Theory of Machining (FSI-HTO-A)
| Academic year 2020/2021 |
| Supervisor: | prof. Ing. Miroslav Píška, CSc. | |||
| Supervising institute: | ÚST | |||
| Teaching language: | English | |||
| Aims of the course unit: | ||||
| The aim of the course is to provide students with basic knowledge from chip forming processes, evaluation of cutting process experiments and individual relations of cutting processes. In the area of cutting tools students will be made familiar with the designation of cutting planes and cutting angles of one- and multi-edge tools and with their graphical and analytic relations. | ||||
| Learning outcomes and competences: | ||||
| The subject familiarises students with the theory of deformation processes while cutting technical materials with various cutting tools. Also dealt with is their experimental evaluation. | ||||
| Prerequisites: | ||||
| Basics of machining | ||||
| Course contents: | ||||
| The course familiarises students with chip removing processes including side effects of deformation processes. The processes of individual types of machining are analyzed from the viewpoint of the mutual action of the cutting tool and the workpiece in order to clarify the relations between the cutting process and economic indicators. Acquired theoretical knowledge can be applied to optimize the cutting process. | ||||
| Teaching methods and criteria: | ||||
| The course is taught through lectures explaining the basic principles and theory of the discipline. Teaching is suplemented by practical laboratory work. | ||||
| Assesment methods and criteria linked to learning outcomes: | ||||
| Course-unit credit is awarded on condition of having attended the practicals and worked out individual assignments. Exam has a written and an oral part. | ||||
| Controlled participation in lessons: | ||||
| Individual assignments and result checking | ||||
| Type of course unit: | ||||
| Lecture | 13 × 2 hrs. | compulsory | ||
| Laboratory exercise | 13 × 2 hrs. | optionally | ||
| Course curriculum: | ||||
| Lecture | Classification of machining methods, mechanism of orthogonal cutting Plastic deformation in front of cutting edge, theory of chip formation Side-effects connected with chip forming, dynamics of cutting process Cutting forces and relations, specific cutting resistance Experimental dependences for particular methods of machining Cutting energy Warmth and temperature occurring during cutting process, factors influencing generation and distribution of warmth at chip forming area Regularity of cutting tool wear, wear forms Influence of cutting conditions to edge wear process Durability and life of cutting tool, edge wear criterion, dependence of durability on cutting conditions Effective durability from view point of productivity and costs Machinability of materials, types of machinability, methods for machinability estimation and material sorting into machinability classes Optimisation of cutting conditions, methodology of cutting conditions optimization determination during rough cutting and finishing |
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| Laboratory exercise | Plastic deformation, chip compression, shear plane Dynamics of cutting process, cutting forces, specific cutting resistance Experimental dependences for particular methods of machining Cutting energy Warmth and temperature occurring during cutting process, distribution of warmth at chip forming area Cutting tool wear, wear forms Influence of cutting conditions to edge wear process Durability and life of cutting tool, dependence of durability on cutting conditions Effective durability from view point of productivity and costs Machinability of materials, types of machinability, methods for machinability estimation Material sorting into machinability classes Optimisation of cutting conditions, determination of cutting condition optimization during rough cutting Determination of cutting condition optimization during finishing |
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| Literature - fundamental: | ||||
| 4. Shaw M.C. Metal Cutting Principles, Clarendon Press, Oxford, 1984 | ||||
| 6. Grote,K.H., Antonsson,E.K : Handbook of Mechanical Engineering. Springer. 2014.Stürtz GmbH, Würzburg.p.1576 ISBN: 978-3-540-49131-6 e-ISBN: 978-3-540-30738-9 | ||||
| 7. Chladil,J.-Humar,A.: Teorie obrabeni - priklady a cviceni, VUT Brno, 1991 | ||||
| 8. SANDVIK: Modern Metal Cutting, 1998 | ||||
| Literature - recommended: | ||||
| 1. Humar,A.: SK a rezna keramika pro obrabeni, Šumperk, 2001 | ||||
| 2. Pramet Sumperk: Prirucka obrabeni, Šumperk, 2002 | ||||
| 3. Grote,K.H., Antonsson,E.K : Handbook of Mechanical Engineering. Springer. 2014.Stürtz GmbH, Würzburg.p.1576 ISBN: 978-3-540-49131-6 e-ISBN: 978-3-540-30738-9 | ||||
| 4. SHAW, M. C. Metal Cutting Principles. Oxford University Press, 2nd ed., 2005, pp. 651, ISBN 0-19-514206-3. | ||||
| 5. Trent, M., Wright, K.: Metal Cutting.Butterworth–Heinemann, 2000.4th ed. 464 p. ISBN 0-7506-7069-X | ||||
| 6. TLUSTY, J. Manufacturing Process and Equipment. 1st edition. Prentice Hall, 1999. 928 s. ISBN 10-0201498650. | ||||
| 7. Gordana Globočki Lakić, Davorin Kramar, Janez Kopač: METAL CUTTING THEORY AND APPLICATIONS. Banja Luka and Ljubljana, 2014. p. 231. ISBN: 978-961-6536-85-1 | ||||
| The study programmes with the given course: | |||||||||
| Programme | Study form | Branch | Spec. | Final classification | Course-unit credits | Obligation | Level | Year | Semester |
| M2E-A | full-time study | M-IND Industrial Engineering | -- | Cr,Ex | 6 | Compulsory | 2 | 1 | W |
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