatment of webs & foils/ 10. Nucleation, coalescence & film growth/ Section III. Process: 11. The D.C. Glow Discharge or Plasma/ 12. Electron beam (e-beam) evaporation/ 13. Thermal evaporation/ 14. Radiant heated and Induction heated sources/ 15. Chemical Vapour Deposition / Polymerisation onto webs/ 16. Planar Magnetron Sputtering source design and operation/ 17. Planar magnetron design options/ 18. Reactive deposition ミ set-up & control/ Section IV: System issues: 20. Heat load on the webs/foils/ 21. Process variables/ 22. Mechanical design/ 23. Winding webs in vacuum/ 24. Metallizer machine building trends/ 25. System design/ 26. Hazards/ 27. Troubleshooting/
* Vacuum Deposition onto Webs, Films, and Foils is a comprehensive reference work for anybody working in vacuum coating of polymer films. The book contains detailed sections on all aspects of this technology, from the vacuum itself to the coating process, from winding to troubleshooting. *
585-18 登録日 08.02.17
