Teaching Package - Civil, Industrial and Agricultural Buildings
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 |
Descriptive Geometry |
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 from descriptive geometry, to develop the creative skills to see „deep in space” and to prepare project designs. Terms used are under current standards and international standards. |
Content: | Projection systems. Line. A line of positions in relation to the planes of projection. The relative positions of two lines. The Plan. Line of a plan. The relative positions of the two planes. The position of a line in a plane. The intersection of plane figures. The projection transformation methods: the method of changing the projection planes, crop rotation method and rotation method of projection planes. Representation of geometric bodies. Sections in geometrical bodies. Development of geometric surfaces. Intersection of geometric bodies. The general method for the determination of the line of intersection. |
Teaching language: | Romanian |
Evaluation: | Written/oral examination |
Bibliography (selective): | 1. Buțu, A.; Sass, L.- Grafică
inginerească. Vol. I. Geometrie descriptivă.
Lucrări de laborator, Editura SITECH, Craiova,
1999; 2. Buțu, A.; Sass, L.- Grafică inginerească. Geometrie descriptivă. Teste grilă, Editura Universitaria Craiova, 1999; 3. Ene, Al.I.; Buțu, A,; Neagoe, D.;Stănescu, G.- Geometrie descriptivă, vol. I șI II, Editura SITECH, Craiova, 1998; 4. Enache, I.; Ivănescu, T.; Buzilă, V. - Geometrie descriptivă șI desen tehnic. Probleme șI aplicații, Editura didactică șI pedagogică, București, 1982; 5. Noveanu, L., Orban, M. - Geometrie descriptivă, Universitatea Tehnică din Cluj-Napoca, 1992; 6. Precupețu, P., Dale, C.- Probleme de geometrie descriptivă cu aplicații în tehnică, Editura Tehnică, București, 1987; 7. Moncea, J.-Geometrie descriptivă șI desen tehnic, Editura didactică șI pedagogică, București,1982; 8. Tănăsescu, A.- Probleme de geometrie descriptivă, Editura didactică șI pedagogică, București,1962; |
Technical Drawing for Building Construction I + II |
Number of credits: | 5 in 1st semester and 3 in 2nd semester |
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 technical design, to develop the creative skills to prepare project designs. Terms used are under current standards and international standards. |
Content: | Rules and principles for the execution of designs. The representation of objects-sections, ruptures, hatchings. Dimensioning in technical drawing. The representation of buildings and industrial buildings. Notation on technical drawins of trace axis. The thickness of the walls, the listing of columns, foundations. Representation and dimensioning of doors and windows, stairs and lifts. Drafting and dimensioning of the architecture plans. Technical desing representation for construction made of brick masonry elements. Representation of reinforced concrete constructions. Notation on technical drawings the reinforced concrete elements and extract of reinforced concrete beams. Representation in drawing for wooden constructions and its joints. Metal elements. Joints found in the case of metallic constructions handed over: by bolts, rivets and welded. |
Teaching language: | Romanian |
Evaluation: | Written/oral examination |
Bibliography (selective): | 1. Ionescu,V., Bărbat,V -
Desen tehnic în construcții, E.D.P.,București,1970; 2. Duță, A. - Noțiuni de desen tehnic în domeniul construcțiilor, Editura Universitaria, Craiova, 2001; 3. Tăutu, N. – Desenul tehnic și trasarea construcțiilor, Editura Didactică și Pedagogică,București, 1970; 4. I.R.S. Catalogul Standardelor Române, Editura Tehnicã, București; *** Desenul tehnic de construcții - Editura Didactică și Pedagogică,București, 1965; |
Computer Programming and Programming Languages I + II |
Number of credits: | 3 in 1st semester and 3 in 2nd semester |
Type of course: | Fundamental |
Objectives: | The course offers the general informations and concepts of operating and programming with C++ language and with the mathematical calculations program Excell and MathCad. |
Content: | Windows operating system, Microsoft Word program used for technical documentations. Tabelar mathematical calculus and technical diagrams with Excell. MathCad – program for mathematics used in technical design calculation. Creating applications in C++ programming language. |
Teaching language: | Romanian |
Evaluation: | Written/practice examination |
Bibliography (selective): | 1. Negru Mihai, Programarea
si utilizarea calculatoarelor – lectii practice,
Ed. Universitaria, Craiova, 2005; *** Technical documentation MathCad; *** Technical documentation Microsoft Office, 2007. |
Mechanics I |
Number of credits: | 5 |
Type of course: | Fundamental |
Objectives: | The course provides to the students to knowledge and assess the real state of motion of bodies, qualitative and quantitative knowledge of the state of motion of bodies modeled as material points, points system materials, rigid and rigid systems. Knowledge and implementation of graphical and analytical skills working on dynamic characteristics of bodies modeled as systems of material points, rigid and rigid systems. |
Content: | Systems of forces. Strong reduction systems. Centre of gravity. Static material point. Rigid solid state. Equilibrium of rigid bodies systems. Equilibrium of rigid bodies systems. Plane truss. Kinematics point. |
Teaching language: | Romanian |
Evaluation: | Descriptive written and problems |
Bibliography (selective): | 1. Avramescu, C., Ecuatii
diferentiale si integrale, Reprografia Universitatii
din Craiova, 1972; 2. Buculei, M., Mecanica I, II, Reprografia Universitatii din Craiova, 1980; 3. Dumitru, N., Nanu, Gh., Vintila, D., Mecanisme si transmisii mecanice, Editura Didactica si Pedagogica, 2008; 4. Nanu, Gh., Vintila, D., Mecanica Culegere de probleme, Editura Universitaria, 2002; 5. Nanu, Gh., Vintilă, D., Mecanica teorie si aplicatii, Editura Universitaria, 2003; 6. Vintilă, D., Mecanica, Editura Sitech, 2012; 7. Vintilă, D., Bagnaru, D., Nanu Gh., Grigorie, L., Mecanica, Indrumar de laborator, Editura Sitech, 2009; 8. Vintilă, D., Dumitru, N., Nanu, Gh., Dinamica și stabilitatea sistemelor mobile cu elemente elastice, Editura Tehnica Bucuresti, 2002; 9. Voinea, R., Voiculescu, D., Ceausu, V., Mecanica, Editura Didactica si Pedagogica, 1984. |
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: | 5 |
Type of course: | Fundamental |
Objectives: | The course provides to the students the knowledge and assess the real state of motion of bodies, qualitative and quantitative knowledge of the state of motion of bodies modeled as material points, points system materials, rigid and rigid systems, knowledge and implementation skills and analytical Desktop on the characteristics bodies modeled as dynamic systems of material points, rigid and rigid systems, experimental evaluation of mechanical quantities. |
Content: | Kinematics of relative motion of the material point. Kinematics of rigid solid. Kinematics of rigid solid systems. Dynamics. Mechanical inertia. General theorems. Open and dynamic material point links. Dynamic connection rigid and solid. Dynamic systems of material points and rigid bodies. Analytical Mechanics. The principle of d'Alembert. The principle of virtual mechanical work. Lagrange equations. |
Teaching language: | Romanian |
Evaluation: | Descriptive written and problems |
Bibliography (selective): | 1. Avramescu, C., Ecuatii
diferentiale si integrale, Reprografia Universitatii
din Craiova, 1972; 2. Buculei, M., Mecanica I, II, Reprografia Universitatii din Craiova, 1980; 3. Dumitru, N., Nanu, Gh., Vintila, D., Mecanisme si transmisii mecanice, Editura Didactica si Pedagogica, 2008; 4. Nanu, Gh., Vintila, D., Mecanica Culegere de probleme, Editura Universitaria, 2002; 5. Nanu, Gh., Vintilă, D., Mecanica teorie si aplicatii, Editura Universitaria, 2003; 6. Vintilă, D., Mecanica, Editura Sitech, 2012; 7. Vintilă, D., Bagnaru, D., Nanu Gh., Grigorie, L., Mecanica, Indrumar de laborator, Editura Sitech, 2009; 8. Vintilă, D., Dumitru, N., Nanu, Gh., Dinamica și stabilitatea sistemelor mobile cu elemente elastice, Editura Tehnica Bucuresti, 2002; 9. Voinea, R., Voiculescu, D., Ceausu, V., Mecanica, Editura Didactica si Pedagogica, 1984. |
SECOND YEAR
Strength of Materials I + II |
Number of credits: | 4 in 1st semester and 5 in 2nd semester |
Type of course: | Fundamental |
Objectives: | The course offers the students theoretical and practical concepts regarding the strength analysis of structures (machine parts, constructions, strength structures and so on). |
Content: | Mechanical structures schematization. Mechanical structures analysis(loadings, reaction forces, stresses, displacements and so on). The interpretation of mechanical loadings states for a construction; the design of mechanical structures; strength and stiffness calculus, structures strength checkings. |
Teaching language: | Romanian |
Evaluation: | Written/oral examination |
Bibliography (selective): | 1. Ilincioiu, D, Rezistența
Materialelor, Ed. ROM TPT, Craiova, 2002; 2. Ilincioiu, D., Rezistența Materialelor, Ed. ROM TPT, Craiova, 2003; 3. Ilincioiu, D., Rezistența Materialelor, ediția a II-a, Ed. ROM TPT, Craiova, 2007; 4. Ilincioiu, D., Mirițoiu, C., Rezistența Materialelor, vol.I și II, Ed. Universitaria, Craiova 2011; 5. Miritoiu, C., Ilincioiu, D., Rezistența Materialelor. Aplicații, vol.I, Ed. SITECH, Craiova 2012. |
Hydraulics |
Number of credits: | 4 |
Type of course: | Fundamental |
Objectives: | The aim of the course is to present the basics of fluid mechanics and elements of applied hydraulics. |
Content: | Physical properties of fluids. Hydrostatic pressure. Hydrostatic law. Hydrostatic forces. Lagrange and Euler's method in kinematics of fluid mechanics. Mass conservation equation. Bernoulli equations and applications. Laminar fluid flow. Navier-Stokes equation. Bernoulli generalized law. Fluid flow in hydraulics pipes. Reynolds number. Linear friction losses. Darcy-Weisbach relation. Local friction losses. Flow in pressured pipes. Serial pipes. Parallel pipes. Network pipes. Short pipes calculus. Water hammer. Fluid flow in open channels. Fluid flow through holes. Fluid flow over weirs. |
Teaching language: | Romanian |
Evaluation: | Written/oral test |
Bibliography (selective): | 1. ASTEFANEI I., Mecanica
fluidelor si masini hidraulice, partea I. Mecanica
fluidelor ideale. Universitatea din Craiova,
1996; 2. ANTON V., POPOVICIU M., FITERO I. - Hidraulica si masini hidraulice. Editura Didactica si Pedaogica, Bucuresti, 1978; 3. BARTHA I., JAVGUREANU V., Hidraulica. Editura Tehnica, Bucuresti, 1998; 4. BUCULEI M., Mecanica fluidelor, Universitatea din Craiova, 1984; 5. BUCULEI M., s.a. - Mecanica fluidelor si masini hidraulice, Ed. Universitaria, Craiova, 2011; 6. CRETU I., Hidraulica generala si subterana. Editura Didactica si Pedaogica, Bucuresti, 1983; 7. FLOREA J., Mecanica fluidelor, Editura Didactica si Pedaogica, Bucuresti, 1979; 8. GIURCONIU M., s.a. - Hidraulica constructiilor si instalatiilor hidroedilitare, Editura Facla Timisoara, 1989; 9. IAMANDI C., s.a., Hidraulica instalatiilor. Editura Tehnica, Bucuresti, 1994; 10. MANESCU A., SANDU M. - Hidraulica teoretica si aplicata, Institutul de Constructii Bucuresti, 1983; 11. TALU M., Hidraulica Instalatiilor edilitare.Baze teoretice si aplicatii practice, Editura ICMET Craiova, 2002; 12. TROFIN E. - Hidraulica si hidrologie, Ed. Didactica si Pedagogica, Bucuresti, 1974; 13. VASQUEZ J. - Hydraulique générale, ENGEE de Strasbourg; 14. VIERSMA T.J., Analysis, synthesis and design of hydraulic servosystems and pipelines. Delft University of Technology, Faculty of Mechanical Engineering, Holland, 1990. |
Thermotechnics |
Number of credits: | 4 |
Type of course: | Domain |
Objectives: | This course allows to acquire correct knowledge and skills required for thermal calculation in manufacturing and correct operation of heating and cooling. Necessary skills are acquired for conception of minimum specific energy consumption by extending the concepts of energy and exergetic balance. |
Content: | Generalities in thermotechnics. Methods in thermodynamic. Thermodynamic coefficients. The first principle of thermodynamics for closed and open systems. Enthalpy. Caloric equation of state. Robert Mayer's. Perfect gas. Perfect gas laws. Perfect gas mixtures. Simple thermodynamic transformations. The second principle of thermodynamics. Cycles motors and generators. Heat engines. Heat pumps, refrigeration machines. Entropy. Entropy in simple thermodynamics trnsformations. Refrigeration. Real gas. Vapors. Moist air. Thermodynamic methods. The third principle of thermodynamics. |
Teaching language: | Romanian |
Evaluation: | Written/oral examination |
Bibliography (selective): | 1. Bică, M.,Călbureanu M.,
Termotehnică și mașini termice, Editura ICMET,
Craiova 2002; 2. Dănescu, Al., ș.a., Termotehnică și mașini termice, EDP București, 1985; 3. Călbureanu, M., Cernăianu, C., Îndrumar de laborator de termotehnică, mașini termice și transfer de căldură - Îndrumar de laborator, Ed. Universitaria, 2008; 4. Ștefănescu,D., ș.a., Termogazodinamică tehnică, ET, București, 1986; 5. Nagi, M., ș.a., Gazodinamică, echipamente termice, Timișoara, 1999. |
Construction Machines |
Number of credits: | 2 |
Type of course: | Fundamental |
Objectives: | The course provides to the students to understanding kinematic schemes, composed of technical drawings of machines, production flows, graphs, and understanding formulas for the determination of main parameters of machines. |
Content: | Mechanization of construction. Classification machinery. Structure machinery. General concepts about machine parts (materials, classification). Mechanical and hydraulic transmissions. Land excavation machines. Excavators (classification, construction, operation, main parameters). Digging machinery and land transport (bulldozers, graders). Machines compacting earth, concrete and asphalt (road rollers, vibratory plates, rammers). Machinery for preparing, transporting and placing of concrete (compaction process, mixers, stations concrete, concrete mixers, concrete casting technology). Machines for underground (sewers execution shields and underground tunnels, machinery for execution undercrossing). Lifting and transporting machines (cranes, tower cranes, jib cranes, belt conveyors).Street maintenance machinery.Machines for building facades and lamp posts (mobile platforms). Machines for superstructure rebuilding roads) mills asphalt, concrete. |
Teaching language: | Romanian |
Evaluation: | Oral examination with tickets |
Bibliography (selective): | 1. Alămoreanu, M., Traian
Tisea, Masini de ridicat, Editura Tehnică, 2000,
Bucuresti; 2. Beiu, E., Capata, I., Tehnologia construcsiilor si masini de construcsii, vol. I, vol II, curs, Reprografia Institutului Politehnic, Cluj Napoca, 1972; 3. Mihăilescu, St, Masini de constructii si prelucrarea agregatelor, Ed. Didactică si Pedagogică, Bucuresti, 1983; 4. Popescu, P., s.a., Masini de construcsii, Ed. Tehnică, Bucuresti, 1960; 5. Vita, I., s.a , Masini de ridicat în constructii, exploatare, întretinere, reparatii, Ed. Tehnică, Bucuresti, 1989; 6. Vintilă, D., Bagnaru, D., Georgescu, I., Masini de constructii, Editura Universitaria, 2004; 7. Vintilă, D., Bagnaru, D., Georgescu, I., Masini de constructii, Editura Didactică si Pedagogică, 2010. |
Industrial Sociology |
Number of credits: | 2 |
Type of course: | Complementary |
Objectives: | Knowing and understanding by students of various aspects of the enterprise’s social life and social-humanistic problematics. Inprovement of abilities of fast solutioning of the social and human problems faced by students in their future jobs. Acquiring of methods, techniques and investigation tools specific to the discipline as future (applicative) support in the activity related to social relationships at the working place. Training of future engineers for the dialogue with specialists from the areas of social-human sciences, sociologists and psychologists, more in more involved in the actual enterprises development process. |
Content: | Sociology –social science. Industrial Sociology as a branch of the general Sociology. Methodology in Industrial Sociology. Sociology of industrial enterprises. (Problems of industrial Macrosociology. Problems of industrial Microsociology. ). Societal structure of industrial enterprises. Sociology of personnel from factories. Industry, Economy, society, industrial sociology. Industry – factor of urbanization and social construction. |
Teaching language: | Romanian |
Evaluation: | Written verification |
Bibliography (selective): | 1. Cauc I, Manu B, Parlea
D, Goran L, Metodologia cercetarii sociologice
– metode si tehnici de cercetare. Ed a IV, Ed.
Fundatiei de maine, Bucuresti, 2007; 2. Furtuna Carmen, Sociologie generala, Editura Fundatiei Romania de maine, Bucuresti, 2007; 3. Hinescu Arcadie, Ludusan Marioara, Sociologie industriala, Editura Astra, Blaj, 2002; 4. Otovescu Dumitru, Probleme fundamentale ale sociologiei, Editura Scrisul Romanesc, Craiova, 1997; 5. Saramet C., Bejan M., Inginerul - confident si vizionar, Editura AGIR, Bucuresti, 1999; 6. Sass L, Sociologie industriala, Note de curs, 2012. Zamfir Catalin si Filipescu Iancu, Sociologie industriala − Curs și exerciții pentru seminar. Bucuresti, 1982. |
THIRD YEAR
Engineering Statistics |
Number of credits: | 4 |
Type of course: | Fundamental |
Objectives: | The students acquaitance with the concepts and fundamental elements regarding the probability theory and the statistics calculus. The students learning with the formulas and the statistics calculus methodology, and also with the statistics control achievment for the processes and products quality assurance. |
Content: | The acquisition and sistematization of statistical data. Elements of the probabilistics theory. Classical laws of distribution of random variables. Elements of selection and estimation theory. Statistics hypotheses testing. Regression and corelation. Statistical quality control. |
Teaching language: | Romanian |
Evaluation: | Written/oral examination |
Bibliography (selective): | 1. Baron. T., Țițan. E.,
Matache. S., Ciuchiță. L., Manual practic de
statistică, Editura Expert, 1999; 2. Iosifescu. M., Mihoc. Gh., Theodorescu. R., Teoria probabilitatilor si statistica matematica, Editura tehnica, Bucuresti, 1966; 3. Petrehus. V., Popescu. S.A., Probabilități și statistică, Note de curs, http://www.vpetrehus.home; 4. Rancu. N., Tovissi. L., Statistica matematica cu aplicatii in productie, Editura Academiei Republicii Populare Romane, 1963; 5. Stănășilă. T., Metode statistice pentru ingineri – teorie, exerciții, aplicații, Editura Matrix Rom, București, 1998; 6. Tarnita D. Statistica, teorie si aplicatii, Editura Univesitaria, Craiova, 2004. |
Theory of Elasticity Elements and Thin Plates Calculus |
Number of credits: | 4 |
Type of course: | Technical culture of specialty |
Objectives: | The aim of the first part of this course is to present the basic of continuum mechanics and linear elasticity. In the second part is presented elements of thin plates calculus. |
Content: | Deformations. Strain tensor. Stress. Stress tensor. Two dimensional problem (plane stress). Mohr's circle. Fundamental laws in theory of elasticity. Hooke's law. Navier's equation. Compatibility equations. Airy function. Hypothesis in thin plates theory. Strain-curvature relations. Stress in thin plates. Moments-curvatures equations. Lagrange equation. Boundary conditions. Pure bending of thin plates. Pure torsion of thin plates. Analytical solutions for Lagrange equation. Circular plates equations. Axisymmetric bending of circular plates. |
Teaching language: | Romanian |
Evaluation: | Written examination |
Bibliography (selective): | 1. Băgnaru D. - Elemente
de teoria elasticitatii si calculul placilor,
Editura SITECH, Craiova, 2010; 2. Boivin M., Fantozzi G. - Mécanique des milieux continus, INSA de Lyon, 2000; 3. Cătăneanu A., Băgnaru D. - Mecanica mediului continuu, Editura SITECH, Craiova, 2000; 4. Champaney I - Methodes Numerique pour la Mecanique, Universite de Versailles, 2007; 5. Charles R. Steele, Chad D. Balach - Introduction to the theory of plates, Stanford University, 2009; 6. Maya M. - Cours de Mecanique de Milieux Continus, Centre Enseignement et de Recherche de Cluny, 2007; 7. Moës N. - Mécanique des milieux continus, Ecole Centrale de Nantes, 2003; 8. Sadd M. H. - Theory, Applications and Numerics, Elsevier, 2005; 9. Teodorescu P.P., Probleme actuale în mecanica solidelor, Editura Academiei României, București, 1975; 10. Timoshenko S. - Theory of Elasticity, McGraw Hill, 1953; 11. Ugural A.C., Fenster S.K. - Advanced Strenght and Applied Elasticity, Prentice Hall, 2003; 12. Ventsel E., Krauthammer T. - Thin Plates and Shells, Marcel Dekker Inc., 2001. |
Geotechnics |
Number of credits: | 4 |
Type of course: | Technical culture of specialty |
Objectives: | The course allows students to aquire the notions about the soils, the physical and mechanical properties of the soils, and testing methods of this properties. |
Content: | The soils mechanics object of study. Soils components. Liquid phase. Soils physical characteristics. Mechanical and physical properties of soils. Shear strength of soils Research of foundation soils. Difficult soils as foundation soils. Pushing processes of soil. Pressure of Soil pushing process. Supporting buildings. Slope stability Distribution of stress in foundation soil. Soils behavior subjected to dynamic loads. |
Teaching language: | Romanian |
Evaluation: | Written and oral examination |
Reinforced Concrete Structures II + III |
Number of credits: | 4+5 |
Type of course: | Domain |
Objectives: | The main objectives of the course are to learn the students the principles of concret calculation, starting with concrete plates, building concrete structure (Beams, walls and short overhangs; Flat-plates continuous supported etc.) |
Content: | Principles of concrete calculation; Calculation of plain concrete elements; Calculation of reinforced concrete elements at the ultimate limit state; Fatigue calculation of reinforced concrete elements for linear loads during normal operation Pre-stressed concrete; Stress loss in pre-stressed reinforcement; Determination of stress in concrete and reinforcement; Calculation of ultimate limit state resistance; Calculation of pre-tensioned concrete elements subjected to torsion; Calculation of pretensioned concrete elements subjected to fatigue The limit state of strain calculation for pre- stressed concrete elements; Buildings elements made of reinforced concrete; Characteristic modes of monolithic structures; Calculation of the limit state of strength for bending with or without axial stress, calculation methods; Double armed elements with rectangular section; Elements with T-shaped section Calculation of strength limit state of reinforced concrete elements subjected to eccentric compression; Calculation of strength limit state of reinforced concrete elements subjected to oblique bending with or without axial stress; Calculation of limit state of strength of reinforced concrete elements subjected to eccentric tensile load; Calculation of strength limit state of reinforced concrete elements subjected to shear forces; Calculation of strength limit state of reinforced concrete elements subjected to torsion; Cracking limit state calculation for reinforced concrete elements; Deformation limit state calculation for reinforced concrete elements; Fatigue limit state calculation of reinforced concrete elements. Calculation of strength limit state of reinforced concrete elements with rectangular and T-shaped section subjected to eccentric compression; Calculation of strength limit state of reinforced concrete elements with rectangular and T-shaped subjected to bending; Calculation of strength limit state of reinforced concrete elements with rectangular and T-shaped subjected to tensile load Calculation strength limit state of reinforced concrete elements with rectangular and T-shaped section subjected to compression; Reinforced concrete frame structures; Structures of reinforced concrete diaphragms, vaults and arches; Prefabricated buildings, structural panels; Spatial Structures; Reinforced concrete foundation; Raft foundation made of reinforced concrete; Reinforced concrete pilots; Industrial halls; Special buildings made of reinforced concrete - supporting walls; tanks for liquids; chimneys.; Pre-stressed concrete Structures Designing. |
Teaching language: | Romanian |
Evaluation: | Written and oral examination |
Civil Buildings |
Number of credits: | 4 |
Type of course: | Speciality |
Objectives: | The course allows students to aquire the notions of finishing operations in construction elements and thermal insulation of buildings, understand the behavior of building structures for civil action gravity and horizontal loads from wind or earthquake - to know how to calculate all components of buildings |
Content: | Introduction. Coordination modular construction tolerances and deviations. Shares in construction. The action of the fire on the building. Hygrothermics in buildings. Heat transfer through building elements. Assessing the risk of condensation. Hygrothermal compliance calculations for the building envelope. Influence of humidity on construction. Principles of sound insulation in buildings. Natural lighting of buildings. |
Teaching language: | Romanian |
Evaluation: | Written and oral examination |
Bibliography (selective): | 1. Ciornei, A., Construcții
civile, Ed. Junona, Iași, 2000; 2. Negoiță, N., - Construcții civile, Editura Didactică și Pedagogică, București, 1976; 3. Pestișanu, C., - Construcții, Editura Didactică și Pedagogică, București, 1979; *** STAS 10107/0-90 - Construcții civile și industriale. Calculul și alcătuirea elementelor de beton , beton armat și beton precomprimat; *** Calcul de proiectare seismică, P100-2006; *** Cod de proiectare structuri din zidărie. |
Dynamics and Seismology |
Number of credits: | 4 |
Type of course: | Domain |
Objectives: | Assimilation by learners of specific notions of structural systems response to different types of dynamic actions. Determination of structural response is an essential element in the design of structural systems to dynamic and seismic actions for different types of construction. In this course, the student's thinking is oriented towards understanding the notion of behavior of structural systems for these types of actions. |
Content: | Modeling dynamic actions. Structural modeling construction systems. Characterization of 1-DOF dynamic structural systems. Free vibrations of 1-DOF dynamic system in the absence and in the presence of damping. Forced vibration dynamic system 1GLD for actions with harmonic character. 1-DOF system response to a force pulse. The study of dynamical systems with n DOF. Vibration modes by using matrices [D] and {R}. Orthogonality property of eigenvectors. Modal analysis of dynamic response. Numerical methods for calculating values and eigenvectors. Characterization of seismic action. Records of seismic movements. Seismic movement parameters. 1-GLD system response to seismic action (equation of motion: seismic response instantly, maximum earthquake response, seismic response spectra, seismic force concept) with nDOF system response to seismic action. Modal superposition. |
Teaching language: | Romanian |
Evaluation: | Written and oral examination |
Bibliography (selective): | 1. Mihail Ifrim - Dinamica
structurilor și inginerie seismică. EDP, 1984; 2. R.W. Ctough, J. Penzien - Dynamics of Structures. McGraw Hill, 1993; 3. A. Chopra - Dynamics of Structures. Theory and Applications to Earthquake Engineering," Prentice Hall, 2001; 4. FI. Macavei, V. F. Poterasu - Complemente de dinamica structurilor. Editura Virginia. Iași. 1993 |
Architectural Elements |
Number of credits: | 2 |
Type of course: | Field |
Objectives: | The course offers to the students general technical knowledge of design, composition and functionality of buildings and forming a unitary conception on the characteristics of architectural styles and historical developments in the world of construction. Also, the course offers the learning the meanings of key terms needed in the dialogue between structural engineers and architects in the design, implementation and operation of buildings in general and especially of buildings. |
Content: | General elements of construction history. Mainstream architecture. Elements of modern architecture. Architectural arts. Ancient architecture in Romania. Modern architecture in Romania. New architectural trends. |
Teaching language: | Romanian |
Evaluation: | Written/oral examination |
Bibliography (selective): | 1. Blitz,E.,Dicționar de
construcții și arhitectură, Ed.Tehnică,București,19731; 2. Sevastean I. Ianca, Elemente de arhitectură, Editura „Politehnica”, Timișoara, 2006; 3. Curinschi,Gh., Istoria universală a arhitecturii, Vol. I,II,III, Ed.Tehnică,București, 1975; 4. Drîmba,O., Istoria culturii și civilizației, VoI. I,II,III, Editura științifică și enciclopedică, București, 1984; 5. Ianca,S.,I.,Elemente de arhitectură și urbanism, Curs,Ed.U.T.Politehnica, Timișoara, 1998; 6. Ionescu,G., Istoria arhitecturii în Romania, Ed.Tehnică,București, 1970; 7. Zevi,B., Cum să înțelegem arhitectura, Ed.Tehnică,București, 1969. |
Introduction in Finite Element Method |
Number of credits: | 3 |
Type of course: | Technical culture of specialty |
Objectives: | 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 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, ISBN 978-973-31-2332-3; 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; 13. Ansys theory reference, 8th Edition SAS IP, Inc.; 14. Adams flex guide Mechanical Dynamics rev. 10.0. |
AutoCAD 3D |
Number of credits: | 4 |
Type of course: | Fundamental |
Objectives: | The course follows the basics of tridimensional modeling of the buildings, general knowledge and skills for knowledge and analysis, the design and creativity skills development. Used terms are conformable with our national and international regulations. |
Content: | General aspects about Computer Graphics. The evolution of Computer Graphics. A short history of the CAD (Computer Aided Design) concept. The classification of the CAD systems. The location of the CAD concept in the industrial company. New concepts in CAD. The concepts and software adjacent to the CAD concept. The CAM (Computer Aided Machining) concept. The FEA (Finite Element Analysis) concept. The dynamic and kinematic simulation software. The virtual prototyping concept. Parameterization and bidirectionality. Modeling software modules. 2D sketches. Base and additional shapes. Coordinates systems. Tridimensional modeling. Modeling commands. Primitive models. Extrude and revolution solids. Solid operations. Commands for surface modeling. Commands for tridimensional viewing. |
Teaching language: | Romanian |
Evaluation: | Written/oral examination |
Bibliography (selective): | 1. Autodesk Inc., 1992, AutoCAD
Autolisp & API Under AME; 2. Autodesk Inc., 1992, AutoCAD Reference Manual; 3. Autodesk Inc., 1992, AutoCAD Render Reference Manual; 4. Autodesk Inc., 1992, AutoCAD SQL Extension Reference Manual; 5. Burchard Bill s.a., Secrete AutoCAD 14, Ed.Teora, Bucuresti, 1998; 6. Duta, A., Notiuni de desen in domeniul constructiilor, Ed. Universitaria, ISBN 978-973-742-853-0, Craiova, 2007; 7. Gherghina G., Popa D., Tudor M., Elemente de infografica tehnica - Teorie si aplicatii, Ed. Radical, Craiova, 1998; 8. Gherghina, G., Popa, D., Calbureanu, M.,Tudor, M., Grafica asistata de calculator. Doua modalitati de abordare, Reprografia Universitatii din Craiova, 2000; 9. Peterson, Michael Todd, 3D STUDIO MAX. Fundamente, Editura Teora, Bucuresti, 1998; 10. Popa D., Grafica asistata de calculator, Ed. Sitech, 2003, 154 pag., ISBN 973-657-444-X; 11. Popa D., Gherghina G., Calbureanu M., Grafica asistata de calculator pentru constructii. De la 2D la 3D, pp.280, Ed. Sitech, Craiova, ISBN 978-973-746- 801-7, 2008; 12. Popa D., Gherghina G., Tutunea D., Grafica asistata de calculator pentru constructii. Desenare, modelare si programare, pp.343, ed. Sitech, ISBN 978-606- 530-726-1, Craiova 2009; *** CAD Report Journal- 1996-1998 arhive. |
Insulations for Buildings |
Number of credits: | 2 |
Type of course: | Domain |
Objectives: | This course allows acquiring the correct knowledge and skills necessary to calculate the thermal resistance, the correct choice of materials and solutions and optimal thermal and acoustic insulation. Develops the technical skills of execution management in construction activities regarding the the thermal and acoustic insulation of buildings. |
Content: | Overview on building insulation. Building as a factor in achieving thermal and acoustic comfort. Hygrothermal, interior and exterior climatic parameters. Heat transfer laws. Heat transfer by conduction. Heat transfer by convection. Heat transfer by thermal radiation. Overall heat transfer of building elements. Response of the building envelope elements for heat transfer in nonstationary thermal regime. Building envelope elements response to water vapor diffusion. Vapor barrier. Corrected thermal resistance of building elements with thermal bridges. Elements to optimize the degree of thermal protection to building elements. Principles of thermal rehabilitation of buildings envelope elements. Materials and thermal and acoustic insulation solutions for tiles on the ground floor. Material solutions and thermal and acoustic insulation solutions for roofs and terraces. Waterproofing construction elements. Materials and solutions. |
Teaching language: | Romanian |
Evaluation: | Written examination |
Bibliography (selective): | 1. Călbureanu, M., Malciu,
R. – Izolarea termică în construcții, Editura
Universitaria, Craiova, 2010; 2. Călbureanu, M. – Metode numerice în transferul de căldură, Editura Universitaria, Craiova, 2004; 3. Comsa, E., Moga, I., Constructii Civile Higrotemica si Acustica Cladirilor, I.P.Cluj-N., 1992; 4. Comsa, E., Moga, I., Proiectarea Functionala a cladirilor. Proiectarea higrotermica si acustica, I.P.C.-N.,88; 5. Moga, I., Manea, D., Termotehnica cladirilor. Culegere de probleme, U.T. Press, Cluj-Napoca, 1999; 6. Moga, I., Manuale de utilizare pentru programe de calcul in higrotermica cladirilor (9 programe de calcul); 7. Comșa, E., Moga, I., Munteanu, C. – Proiectarea higrotermică a clădirilor-Curs postuniveritar, Cluj-N.,2004; *** C 107/3-2005 - Normativ privind proiectarea și executarea lucrărilor de izolații termice la clădiri. |
FOURTH YEAR
Computer Aided Design in Civil Engineering |
Number of credits: | 3 |
Type of course: | Fundamental |
Objectives: | The course offers the general informations and concepts of Computer Aided Design of the civil and industrial buildings resistance structures, and the capacity to operate with ETABS, finite elements method used in civil engineering. |
Content: | ETABS: 3d modelling of the civil and industrial buildings resistance structures build from reinforced concrete or metallic profiles. Setting the support and loading conditions for the buildings structures. Applying the seismic loads to the model. Creating the load combination for the seismic complete design. Obtaining the diagrams of the efforts N, T, M, for the elements of construction. The calculus for the reinforcing bars for columns, piers, slabs, walls and the calculus for the metallic profiles sections. |
Teaching language: | Romanian |
Evaluation: | Written/practice examination |
Bibliography (selective): | 1. Negru M., Proiectarea
asistata de calculator cu ETABS, CD, 2010. *** Technical documentation ETABS |
Masonry Mechanics |
Number of credits: | 2 |
Type of course: | Fundamental |
Objectives: | The course provides to the students an understanding of the formulas for calculating the various demands faced by masonry structures, the possibility of applying the formulas for calculating the horizontal and vertical loads they are subjected to simple and mixed masonry structures and explaining and interpreting physical and mechanical phenomena due to seismic and wind action. |
Content: | Calculation of simple masonry centric and eccentric compression. Reinforced masonry calculation centric and eccentric compression. Calculation of mixed masonry. Calculation of masonry structures required in horizontal and vertical loads. Calculating the capacity of eccentric compressive strength of masonry simple. Calculating the eccentric compressive capacity of masonry reinforced concrete pillars. |
Teaching language: | Romanian |
Evaluation: | Descriptive written |
Bibliography (selective): | 1. Ciornei, A., - Construcții
civile, Ed. Junona, Iași, 2000; 2. Negoiță, N., - Construcții civile, Editura Didactică și Pedagogică, București, 1976; 3. Pestișanu, C., - Construcții, Editura Didactică și Pedagogică, București, 1979; 4. Vintilă, D., Mecanica Zidăriilor-curs, Editura Sitech, 2012, Craiova; *** STAS 10107/0-90 - Construcții civile și industriale. Calculul și alcătuirea elementelor de beton , beton armat și beton precomprimat. Calcul de proiectare seismică, P100-2006. Cod de proiectare structuri din zidărie; *** STAS 10100/0-75 - Principii generale de verificare a siguranței construcțiilor; *** STAS 10100/0-2A2 - Acțiuni în construcții; *** STAS 10102-75 - Construcții din beton armat și beton precomprimat; *** STAS 10107/0-90 - Calculul și alcătuirea elementelor structurale din beton, beton armat și beton precomprimat; *** STAS 10107/1-77 - Calculul și alcătuirea planșeelor din beton și beton precomprimat; *** STAS 10107/2-77 - Planșee curente din plăci și grinzi din beton armat și beton precomprimat. |
Metal Buildings III |
Number of credits: | 6 |
Type of course: | Fundamental |
Objectives: | The course provides to the students to explain the concepts of constructive composition of structural assembly halls strength structure steel, structural components of their role, presenting concepts related to charges faced by steel structures of halls, relaying their foundations and computational checking of structural elements. |
Content: | Composition whole metal structure of a hall resistance.Load on the structure halls. Location, role, composition and design verification by calculation of roof purlins. Composition design and verification by calculation of trusses of the roof. Composition design and verification by calculation of the beams supporting taxiways. Composition design and verification by calculation of metal poles halls. Composition design and verification by calculation from the roof bracing with steel. Composition design and verification by calculation of vertical bracing longitudinal row of pillars. |
Teaching language: | Romanian |
Evaluation: | Descriptive written and problems |
Bibliography (selective): | 1. Câmpian C., Elemente de
constructii metalice, UTPRES Cluj Napoca; 2. Dalban C., s.a.- Constructii metalice, Ed. D.P. 1976, 1983; 3. Mateescu Dan, Constructii metalice speciale, E. Tehnică, 1962; 4. Popescu V., Constructii metalice industriale, E. Tehnică, 1975; 5. Popescu V, Constructii Metalice, E. Tehnică, 1963, 1967. |