Teaching Package - Transport Engineering and Traffic
FIRST YEAR
Mathematical Analysis |
Number of credits: | 5 |
Type of course: | Fundamental |
Objectives: | The course offers the students theoretical and practical concepts of the Mathematical Analysis. |
Content: | Convergence: Sequences and series of real numbers, Power series, Fourier series. Continuity and Differentiability: Functions of several real variables, Implicit functions, The extreme values of a real function of several variables. Integral calculus: Definite integrals with parameters, Improper integrals, Line integrals of the first type, Multiple integrals, First type surface integrals. Elements of field theory. |
Teaching language: | Romanian |
Evaluation: | Written/oral examination |
Bibliography (selective): | 1. Diamandescu, A. - Analiză
Matematică, Vol. I, II, Editura Universitaria,
Craiova, 2005; 2. Diamandescu, A. – Îndrumar de Analiză Matematică, Editura Universitaria, Craiova, 2006; 3. Diamandescu, A. – Culegere de Probleme de Analiză Matematică, Editura Universitaria, Craiova, 2007; 4. Diamandescu, A. – Matematici Generale, Editura Universitaria, Craiova, 2009; 5. Predoi M., Bălan, T. – Mathematical Analysis, Vol. I, II, Editura Universitaria, Craiova, 2005 |
Mechanics I |
Number of credits: | 5 |
Type of course: | Fundamental |
Objectives: | The course presents to students the fundamental notions of analytical mechanics and specific notions of kinematics; kinematical analysis of rigid body in particular motions and, generally, in general motion. |
Content: | Reduction of the sliding vectors. Mass, the centre of mass (definitions, properties, Guldin-Pappus Theorems). Moments of inertia. Kinematics of material point. Kinematics of rigid body. Kinematics of relative motion for material point. Kinematics of relative motion for solid body. |
Teaching language: | Romanian |
Evaluation: | Written/oral examination |
Bibliography (selective): | 1. Bogdan, M.L. ș.a., Mecanica
tehnică - culegere de probleme, Editura " Sitech",
1997, ISBN 973- 97524-8-8; 2. Bogdan, M.L., Bogdan, C., Mecanica. Cinematica și Statica, Editura "Sitech", 2004, ISBN 973-657- 558-6; 3. Bogdan, M.L., Bogdan, C., Mecanică. Culegere de probleme, Editura "Universitaria", 2005, ISBN 973-742-018-7; 4. Bogdan, M.L., Bogdan, C., Mecanica. Dinamică și Vibrații mecanice, Editura "Universitaria", 2006, ISBN 973-742- 329-1, ISBN978-973-742-329- 0; 5. Rădoi, M., Deciu, E., Mecanica, Editura Didactică și Pedagogică, București, 1981; 6. Buculei, M., Mecanica, vol. I, II, Reprografia Universității din Craiova, 1980; 7. Constantinescu, I., Bolog, C., Mecanică, Editura Didactică și Pedagogică, București, 1978; 8. Iacob, C., Mecanică teoretică, Editura Didactică și Pedagogică, București, 1971; 9. Irimiciuc, N., Mecanica, Editura Didactică și Pedagogică, București, 1971; 10. Voinea, R., Voiculescu, D., Ceaușu, V., Mecanica, Editura Didactică și Pedagogică, București, 1984. |
Computer Programming and Programming Languages I + II |
Number of credits: | 4 in 1st semester and 4 in 2nd semester |
Type of course: | Fundamental |
Objectives: | To develop at students basic skills in the use of Windows operating systems, to familiarize students with development of fundamental algorithms and programming theory; learn students with programming in "C" language and development of Windows applications. |
Content: | Architecture of a computer system, internal representation of information; Numeration bases, logic functions, elements of algorithms, Introduction to C language vocabulary - operators; Instructions and statements of C language, expressions, functions, I / O operations Elementary; Pointers and arrays, structures and unions in C, use of strings, dynamic memory allocation, library functions, simple chain lists, double chain lists, recursion, files in C, solving systems of linear equations structure Windows applications , Programming mouse related events, GDI functions; Use of type menu and dialog box in Windows. |
Teaching language: | Romanian |
Evaluation: | Written/oral examination |
Bibliography (selective): | 1. Knuth D.E. , Treaty of
computer programming. fundamental algorithms,
Ed. Tehnica, 1973; 2. Burdescu, D., Algorithms and data structures, Ed. Mirton, Timișoara, 1992; 3. Petrovici, V., Programming in C language, Ed. Tehnică 1993, București; 4. Kernighan B., Ritchie D. , The C Programming Language, Prentice Hall, 1988; 5. Pădeanu, L., O., Windiws programming in C language, Reprografia Univ. din Craiova, 1993; 6. Petzold Charles, Programming Windows, 6th edition, Microsoft Press, 2012. |
Study of Materials |
Number of credits: | 5 |
Type of course: | Fundamental |
Objectives: | The course offers students theoretical concepts of the correlation between microstructure, properties and processing of the metallic materials. |
Content: | Crystal structures of metallic materials. Crystalline lattices and imperfections in crystalline solids. Plastic deformation of metallic materials (plastic deformation of single crystals and polycrystalline materials). Properties of metallic materials. Crystallization principles of metallic materials. Theory of binary alloy systems. Crystallization of iron-carbon alloys. Heat treatments and thermo-chemical treatments of ferrous materials. Non-ferrous metals and alloys. Advanced materials developments. |
Teaching language: | Romanian |
Evaluation: | Written examination |
Bibliography (selective): | 1. C. Teisanu – Metalurgie
Fizica pentru Ingineri; 2. M. Radulescu – Studiul Materialelor, EDP; 3. H. Colan – Studiul Materialelor, EDP; 4. I. Trusculescu – Studiul Materialelor, EDP; 5. S. Gadea – Metalurgie Fizica si Studiul Metalelor, EDP, 1980; 6. R. Saban, D. Gheorghe s.a - Studiul si Ingineria Materialelor, Editura Didactica si Pedagogica, Bucuresti, 1995; 7. C. Baciu, I. Alexandru, R. Popovici s.a - Stiinta Materialelor Metalice, Editura Didactica si Pedagogica, Bucuresti, 1996; 8. N. Popescu, R. Saban, I. Pencea s.a - Stiinta Materialelor pentru Inginerie Mecanica, Ed. Fair Partners, Bucuresti, 1999 |
Linear Algebra, Analytical and Differential Geometry |
Number of credits: | 4 |
Type of course: | Fundamental |
Objectives: | The course gives the possibility to analyze the physical and mechanical phenomena using the vector notion and his properties. Many mathematical models that describe the behavior of mechanical components, in static or dynamic regime, are obtained using geometric notions like curves and surfaces. |
Content: | Vectorial spaces, examples, properties; Mathematical connections among vectorial spaces; Bilinear forms and quadratic forms, applications; Euclidean spaces - the notion of length of a vector and unoriented angle between two vectors; Orthogonality, orthogonal base; Tensors, properties; Free vectors, applications; Line and plane in space; Quadrics and Conics; Curves; Surfaces. |
Teaching language: | Romanian |
Evaluation: | Written examination |
Bibliography (selective): | 1. G. Marinescu, Spații vectoriale
topologice și pseudotopologice, Editura Academiei,
București, 1959; 2. M. Stoka, Geometrie diferențială, Editura Didactică și Pedagogică, București, 1964; 3. G.E. Șilov, Matematiceskii analiz, Nauka, Moskva, 1969; 4. P. Stavre, Curs de geometrie diferențială, Litografia Universității din Craiova, 1970; 5. I. Creangă, C. Haimovici, Algebră liniară, Editura Didactică și Pedagogică, București, 1970; 6. R. Miron, Geometrie analitică, Editura Didactică și Pedagogică, București, 1976; 7. C. Iacob, Matematică aplicată în mecanică, Editura Academiei, București,1989; 8. M.M. Stănescu, Curs de Algebră Liniară, Geometrie Analitică și Diferențială, Reprografia Universității din Craiova, 2000; 9. M.M. Stănescu, F. Munteanu, V. Slesar, Probleme de Algebră Liniară, Geometrie Analitică și Geometrie Diferențială, Editura Sitech Craiova, 2004; 10. M.M. Stănescu, Elemente de teorie a spațiilor vectoriale, Editura Universitaria, 2005; 11. M.M. Stănescu, O. Georgescu, C.M. Georgescu, Algebră Liniară. Aplicații. Editura Universitaria, 2006; 12. P. Stavre, M.M. Stănescu, Rezolvarea algoritmică a sistemelor de ecuații liniare. Aplicații, Ed. MatrixRom, București, 2007. |
Mechanics II |
Number of credits: | 6 |
Type of course: | Fundamental |
Objectives: | The discipline aims to get students familiarized with its specific basics in order to enable them in approaching Mechanics System Design and to facilitate them a good understanding of any simple mechanical process that might occure while exploiting a machine of any kind. |
Content: | Basics of vectorial algebra and operational calculus are introduced first. Then, in a modern but natural way, basics of mass geometry, kinematics and dynamics are presented. Statics is regarded as a special case of the dynamics. |
Teaching language: | Romanian |
Evaluation: | Written/oral examination |
Bibliography (selective): | 1. Bolcu D., Rizescu S.,
Mecanica vol I, Ed. Didactică și Pedagogică,
București, 2001; 2. Bolcu D., Rizescu S., Mecanica vol II, Ed. Didactică și Pedagogică, București, 2001; 3. Bolcu D., Rizescu S., Mecanica vol III, Ed. Didactică și Pedagogică, București, 2004; 4. Bolcu D., Rizescu S., Mecanica vol I, Ed. Universitaria Craiova, 2009; 5. Băgnaru, D., Mecanică aplicată în științele inginerești, Vol. 1 și 2, Editura SITECH, Craiova, 2010; 6. Băgnaru, D., Cătăneanu A, Dinamică cu aplicații în inginerie, Editura Universitaria Craiova, 2009; 7. Băgnaru, D., Vintilă, D., Nanu, G., Cătăneanu, A., Grigorie, L., Mecanică. Teorie. Lucrări de laborator, Editura SITECH, Craiova, 2010. |
Technical Drawing and Infographics I |
Number of credits: | 5 |
Type of course: | Fundamental |
Objectives: | The main aim of the course is to prepare students regard to acquiring the basic theoretical and practical concepts to represent industrial technical design, to develop the creative skills to prepare project designs. Terms used are under current standards and international standards. |
Content: | Representations used in technical drawing. Representation in ortogonal projection. Representation of views, sections and breakage. Representation of views intechnical drawing. Dimensioning in technical drawing: classification of dimensions; rules of listing. Registration quotas on the drawing. Methods of dimensioning and special cases for dimensioning. Representation of the threads. Tolerances. Dimensional accuracy. Linear and angular dimensions tolerances. Accuracy of shape and position of geometrical elements. Surface condition. Specific and conventional representations. Representation and cylindrical and tapered holes dimensions. Drawing overviews. Rules of representation, positioning of the components and dimensioning design overall. From snap-on. Threaded assembly. Elastic assembly. |
Teaching language: | Romanian |
Evaluation: | Written/oral examination |
Bibliography (selective): | 1. Ene Al.I.- “Desen tehnic
industrial”, Editura SITECH, Craiova, 1995; 2. Marin, D; Raicu, L.; Adir, V.; Dobre, D.- “Desen tehnic industrial. Teorie si aplicatii” Editura 57 BREN, Bucuresti, 1999; 3. Precupețu P.; ș.a,- “Desen tehnic industrial pentru construcția de mașini”, Editura Tehnică, București, 1982; 4. Vasilescu, E.-“Desen tehnic. Teme. Elemente de introducere în proiectare”, Litografiat, IPB,1984; 5. Vasilescu, E. ș.a.-“Desen tehnic. Elemente de proiectare”, Editura Tehnicã, București, 1994; 6. I.R.S. Catalogul Standardelor Române ,Editura Tehnicã, București. |
SECOND YEAR
Technical Drawing and Infographics II |
Number of credits: | 4 |
Type of course: | Fundamental |
Objectives: | The main aim of the course is to prepare students regard to acquiring the basic theoretical and practical concepts to represent industrial technical design, to develop the creative skills to prepare project designs. Terms used are under current standards and international standards. |
Content: | Representations used in technical drawing. Representation in ortogonal projection. Representation of views, sections and breakage. Representation of views intechnical drawing. Dimensioning in technical drawing: classification of dimensions; rules of listing. Registration quotas on the drawing. Methods of dimensioning and special cases for dimensioning. Representation of the threads. Tolerances. Dimensional accuracy. Linear and angular dimensions tolerances. Accuracy of shape and position of geometrical elements. Surface condition. Specific and conventional representations. Representation and cylindrical and tapered holes dimensions. Drawing overviews. Rules of representation, positioning of the components and dimensioning design overall. From snap-on. Threaded assembly. Elastic assembly. |
Teaching language: | Romanian |
Evaluation: | Written/oral examination |
Bibliography (selective): | 1. Ene Al.I.- “Desen tehnic
industrial”, Editura SITECH, Craiova, 1995; 2. Marin, D; Raicu, L.; Adir, V.; Dobre, D.- “Desen tehnic industrial. Teorie si aplicatii” Editura 57 BREN, Bucuresti, 1999; 3. Precupețu P.; ș.a,- “Desen tehnic industrial pentru construcția de mașini”, Editura Tehnică, București, 1982; 4. Vasilescu, E.-“Desen tehnic. Teme. Elemente de introducere în proiectare”,Litografiat, IPB,1984; 5. Vasilescu, E.; ș.a.-“Desen tehnic. Elemente de proiectare”,Editura Tehnicã, București,1994; 6. I.R.S. Catalogul Standardelor Române ,Editura Tehnicã, București |
Materials Technology I + II |
Number of credits: | 3 in ist semester and 3 in 2nd semester |
Type of course: | Fundamental |
Objectives: | The course offers the students theoretical and practical concepts regarding the main technology of production and processing technical materials. |
Content: | Classification of material properties; metal materials; obtaining metallic materials; metal casting; powder metallurgy; plastic deformation of metals; welding of metallic materials; technologies unconventional; NDT materials. |
Teaching language: | Romanian |
Evaluation: | Written/oral examination |
Bibliography (selective): | 1. Gheorghe, St, Teisanu,
C., Tehnologia materialelor, Editura Universitaria
din Craiova, 2009; 2. Amza, Gh. ș.a., „Tehnologia materialelor”, Ed.Tehnică, București, 1999; 3. Butnariu, I ș.a. Procese și tehnologii în metalurgia extractivă, Editura Tehnică București, 1995; 4. Cheșa, I ș.a. Alegerea și utilizarea oțelurilor, Editura Tehnică, București 1984; 5. Gheorghe Șt, Aliaje sinterizate antifrictiune pe baza de cupru, Editura UNIVERSITARIA, 2002; 6. Mangra, M. ș.a, Tehnologii si aplicatii in metalurgia pulberilor, Editura Universitaria Craiova, 2002 |
Mechanisms |
Number of credits: | 5 |
Type of course: | Fundamental |
Objectives: | The course objectives: to familiarize the students with fundamental notions regarding mechanisms and machine elements. Structural calculus methods, kinematics, kinetostatics and dynamics of mechanisms. The basic skills to conceive and design mechanisms is another goal of the course. |
Content: | Structural analysis of mechanisms; Kinematical analysis of planar mechanisms; Kinetostatical analysis of planar mechanisms; Dynamic analysis of planar mechanisms. |
Teaching language: | Romanian |
Evaluation: | Written/oral examination |
Bibliography (selective): | 1. Artobolevskii, I., I.,
Teoria mecanismelor și a mașinilor (traducere
din limba rusá), Editura Tehnica, București,
1955; 2. Buculei, M., Bagnaru, D., s.a. Metode de calcul in analiza mecanismelor cu bare, Ed. Scrisul Romanesc, Craiova, 1986; 3. Handra-Luca, V., Stoica, I.,A., Introducere în teoria mecanismelor, vol. II, Editura Dacia, 1983; 4. Pelecudi, Chr., ș.a., Mecanisme, E.D.P., București, 1985; 5. Popescu, I., Proiectarea mecanismelor plane, Ed. Scrisul Romanesc, Craiova, 1977; 6. Dumitru, N., Mecanisme spațiale, Ed. Universitaria, Craiova , 1999; 7. DUMITRU BOLCU, DANIELA TARNIȚĂ - Elemente de calcul si modelare a structurilor compozite, Editura Universitaria, Craiova, 2001; 8. DANIELA TARNIȚĂ - Mecanisme acționate cu arcuri. Metode de analiză și sinteză dinamică, Editura Universitaria, Craiova, 1998; 9. IULIAN POPESCU, DANIELA TARNIȚĂ, - Mecanisme. Curs pentru profilul electric, Reprografia Universității din Craiova, 1997; 10. DANIELA TARNIȚĂ - Mecanisme, Calculul și construcția mecanismelor acționate cu elemente elastice, cu aplicații în electrotehnică, Reprografia Univ. din Craiova, 1996; 11. DANIELA TARNITA, DUMITRU BOLCU, Metode de analiza cinematica a mecanismelor plane, Editura Didactica si Pedagogica, Bucuresti, 2005; 12. DUMITRU BOLCU, DANIELA TARNITA, Metode de analiza cinetostatică a mecanismelor plane, Editura Didactică și Pedagogică, București, 2009. |
Graph Theory in Transport |
Number of credits: | 5 |
Type of course: | Vehicles domain |
Objectives: | Presentation of theoretical concepts and practical applications on graph theory, their proper use in professional communication, learning algorithms to determine the optimal path in the graph. |
Content: | Getting Started, Graph Representation targeted, Untargeted Graphs, Operations on graphs, Graphs valued, Route, circuit and chains in graph, Related components and associated hard, Trees, Bipartite graphs, Transport networks. Algorithms for graphs: matrix algorithm, method Boolean composition Determination of related components Determination of Eulerian circuits Hamiltonian paths and circuits (Kaufmann algorithm, Foulkes, Chen) Routs optimal value (Ford's algorithm Bellman-Kalaba, Dijkstra, Floyd-Warshall) Kruskal's Algorithm, Prim Algorithm Problems damage (Little's algorithm, Hungarian algorithm). |
Teaching language: | Romanian |
Evaluation: | Written examination |
Bibliography (selective): | 1. Grafuri – aplicatii, vol
I, II, Ionescu Tiberiu, 1984, Editura Didactica
si Pedagogică; 2. Flows in networks, R. L. Ford, D.R. Fulkerson, 1962, Princeton Univ. Press; 3. Graph Theory, R. Diestel, 2000, Springer-Verlag New York. |
Strength of Materials I + II |
Number of credits: | 4 in 1st semester and 4 in 2nd semester |
Type of course: | Fundamental |
Objectives: | Achieve of computing skills in order to design mechanical constructions. Assimilation of knowledge on simple and complex demands of the various pieces of machinery, aggregates and machinery. |
Content: | Sectional charts efforts; Axial efforts;, Surface geometric features; Torsion stress; Bending of straight beams stress; Elements of elasticity theory; Compound stress; Calculation of deformations; Statically indeterminate systems, Dynamic stress; Fatigue stress. |
Teaching language: | Romanian |
Evaluation: | Written/oral examination |
Bibliography (selective): | 1. Boiangiu, D., Probleme
de Rezistența materialelor, Editura Tehnică,
București, 1989; 2. Buzdugan, Gh., Rezistența materialelor, Editura Academiei, București, 1986; 3. Buzdugan, Gh., ș.a., Rezistența materialelor, Culegere de probleme, EDP, București, 1979; 4. Cernăianu, E., Petrescu, G., Rezistența materialelor, Teorie și probleme, Repr. U. Craiova, 1986; 5. Cernăianu, E., Roșca, V., ș.a., Îndrumar de laborator, Repr. Universității din Craiova, 1989; 6. Ilincioiu, D. Roșca,V., Rezistența materialelor, vol.1, Editura Scorilo, Craiova, 1999; 7. Ilincioiu, D. Roșca,V., Caiet pentru Rezistența Materialelor, Editura Scorilo, Craiova, 1999; 8. Mocanu, D.R., Rezistența materialelor, Editura Tehnică, București, 1980; 9. Nădășan, Șt., Curs de Rezistența materialelor, Vol.I, II, III, Editura I.P. Timisoara, 1953-1957; 10. Posea, N., Rezistența materialelor, Editura Didactică și Pedagogică, București, 1979; 11. Roșca,V., Ilincioiu, D., Rezistența materialelor, vol.2, Editura Scorilo, Craiova, 1999; 12. Roșca, V., Teoria Elasticității aplicată în Rezistența Materialelor, Ed. Curtea veche, Buc., 1997; 13. Roșca, V., Ilincioiu, D., ș.a., Rezistența materialelor, Încercări fundamentale, Editura Universitaria, Craiova, 2007. |
Computer Aided Design Basis |
Number of credits: | 4 |
Type of course: | Domain |
Objectives: | To develop at students skills to generate a three-dimensional geometry with wireframe, solid modeling and surfaces techniques; to combine these models in virtual assemblies, and to automatically extract the plane documentation from 3D models. |
Content: | The role of CAD system in a production cycle; components of a CAD system and its evaluation criteria, analytical representation of curves and surfaces; 3D surface modeling techniques: the primitive, by generation - revolution, extrusion, tubular , swept, rulers - rule, planar, loft, derived surfaces - blend, offset, fillet, corner); parametric solid modeling based on the sketch, geometric constraints and dimensional parametric solid modeling based on feature; Features for tree modeling crankshafts; Special modeling for crankcase; modeling features for cylinder heads; Use of standardized libraries, documentation extraction of virtual models, virtual assemblies, assembly constraints, exploded representations; A-Class surfaces; specific modeling elements Body auto. |
Teaching language: | Romanian |
Evaluation: | Written examination, practical test. |
Bibliography (selective): | 1. Applications in Mechanical
Desktop, Roșca, A., Ed. Universitaria, 2005; 2. Basics of Computer Assisted Design, Roșca, A., Reprografia Universității, 2001; 3. Autocad design, Roșca A. ș.a., CERTI 1995 Assisted computer design, Mazilu D., Note de curs, Reprografia Universității, 1999; 4. Murgulescu E., Analitic and Differential Geometry, EDP, 1965; *** Company documentation, Mechanical Desktop; *** Company documentation, Dassault - Catia; *** Company documentation, Autodesk Inventor. |
The Mechanics of Fluids |
Number of credits: | 4 |
Type of course: | Fundamental |
Objectives: | The course offers to the students the theoretical and practical concepts about the fluids flow with application in the mechanical engineering |
Content: | The main properties of fluids. The general methods of study used in the mechanics of fluids. The fundamental equations of the mechanics fluids. The kinematics of the fluid flow. The dynamics of the ideal fluids. The statics of fluids. The dynamics of the viscous fluids under the laminar and turbulent flow. The applied of the mechanics to fluids. |
Teaching language: | Romanian |
Evaluation: | Written/oral examination |
Bibliography (selective): | 1. Anton L., The mechanics
of fluids and hydraulic machines, The Horizons
University Publishing House,Timisoara,1998; 2. M.Buculei, M. Radulescu, Talu M., Mihaela Buculei, The mechanics of fluids and the hydraulics machinery, Vol.I, The Universitaria Publishing House, Craiova, 2011; 3. Constantinescu VN, The dynamics of the viscous fluids under in the laminar regime, The Academy Publishing House, Bucharest, 1983; 4. Ghe.Dan Ionescu, Introduction into the mechanics of fluids, The Technical Publishing House, Bucharest, 2005; 5. Rădulescu V., N. Vasiliu – The fluid of mechanics, Fundamentals and Applications. Collection of problems, The Printech Publishing House, Bucharest, 2004; 6. Talu M., The fluid of mechanics. Theory and applications solved computationally using the finite element method or by numerical simulation. The Universitaria Publishing House, Craiova, 2008; 7. Ungureanu V.,The fluid of mechanics and the hydraulic machines, The Transilvania University Publishing House, Brasov, 2008; |
THIRD YEAR
Thermotechnics |
Number of credits: | 5 |
Type of course: | Fundamental, domain |
Objectives: | It presents the notions necessary for understanding thermal phenomena, use of heat and getting mechanical work from heat, the fundamental principles of design and operation of thermal machines and installation. |
Content: | Transmission of knowledge in the production, transmission and use of heat. Thermodynamic analysis methods. Using diagrams and tables in calculations of thermal drying installations. Real gases and water vapor as thermal agent in energy installations of high power. The moist air as an agent in drying and cooling installations. Gas dynamic. |
Teaching language: | Romanian |
Evaluation: | Written/oral examination |
Bibliography (selective): | 1. Bică, M., Cernăianu C.D.,
Bara, N., Termotehnică si masini termice, Ed.
Universitaria, Craiova 2010; 2. Dănescu, Al. s.a., Termotehnică si masini termice, E.D.P. Bucuresti 1985; 3. Radcenco Vsevolod, Marinescu Mircea, Băran Nicolae, Termodinamică Tehnică. Teorie și aplicații. Editura Tehnică, București, 1996; 4. Ungureanu, C., Pănoiu, Zubcu, V., Ionel, I., Combustibili, instalații de ardere, cazane, Editura Politehnică N., Timișoara, 1998; 5. Kirilin, V.A., Sîcev, V., Șeindlin, A.,E., Termodinamica, Editura Științifică și Enciclopedică, București 1985. |
Machine Elements I + II |
Number of credits: | 5 in 1st semester and 4 in 2nd semester |
Type of course: | Technical culture of specialty |
Objectives: | Promoting and developing of some concepts, machine elements design procedures and techniques from mechanical and mechatronic systems structure, stimulating and forming the creativity students skills by elaborating original solutions and modern design through facilities brought by CAD/CAM/CAE. |
Content: | Machine elements design basics; Screw fastening and power screw transmissions; Gears and gear transmissions; Chain drives; Friction wheels transmissions; Belt drives; Continuously variable transmissions; Shafts and axes; Rolling contact bearings; Sliding contact bearings; Couplings; Sealing elements; Threaded joints; Assemblies through sunk and tapered keys; Spline assemblies; Polygonal profiles assemblies; Cotter and knuckle joints; Conical couplings; Assemblies through conical friction elements; Clamp couplings; Fretting and fatigue assemblies; Assemblies through elastic and dumping elements. |
Teaching language: | Romanian |
Evaluation: | Written examination |
Bibliography (selective): | 1. Catrina, Gh. s. a., Organe
de mașini. Îndrumar de proiectarea pentru transmisii
mecanice, Editura Universitaria. Craiova, 2012; 2. Catrina, Gh., Proiectarea transmisiilor prin cuple elicoidale, Facultatea de Mecanică Craiova, 1988; 3. Crudu, I., Atlas de reductoare, EDP, București, 1983; 4. Dieter Muhs, s.a, Roloff/ Matek Machinenelemente Viewegs Fachbucher der Technic, 2003; 5. Dumitru N., Margine A., Organe de mașini. Asamblări. Elemente elastice. Proiectare asistată de calculator. Editura Universitaria Craiova, 2002; 6. Dumitru N., Margine, A., Catrina, Gh., ș.a., Organe de mașini. Arbori și lagăre. Proiectare asistată de calculator, Editura Tehnica, București, 2008, ISBN 978-973-31-2332-3; 7. Dumitru, N., Nanu, Gh., Mecanisme și transmisii mecanice, Editura Didactică și Pedagogică, Craiova, 2008; 8. Dumitru, N., Organe de mașini. Angrenaje. Elemente de proiectare, R. Univ. Craiova, Craiova, 1996; 9. Dumitru, N., Organe de mașini. Transmisii mecanice, R. Univ. Craiova, Craiova,1996; 10. Ivanov M. N., Organe de mașini, Editura Tehnică „Chișinău”, Universitatea Tehnică a Moldovei, 1997; 11. Robert L. MOTT, Machine Elements in mechanical Design, Prentice Hall, Columbus, Ohio, 1999. |
Road Traffic I + II |
Number of credits: | 4 in 1st semester and 4 in 2nd semester |
Type of course: | Technical culture of specialty |
Objectives: | Assimilation of the scientific concepts specific to road traffic, creating premises necessary to the interdisciplinary process with other complementary sciences; forming skills corresponding to logical application of international systems specific to road traffic in affected road areas in terms of congestion and noise and chemical pollution. |
Content: | Road traffic technique. Microscopic traffic variables. Macroscopic traffic variables. Circulation accident. Human factor. Road path.Road capacity. Elements concerning application of probability theory and mathematical statistics in road traffic. Concepts concerning circulation regulation in road intersections. Considerations for coordinating movement of vehicles with pretimed signals. Formation of traffic flows or circulation currents. Mathematical instruments for traffic flows analysis. Forecasting models of traffic flow. Elements of traffic flow theory. Elements of admissibility intervals theory. Urban traffic regulations by traffic lights. Utilization of AIMSUN software in road traffic. |
Teaching language: | Romanian |
Evaluation: | Written/oral examination |
Bibliography (selective): | 1. Allan Bonnick, Automotive
Science and Mathematics, Elsevier, 2008; 2. Boris S. Kerner, Introduction to Modern Traffic Flow Theory and Control, Springer-Vertag Berlin Heidelberg, 2009; 3. David A. Hensher, Kenneth J. Button, Handbook of Transport Modelling, Pergamon, 2000; 4. Dumitru I., Trafic rutier, Note de curs, 2011; Dumitru I., Trafic rutier, Elemente aplicative, Editura Universitaria 2008; 5. Homburger, W.S., Keefer, L.E., McGrath, W.R., editori, Transportation and Traffic Engineering Handbook 2nd edition, Institute of Transportation Engineers, Washington D.C. 1982; 6. Nistor, N., Vasiliu, Ch. Teoria traficului rutier și siguranța circulației. Ed. Universității București. 1977; 7. Pereș, Gh., ș.a., Teoria traficului rutier și siguranța circulației, Tipografia Universității, Brașov, 1982; 8. Roger P. Roess, Elena S. Prassas, Willian R. McShane, Traffic Engineering- third edition, Pearson, Prentice Hall, 2004. |
Transportation Systems |
Number of credits: | 5 |
Type of course: | Speciality |
Objectives: | Provide students with the elements and concepts specific transport systems. Students are familiarized with specific elements of transport activity. Vocational skills in solving specific situations of road transport systems. |
Content: | Transport and socio-economic context. Transport demand. The influence of transport infrastructure networks on the road transport system. The importance of traffic flow in road transport systems. The transportation and cargo facilities. Considerations about the road policy. |
Teaching language: | Romanian |
Evaluation: | Written/oral examination |
Bibliography (selective): | 1. Alexa, C., Transporturi
și expediții internaționale, Editura All, București,
1995; 2. Caraiani, Gh., Transporturile și expedițiile rutiere, Editura Lumina Lex, București, 1998; 3. Cocoșilă, M., Drăgan, V., Management cantitativ pentru inginerii de automobile, Editura MatrixRom, București, 2000; 4. Dinu, Gh., ș.a., Curs general de formare professională pentru conducerea activității de transport rutier, Editura –IFPTR, București, 1999; 5. Florea, Daniela, ș.a., Sisteme avansate de transport rutier”, Editura Universității “Transilvania” Brașov, 2007; 6. Ghionea, F., “Tehnologia transporturilor publiceÎndrumar de laborator”, Editura Matrix Rom, București, 1997; 7. Iftimie, C-tin, „Spre un transport în comun eficace și eficient”, Editura MatrixRom, București, 2004; 8. Raicu, Șerban, „Sisteme de transport”, Editura AGIR, București, 2007; 9. Tătar. I., ș.a., Manualul operatorului de transport rutier, Editura Institutului de Formare Profesională în Transporturilor Rutiere-IFPTR, București, 2000; 10. Thierheimer, Walter, W. ș.a., „Sisteme de transport”, Editura Universității “Transilvania” Brașov, 2002. |
Engines for Vehicles |
Number of credits: | 6 |
Type of course: | Fundamental |
Objectives: | Assimilation of concepts and notions specific to thermal processes, to characteristics of internal combustion engines, to elements and conceptual- constructive solutions, as well to environmental impact in terms of pollutant products and technical solutions characteristic tot their reduction. Formation of skills necessary to determinate the parameters which characterize thermal processes and the interpretation of an engine’s characteristics. Skills development concerning engines design in terms of energy, economic and pollution requirements. Creating premises necessary to the interdisciplinary process with other complementary sciences. |
Content: | Engines systematic. Main parameters and operating conditions of motor vehicles and tractors engines. Internal combustion engines operational principle. Thermodynamic cycles of piston engines. Gas changing processes. Compression process. Combustion process. Relaxation process. Engines energy performance. Operating conditions and engines characteristics. Motor mechanism’s kinematics. Forces and moments acting on motor mechanism. Considerations on the design of automotive and tractors engines. Principal dimensions computation and internal combustion engines similarity. Piston group. Rod. Crankshaft. Engine’s fixed components. Gas distribution system. Fuel injection engines supply. Lubrication system. Cooling system. |
Teaching language: | Romanian |
Evaluation: | Written/oral examination |
Bibliography (selective): | 1. Challen, B., Baranescu
Rodica, Diesel Engine Reference Book, Butterworth
Heinemann, 1999; 2. Cristea, D., Cai de optimizare a motoarelor cu ardere interna, Editura Universitatii din Pitesti, 2009; 3. Dumitru I., Procese si caracteristici ale motoarelor cu ardere interna, Craiova, 2009; 4. Dumitru I., Procese si caracteristici. Indrumar de laborator, Craiova, 2009; 5. Istrate, A., Vinatoru, C, Bica, M., Motoare cu ardere interna. Proiectare, Reprografia Universitatii Craiova, 2000; 6. Grunwald, B., Teoria, calculul și construcția motoarelor pentru autovehicule rutiere, editura Didactică și Pedagogică, bucurești, 1980; 7. Negurescu, N., s.a, Motoare cu aprindere prin scanteie. Procese, Editura MatrixRom, Bucuresti, 2009; 8. Pulkrabek, W., Engineering Fundamentals of the Internal Combustion Engine, Prentice Hall, New Jersey, 2002; 9. Negrea, V., D., Bazele cercetarii experimentale a motoarelor cu ardere interna si a autovehiculelor rutiere, volumul 1 si 2, Editura Eurostampa, Timisoara, 2005; 10. Rakosi, E., Rosca, R., Manolache, Gh, Ghid de proiectare a motoarelor cu ardere interna pentru automobile; *** STAS 5745-91, Motoare cu ardere internă, cu piston cu mișcare alternativă; |
Mechanical Systems Modelling Basics |
Number of credits: | 3 |
Type of course: | Technical culture of specialty. |
Objectives: | The course addresses to students which follows the 4 years undergraduate studies at Faculty of Mechanics from Automotive Engineering (AR), Industrial Engineering (TCM), Transport Engineering (ITT), Engineering and Management (IEM). This course forms and guide the students assimilation capacity for modelling and simulating, through modern methods, of the behavior in static and dynamic mode structures and mobile mechanical systems, based on multi body systems theory and finite element method. Another aim is the one that it can be develop and form, the students ability through applications by using important modelling and analysis software (ADAMS, ANSYS, etc.). |
Content: | Elements of matrices and vectorial algebra. Computer kinematic and dynamic modelling through computational methods of mechanical mobile systems. Kinematic modelling and simulations with ADAMS software. Linear elasticity elements. Finite element modelling basics. Finite element modelling in static and dynamic mode of mechanical structures (theory and applications). Modelling and simulations by using finite element method with ANSYS and COSMOS software. |
Teaching language: | Romanian |
Evaluation: | Written/practice examination |
Bibliography (selective): | 1. Amirouche, F., Computational
methods in multibody dynamics, Prentice-Hall,
1992; 2. Buculei M., Marin, M., Elemente de mecanică tehnică. Teorie și aplicații, Ed. Universitaria, Craiova, 1994; 3. Brătianu, C., Metode cu elemente finite în dinamica fluidelor, București, Ed.Academiei, 1983; 4. Corless, R.M., Essential in Maple, Springer- Verlag, 1995; 5. Dumitru N., Margine A., Bazele modelării în ingineria mecanică.Editura Universitaria Craiova, 2002; 6. Dumitru N., Margine A., Organe de mașini. Asamblări. Elemente elastice. Proiectare asistată de calculator. Editura Universitaria Craiova, 2002; 7. Dumitru N., Margine, A., Catrina, Gh., ș.a., Organe de mașini. Arbori și lagăre. Proiectare asistată de calculator, Editura Tehnica, București, 2008; 8. Dumitru, N., Nanu, Gh., Mecanisme și transmisii mecanice, Editura Didactică și Pedagogică, Craiova, 2008; 9. Logan, Daryl, A First Course in the Finite Element Method, PWS Publishing Company, Boston, 1992; 10. Alexandru, P., Vișa, I. ș.a., Modelarea staticodinamică a mecanismelor de ghidare ale roților automobilelor, Ed. LUX LIBRIS, Brașov, 2005; 11. Neagoe, D., Calculul și construcția autovehiculelor, vol.I, II, Ed.Universitaria, Craiova, 2000; 12. Oțăt, V., Bolcu, D., Thierheimer W., Simniceanu, L., Dinamica autovehiculelor, Ed.Universitaria, Craiova, 2005; *** Ansys theory reference, 8th Edition SAS IP, Inc. *** Adams flex guide Mechanical Dynamics rev. 10.0. |
Elements of Vehicles Dynamics |
Number of credits: | 5 |
Type of course: | Vehicles domain |
Objectives: | Presentation of theoretical concepts and practical concepts of: kinematic and dynamic theories that define vehicle motion, assimilation of methodology and study design of the vehicle dynamic. |
Content: | Transmission arrangement and main dimensional and mass parameters of vehicles. The selfpropulsion process of vehicles. Drag forces vehicle. Reaction forces of tread on car wheels. Vehicle traction and braking dynamics. Fuel consumption. Vehicle stability. Handling vehicles. |
Teaching language: | Romanian |
Evaluation: | Written/oral examination |
Bibliography (selective): | 1. Cordoș, T., Todoruț, A.,
Dinamica autovehiculelor pe roți, Teste și Aplicații,
Editura TODESCO, Cluj- Napoca, 2001; 2. Dickson, C.J., Tires, suspension and handling, Second Edition, Society of Automotive Engineers, Inc., 1991; 3. Frățilă, Gh., Calculul și construcția automobilelor, Editura didactică și pedagogică, București, 1977; 4. Gillespie, T.D., Fundamentals of vehicle dynamics, Society of Automotive Engineers, Inc., 1992; 5. Macarie, T.N., Automobile – Dinamica, Editura Universității din Pitești, Pitești, 2003; 6. Mateescu, V., Popa, L., Performanțele automobilului, Editura Printech, 2000; 7. Oțăt V., Bolcu D., Simniceanu L., Dinamica autovehiculelor, Editura Universitaria Craiova, 2005. |
Pollution in Transports |
Number of credits: | 4 |
Type of course: | Speciality |
Objectives: | The main objectives are represented by the knowledge of the pollutants emitted by internal combustion engines and how they affect the environment, establishment of the modality to reduce the engine emissions, presenting the link between engine operating conditions and pollution, presentation of alternative propulsion systems. The researches results in recent years undertaken by representative study centres and large corporations of engine manufacturing and legislative requirements in this area are presented in this course. |
Content: | Overview regarding the fuel economy and limiting the emissions on automotive engines. Turbocharging of engines for vehicles. Alternative propulsion systems. |
Teaching language: | Romanian |
Evaluation: | Written examination |
Bibliography (selective): | 1. Arama, C., s.a., Poluarea
aerului de catre motoarele cu ardere interna,
Editura Tehnica, Bucuresti, 1975; 2. Bataga, A.N., Rodarea, uzarea, testarea si reglarea motoarelor termice, Editura Tehnica, Bucuresti, 1995; 3. Bobescu, Gh., s.a., Motoare pentru automobile si tractoare, Editura Tehnica-Info, Chisinau, 2000; 4. Dan, F., Dan, C., Combustibili, poluare, mediu, Editura Dacia, Cluj-Napoca, 2002; 5. Grünwald, B., Teoria, calculul si constructia motoarelor pentru autovehicule rutiere, E.D.P., Bucuresti, 1980. |
Traffic Management Installations |
Number of credits: | 4 |
Type of course: | Domain |
Objectives: | Assimilation of notions specific to road traffic monitoring and control installations. Developing skills concerning traffic parameters determination and choice of equipment necessary to traffic management. |
Content: | Road traffic management’s importance, structures, systems, examples. Road traffic signaling and control systems. Traffic management at intersection level. Traffic management at city level. Databases: acquisition, storage, utilization. Intercorrelation traffic management- traffic participants. |
Teaching language: | Romanian |
Evaluation: | Written/oral examination |
Bibliography (selective): | 1. Banciu Doina, s.a. , Sisteme
inteligente de transport, Ed. Tehnica, Bucuresti,
2003; 2. Banciu Doina, Inteligenta in transporturi, Ed. Capitel, Bucuresti, 2005; 3. Dobrescu Radu, Autovehicole inteligente, Ed. Matrix, Bucuresti, 1995; 4. Martin Pozybill, Bernhard Krause, Fuzzy Logic in Traffic Control , State Trafic Departement Baden Württemberg; 5. Shwe Yi Aye, Design and Construction of LAN based Car, Traffic Control System, PROCEEDINGS OF WORLD ACADEMY OF SCIENCE, ENGINEERING AND TECHNOLOGY VOLUME 36 DECEMBER 2008 ISSN 2070-3740; *** MONITRAF, Sistem Informatic pentru administrarea on-line a traficului urban, Salonul Cercetarii, 3-7 oct 2008; *** Note de curs, Anul academic 2009-2010; *** Legea nr. 203, din 16 mai 2003, privind realizarea, dezvoltarea si modernizarea retelei de transport de interes national si european, Publicat in Monitorul Oficial, Partea I nr. 361 din 27 mai 2003. |
FOURTH YEAR
Informatics in Transportation |
Number of credits: | 4 |
Type of course: | Domain |
Objectives: | Knowledge and appropriate use of system theory concepts relating to freight transportation. Software applications which can be utilized to solve transportation problems. Applications dedicated to transport modeling and simulation problems. |
Content: | Transport systems theory. Freight transportation system. The essence of transportation process’. Transport’s base functions. Freight flow. Motor vehicle’s productivity. Strengthening senders after recipients. Cargo transport routing table. Vehicle choice and determining necessary resources. Software applications which can be utilized to solve transportation problems. Applications dedicated to transport modeling and simulation problems. |
Teaching language: | Romanian |
Evaluation: | Written/oral examination |
Bibliography (selective): | 1. Conducerea automată a
proceselor industriale, vol I, Vînătoru Matei,
2000, Editura Universitaria Craiova; 2. Informatică țn transporturi, Vînătoru Matei, Oprica Theodor, 2010, format electronic; 3. Fundamente de sisteme automate, Vînătoru Matei, 2011, Sitech, Craiova; 4. Informatica în Transporturi - Lucrări de laborator, uz intern, Oprica Theodor George, Vînătoru Matei; 5. Aimsun-exerciții, Oprica Theodor, suport electronic. |
Conveyances |
Number of credits: | 4 |
Type of course: | Speciality |
Objectives: | The discipline aims to make students acquire the basic concepts of road vehicles construction, skills development of organological analysis of conveyances, concept and design skills development. |
Content: | General concepts about conveyances, constructive solution on the overall composition of the conveyances, construction and calculation elements for: clutch, gearbox, longitudinal transmission, front and rear axle, steering system, braking system, suspension system. |
Teaching language: | Romanian |
Evaluation: | Written/oral examination |
Bibliography (selective): | 1. Buzdugan, Gh., Rezistența
materialelor, Editura tehnică, București, 1980; 2. Barbu, Gh., ș.a. Tehnologii moderne de manipulare, transport și depozitare a produselor., Editura tehnică, București, 1984; 3. Catrina, Gh., Organe de mașini, Vol. I., Vol. I., Reprografia Universității din Craiova, 1997; 4. Dobrotă, S., Probleme actuale ale modernizării activității de transport auto, M.T.Tc., București, 1974; 5. Frățilă, Gh., - Calculul și construcția automobilelor, Editura didactică și pedagogică, București, 1977; 6. Neagoe, D., Transmisia autovehiculelor, Editura Universitaria, Craiova, 2004; 7. Neagoe, D., Calculul si constructia autovehiculelor Vol. II, Reprografia Universitatii din Craiova, 2004. 8. Neagoe, D., s.a., Calculul si constructia autovehiculelor - Indrumar de laborator, Editura Universitaria, Craiova, 2006; 9. Tabacu, Ion - Transmisii mecanice pentru autoturisme, Ed. Tehnică, București, 1999; 10. Untaru, M. ș.a. Automobile, Editura didactică și pedagogică, București, 1975. |
Technologies for Vehicle Repairs I + II |
Number of credits: | 4 in 1st semester and 4 in 2nd semester |
Type of course: | Fundamental |
Objectives: | The course gives the students theoretical and practical concepts regarding to the vehicles repair principles. |
Content: | Vehicle system structure, wear parts car, methods for determining the wear parts and reconditioning their technological processes parts reconditioning vehicles, technological processes reconditioning vehicle parts, vehicle parts repair technologies and component assemblies, repair framework, body and cab cars corrosion protection. |
Teaching language: | Romanian |
Evaluation: | Written/oral examination |
Bibliography (selective): | 1. Abăitancei, D. ș.a. -Motoare
pentru automobile si tractoare. Construcție
și tehnologie, voi. l și 2. Editura tehnică.
București, 1978 și 1980; 2. Banu, l., Anghel, D. -Tehnologia fabricării mașinilor, Ed. Universității din Pitești, 2000; 3. Chiru, A., Marincaș, D. - Tehnologii speciale de fabricare și reparare a autovehiculelor, Ed. Universității "Transilvania" Brașov, 1991; 4. Crivac, Gh., Tica, B.ș.a. -Tehnologii de fabricare a autovehiculelor. Ed.Universității din Pitești, 2002; 5. Filip, N., Turea, N. - Fabricarea automobilelor și control dimensional, Editura Universității "Transilvania" Brașov, 2000; 6. Nicolae,V.,Crivac,Gh.,Ilie,S.-Fabricarea și repararea industrială a autovehiculelor, Ed. Universității din Pitești, 2001; 7. Tică, B. - Fabricarea si repararea industrială a autovehiculelor rutiere, Ed.Universitaria, Craiova, 2008. |
Elements of Vehicles Dynamics |
Number of credits: | 4 |
Type of course: | Vehicles domain |
Objectives: | Presentation of theoretical concepts and practical concepts of: kinematic and dynamic theories that define vehicle motion, assimilation of methodology and study design of the vehicle dynamics. |
Content: | Vehicle traction and braking dynamics. Fuel consumption of vehicles. Vehicle stability. Handling vehicles. |
Teaching language: | Romanian |
Evaluation: | Written examination |
Bibliography (selective): | 1. Cordoș, T., Todoruț, A.,
Dinamica autovehiculelor pe roți, Teste și Aplicații,
Editura TODESCO, Cluj-Napoca, 2001; 2. Dickson, C.J., Tires, suspension and handling, Second Edition, Society of Automotive Engineers, Inc., 1991; 3. Frățilă, Gh., Calculul și construcția automobilelor, Editura didactică și pedagogică, București, 1977; 4. Gillespie, T.D., Fundamentals of vehicle dynamics, Society of Automotive Engineers, Inc., 1992; 5. Macarie, T.N., Automobile – Dinamica, Editura Universității din Pitești, Pitești, 2003; 6. Mateescu, V., Popa, L., Performanțele automobilului, Editura Printech, 2000; 7. Oțăt V., Bolcu D., Simniceanu L., Dinamica autovehiculelor, Editura Universitaria, Craiova, 2005. |
Vehicles Terotechnic |
Number of credits: | 3 |
Type of course: | Specialized |
Objectives: | Provide students with technology maintenance for vehicles, defects that can occur in operation, of the technologies of remedy defects and repair of vehicles. |
Content: | Introduction. Concepts of tribology. Dynamics wear of machine parts. Durability and resource. System maintenance and repairs. Exploitation technology vehicles. In specialized automotive repair. |
Teaching language: | Romanian |
Evaluation: | Written/oral examination |
Bibliography (selective): | 1. Nagy, T., Fiabilitatea
și terotehnica autovehiculelor, vol. I, Universitatea
Transilvania, Brașov, 1997; 2. Pisoschi, Al.-Gr., Oțăt, V., Dumitru, I., Terotehnica și fiabilitatea autovehiculelor, Reprografia Universității din Craiova, Craiova, 1998; 3. Dumitru, I., Pisoschi, Al.-Gr., Terotehnica și fiabilitatea autovehiculelor, lucrări de laboratorîndrumar, Reprografia Universității din Craiova, Craiova, 1999; 4. Pisoschi, Al.-Gr., Popa, Gh., Constantinescu, A., Elemente de durabilitate, fiabilitate și mentanabilitate, Editura Universitaria, Craiova, 2006. |
Reliability of Vehicles |
Number of credits: | 3 |
Type of course: | Speciality |
Objectives: | Learning by students of the relationship of reliability, maintainability and terotehnica vehicles. |
Content: | Reliability: reliable vehicles; Study of reliability, object definitions; Random variables; Theoretical aspects of reliability, the basic parameters; Primary processing of experimental data; Theoretical laws of distribution used in reliability; Confidence intervals; Parameters of reliability for repairable items and unrecoverable;Reliability of systems; Reliability tests. |
Teaching language: | Romanian |
Evaluation: | Written examination |
Bibliography (selective): | 1. Nagy, T., Fiabilitatea
și terotehnica autovehiculelor, vol. I, Universitatea
Transilvania, Brașov, 1997; 2. Pisoschi, Al.-Gr., Terotehnica și fiabilitatea autovehiculelor, Universitatea din Craiova, Craiova, 1998; 3. Dumitru, I., Pisoschi, Al.-Gr., Terotehnica și fiabilitatea autovehiculelor, lucrări de laboratorîndrumar, Reprografia Universității din Craiova, 1999; 4. Pisoschi, Al.-Gr., Popa, Gh., Constantinescu, A., Elemente de durabilitate, fiabilitate și mentanabilitate, Editura Universitaria, Craiova, 2006. |
Equipment and Automotive Diagnostic Techniques |
Number of credits: | 5 |
Type of course: | Fundamental |
Objectives: | The course provides students with knowledge regarding vehicles’ specific elements of diagnosis equipment and techniques, and training skills in automotive diagnosis and understanding, explaining and interpreting theoretical and practical content of the discipline. |
Content: | General principles of diagnosis. General diagnosis of the vehicle. Diagnosing the technical condition of the engine. Diagnosing the ignition system. Diagnosing the technical condition of the transmission. Steering Diagnosis. Brake System Diagnosis. Suspension Diagnosis. General diagnostics using electronic tester. |
Teaching language: | Romanian |
Evaluation: | Written/oral examination |
Bibliography (selective): | 1. Manea, C., Stratulat,
M., „Fiabilitatea și diagnosticarea automobilelor”,
Editura Militară, 1982; 2. Mondiru C., „Automobile Dacia , Diagnosticare, întreținere, reparare”, Editura Tehnică, București, 1998; 3. Negruș, E., ș.a. „Încercarea autovehiculelor”, E.D.P., 1983; 4. Oțăt, V., Dumitru, I. ș.a., „Echipamente și tehnici de diagnosticare pentru autovehicule”, Editura Universitaria, Craiova, 2007; 5. Oțăt, V., Simniceanu, L., „Încercarea autovehiculelor”, Ed. Universitaria, Craiova, 2004; 6. Stratulat,ș.a. Diagnosticarea automobilelor” ,Editura Militară București, 1990. |
Noise and Vibration Control in Vehicles |
Number of credits: | 3 |
Type of course: | Specialty course |
Objectives: | Discipline aims to familiarize students with the basics related to the noises and vibrations occurring during operating motor vehicles, general skills for the use of the information provided by the noises in order to establish the technical faults. |
Content: | General notions on the vibratory patterns of cars, the effects of vibration and noise on the human body, criteria for appreciation of comfort and safety in traffic. |
Teaching language: | Romanian |
Evaluation: | Written/oral examination |
Bibliography (selective): | 1. Darabont A.,Iorga I.,
Ciodaru M.,-Masurarea zgomotului si vibratiilor
in tehnica, Editura Tehnica Bucuresti, 1983; 2. Filip N., Zgomotul la autovehicule, Editura Todesco, Cluj Napoca, 2000; 3. Filip N., Cordos N., Rus I., Zgomotul urban si traficul rutier, Todesco , Cluj Napoca, 2001; 4. Pandrea N., Parlac S., Popa D., Modele pentru studiul vibratiilor automobilelor, Editura TIPARG, Pitesti 2001; *** SR ISO 9613-1. Acustica. Atenuarea sunetului propagat in aer liber; *** STAS 6926/15-92. Masurarea zgomotului exterior produs in miscare si in stationar de autovehicule rutiere cu motor; *** Hotararea Guvernului 321/2005 (Directiva 2002/49/EC). |
Tractors and Trailers |
Number of credits: | 4 |
Type of course: | Domain |
Objectives: | Students are familiarized with the construction and operation of tractors and trailers, acquiring theoretical knowledge and calculation of dynamic systems tractors and tractor trailer. |
Content: | Introduction. Principal parameters of tractors. Tractors parts of the general conditions imposed on them. Driving force (propulsion) of the tractor. Gear ratio and transmission efficiency. General dynamics of tractors. Traction and dynamic qualities of tractors. Determination of transmission ratio, gears and propulsion forces of tractors. Traction characteristics of wheeled. Economic and dynamic characteristic and transport the tractor to work. Starting tractors. Consideration about on tractors transmissions. Clutch. Role. Classification. Construction. Calculation clutches. Gearbox for tractor. Role. Classification. Mechanical gearboxes. Rear axle. Central transmission. Differential. Shaft. Final drive. Role. Component, construction. Steering and braking system of tractors. Role. Construction and characteristics. Road tractors dynamic elements. Trucks and tractors used to develop road trains. Trailers and semi-trailers for trucks and tractors. Agricultural trailers and semi-trailers. Light trailers and semi-trailers (for cars). |
Teaching language: | Romanian |
Evaluation: | Written/oral examination |
Bibliography (selective): | 1. Năstăsoiu Șt., Popescu
S, ș.a. – „Tractoare”, Editura Didactică și
Pedagogică, București, 1983; 2. Pisoschi Al.-Gr. ș.a. - „Remorci și semiremorci auto și agricole”, Reprografia Universității din Craiova, 2002; 3. Pisoschi Al.-Gr. ș.a. - „Cunoașterea generală a autovehiculelor”, Tipografia Universității din Craiova, 2002; 4. Tecușan N., Ionescu E. – „Tractoare și automobile”, Editura Didactică și Pedagogică, București, 1982. |