TUIASI
Civil Engineering (CE)
CE Courses

Civil Engineering (CE) Courses

The initial two years of study provide comprehensive interdisciplinary training, blending theoretical and applied aspects to build fundamental professional skills. The subsequent two years offer opportunities to delve deeper into specialization, expanding theoretical, scientific, and technical knowledge within the profession.

1st Year

Mandatory (DI)

Algebra and geometry 1

  • CE102
  • YEAR: 1
  • SEMESTER: 1
  • ECTS: 4

Course organizer:

Roman Marcel-Romică

I. Matrices; II. Linear Systems; III. Vector spaces (Linear spaces); IV. Linear transformations; V. Linear and bilinear forms. Q-forms; VI. Inner product spaces (IPS), normed vector spaces and metric spaces; VII. Vector Algebra.

L (lecture) - 2 H

L (lecture) - 2 H

LB (laboratory works) - 0 H

Algebra and geometry 2

  • CE111
  • YEAR: 1
  • SEMESTER: 2
  • ECTS: 3

Course organizer:

Roman Marcel-Romică

Chapter I. Reference systems and coordinates; Chapter II. Lines in plane; Chapter III. Planes and lines in space; Chapter IV. Conic sections (Second order algebraic curves in plane); Chapter V. Analytic geometry of surfaces. Quadric surfaces. Generating surfaces. Chapter VI. Notions of differential geometry

L (lecture) - 2 H

L (lecture) - 2 H

LB (laboratory works) - 0 H

Building materials 1

  • CE104
  • YEAR: 1
  • SEMESTER: 1
  • ECTS: 3

Course organizer:

Diaconu Livia-Ingrid

1. Natural stone - Main minerals. Rocks classification and characteristics. Natural stone products for construction. Aggregates; 2. Ceramics. Clays (composition, structure, water action behavior). Heating behavior. Manufacturing principles of ceramics. Ceramic materials and products. Ceramic aggregates; 3. Glass. Manufacturing principles. Types of glasses. Glass products for construction; 4. Metals. Iron and its alloys. Metallurgy notions. Characteristics of Fe – C alloys. Steel and cast irons products for construction. Non-ferrous metals and alloys. Metals corrosion and protection methods.

L (lecture) - 1 H

L (lecture) - 1 H

LB (laboratory works) - 1 H

Building materials 2

  • CE113
  • YEAR: 1
  • SEMESTER: 2
  • ECTS: 4

Course organizer:

Diaconu Livia-Ingrid

I. Mineral binders. Manifesting modes of the binding properties. Classification. Aerian and hydraulic binders: raw materials, manufacturing, hardening and setting mechanism, technical characteristics, using. II. Concretes and mortars based on mineral binders. Structure. Characteristics. Influence factors of the concretes’ characteristics. Special concretes. Concretes receipt. Mortars and using fields. III. Organic binders (hydro carbonates) – bitumens and tars. Composition, structure and manufacturing. Technical characteristics. Types and using methods. Bituminous materials: suspensions, emulsions etc. IV. Wood materials. Wood’s structure and composition. General properties and technical characteristics. Wood materials for construction. Decay and fire protection. V. Plastics. General properties of plastics. Obtaining methods: polymerization and polycondensation. VI. Finishing and protection materials. Isolation materials, adhesives, putties, varnishes and paints.

L (lecture) - 2 H

L (lecture) - 2 H

LB (laboratory works) - 2 H

Chemistry

  • CE106
  • YEAR: 1
  • SEMESTER: 1
  • ECTS: 3

Course organizer:

Diaconu Livia-Ingrid

1. Introduction. The course’s topics. Correlation with specialty disciplines. Evolution of the materials industry. 2. Structure of matter, as determinant of physical-chemical and mechanical properties. Atoms, ions: structure, properties. Chemical bonds. Molecular structures. Organic structure, silicates. 3. States of matter. Solid state. Liquid state. Gaseous state. State transformations. 4. Substances systems and their properties. Homogeneous systems (water, liquid solutions, solid solutions). Heterogeneous systems (surface phenomena, colloidal systems, macro - heterogeneous systems). Phase equilibrium. 5. Chemical kinetics. Chemical reactions in homogeneous systems. Chemical reactions in heterogeneous systems. Materials corrosion. 6. Materials structure. Unitary materials, composite, laminate. 7. General properties of building materials. Terminology. General principles for determining the technical characteristics of the materials. 7.1. Physical characteristics. 7.2. Mechanical characteristics. 7.3. Strain characteristics

L (lecture) - 2 H

L (lecture) - 2 H

LB (laboratory works) - 1 H

Computer programming and programming languages

  • CE107
  • YEAR: 1
  • SEMESTER: 1
  • ECTS: 3

Course organizer:

Pauleț-Crăiniceanu Fideliu

• A short introduction to computer science • Use of computer programs in solving office and engineering problems • Solving scientific problems using computers • Use of programming environments in solving scientific and engineering problems – Matlab/Octave

L (lecture) - 2 H

L (lecture) - 2 H

LB (laboratory works) - 2 H

Descriptive geometry

  • CE105
  • YEAR: 1
  • SEMESTER: 1
  • ECTS: 3

Course organizer:

Dănăilă Vanda-Ligia

I. Projection systems II. Plotting of a point in draught. The point in double orthogonal projection. The point in treble orthogonal projection. III. Plotting of a line in draught. Line’s projections. Line’s traces. Characteristic positions of a line. Relative positions of two lines. IV. Plotting of a plane in draught. Plane’s traces. Characteristic positions of a plane. Relative positions of two planes. V. The line and the plane VI. Methods of Descriptive Geometry. Method of replacing the projection planes. Method of revolution. Method of folding. VII. Plotting of solids (polyhedra) in draught. Plane sections through polyhedra. Polyhedra intersections.

L (lecture) - 2 H

L (lecture) - 2 H

LB (laboratory works) - 0 H

Elements of architecture and urban planning

  • CE114
  • YEAR: 1
  • SEMESTER: 2
  • ECTS: 3

Course organizer:

Baran Irina

General notions of architectural elements. Elements of architectural design, Elements of architecture history. Introduction in urban planning. Fundamental concepts in urban-planning. Urban composition, Town-planning approaches and the main urban-planning trends. Town-planning history. Romanian legislation. Urban analysis and urban forms. The choice of a town placement. Urban functions and urban frame. Climate, sanitation and urban hygiene. Town zoning. The town surrounding area. The long-term development of towns.

L (lecture) - 2 H

L (lecture) - 2 H

LB (laboratory works) - 0 H

Fundamentals of structural design

  • CE108
  • YEAR: 1
  • SEMESTER: 1
  • ECTS: 3

Course organizer:

Venghiac Vasile-Mircea

The course is based on the following topics: buildings, general elements, energy economy, creativity, ways of thinking in building evolution, building design requirements, construction physics (hygro-thermal design, acoustic insulation, natural illumination), actions and loads, structural systems, construction safety, construction infrastructure (foundations, foundation hydro-insulation), construction superstructure (columns, beams, walls, floors, stairs, roofs, arches, cables, trusses), roadways and bridges. A main part of the course is a presentation of the evolution of structural systems, materials and technology throughout history using great structures as case studies.

L (lecture) - 2 H

L (lecture) - 2 H

LB (laboratory works) - 0 H

Mathematical analysis 1

  • CE101
  • YEAR: 1
  • SEMESTER: 1
  • ECTS: 4

Course organizer:

Caraman Sânziana

The first part of the course is the presentation of the structure of the real set and the study of numerical sequences (convergence, limits). The second part is about infinite numerical series (tests of convergence, the computation of the sum of series.) The last part is the study of functions. First one makes a revision of the real functions with one variable where the main problems (limits, continuity, differentiability and applications of the derivatives) are presented. The same problems are generalized to real functions of several variables and to vector functions. An important application of differentiability is for optimization problems where the finding of point of extremum of a real multivariable function proves to be very useful.

L (lecture) - 2 H

L (lecture) - 2 H

LB (laboratory works) - 0 H

Mathematical analysis 2

  • CE110
  • YEAR: 1
  • SEMESTER: 2
  • ECTS: 3

Course organizer:

Caraman Sânziana

Mathematical Analysis 2 course starts with a revision of the indefinite and the definite integrals. The concept of definite integral is then generalized to improper integral (of first and second kind). In the second part, new types of integrals are considered as: the line integrals (with respect to the length arc and with respect to the coordinates), the double integrals and the triple integral. Various methods of computation for all these types of integrals are presented (the formula for transforming the different types of integrals into a Riemann integral, the change of variables method). The last part of the course is making an introduction to ordinary differential equations. It is thus studied the most frequently encountered first order differential equations and also higher order differential equations, in particular the linear ones with constant coefficients (homogeneous and non-homogeneous).

L (lecture) - 2 H

L (lecture) - 2 H

LB (laboratory works) - 0 H

Mechanics 1

  • CE103
  • YEAR: 1
  • SEMESTER: 1
  • ECTS: 4

Course organizer:

Sfartz Corneliu-Eugen

Reduction of force systems. Statics of the rigid body. Statics of systems of rigid bodies. Centers of mass. Geometric moments of inertia

L (lecture) - 2 H

L (lecture) - 2 H

LB (laboratory works) - 0 H

Mechanics 2

  • CE112
  • YEAR: 1
  • SEMESTER: 2
  • ECTS: 3

Course organizer:

Sfartz Corneliu-Eugen

Kinematics of the rigid body; Kinematics of systems of rigid bodies; Dynamics of the rigid body and of systems of rigid bodies; Elements of analytical mechanics.

L (lecture) - 2 H

L (lecture) - 2 H

LB (laboratory works) - 0 H

Physical training 1

  • CE109
  • YEAR: 1
  • SEMESTER: 1
  • ECTS: 1

Course organizer:

Athletics. Basic, aerobics and artistic gymnastics. Sport games. Improvement of basic motion qualities

L (lecture) - 0 H

L (lecture) - 0 H

LB (laboratory works) - 0 H

Physical training 2

  • CE117
  • YEAR: 1
  • SEMESTER: 2
  • ECTS: 1

Course organizer:

Sport games. Improvement of basic motion qualities

L (lecture) - 0 H

L (lecture) - 0 H

LB (laboratory works) - 0 H

Strength of materials 1

  • CE116
  • YEAR: 1
  • SEMESTER: 2
  • ECTS: 5

Course organizer:

Toma Ionuț-Ovidiu

1.Introduction. Classification and Idealized Representation of Structural Elements - Strength of Materials Objectives. Classification of Structural Elements. Idealized Representation of Structural Elements. Reference Systems. Supports. 2.Loads. Equilibrium of Structural Elements - Classification of Loads. Equilibrium Equations Expressed in Vector and Scalar Forms. 3.Internal Forces and Moments - Internal Resistant Wrench. Diagrams of Internal Forces and Moments. Differential Relations between Loads and Internal Forces and Moments. States of Loading. 4.Stresses. Strains. Displacements - Total Stress. Normal Stress. Shear Stress. Stress Tensor. Equivalence Relations. Axial Strains. Shear Strains. Strain Tensor. Displacements. 5.Plane Stress. Plane Strain - Stresses on Inclined Planes. Principal Stresses. Extreme Shear Stresses. Mohr’s Circle for Plane Stress. Isostatics. Strains along Different Directions. Principal Strains. Mohr’s Circle for Plane Strain. Hooke’s Law for Plane Stress and Strain. 6.Concentric Tension or Compression - General Considerations. Normal Stresses Formula. Strains and Displacements. Stress Concentration. Own Weight Effect. Member of Constant Strength. Stepped and Tapered Members. Statically Indeterminate Structural Elements and Systems. Strain Energy. Design Aspects. 7.Pure Shear. Joints. - General Considerations. Shear Stress Formula. Strains and Displacements. Strain Energy. Design of Joints (by using rivets, bolts, welding). 8.Free Torsion - General Considerations. Shear Stress Formula (for Circular Sections, Rectangular Sections, Thin – Walled Open Sections, Thin – Walled Closed Sections). Strains. Displacements. Strain Energy. Design Aspects. 9.Bending - General Considerations. Normal Stress Formula (Navier’s Formula). Extreme Normal Stresses. Beam of Constant Strength. Arm of the Internal Resisting Couple. Strains. Strain Energy. Design Aspects. 10.Combined Bending and Shear - General Considerations. Shear Stress Formula (Juravski’s Formula). Plane Stress at a Point of a Beam Subjected to Combined Bending and Shear. Isostatics. Longitudinal Shear Force. Shear Center. Strain Energy. Design Aspects.

L (lecture) - 3 H

L (lecture) - 3 H

LB (laboratory works) - 0 H

Technical drawing and infographics 1

  • CE115
  • YEAR: 1
  • SEMESTER: 2
  • ECTS: 2

Course organizer:

Antonescu Ion

Types of civil engineering drawings. Line types. Formats. Graphical elements of the format. Views layout. Sloped views. Drawing scales. Dimensioning. Level marks. Slopes. Detail drawing. Building tracing axis. Representation of holes in walls and plates. Representation of doors and windows. Sketch and survey drawing. Sketch and scale drawing of a plan section and a vertical section through the construction. Drawing of building foundation. Drawing of reinforced concrete structures. Drawing of timber structures. Drawing and dimensioning of metal structures. Representation of stairs and staircases.

L (lecture) - 1 H

L (lecture) - 1 H

LB (laboratory works) - 0 H

Technological practice

  • CE118
  • YEAR: 1
  • SEMESTER: 2
  • ECTS: 4

Course organizer:

1. Work safety rules. 2. The documentation activity implies gathering information from the considered work points; 3. Analysis, synthesis and processing of information regarding materials and execution technologies, presented both theoretically and practically on site.

L (lecture) - 0 H

L (lecture) - 0 H

LB (laboratory works) - 0 H

1st Year

Category (DL)

Aesthetics

  • CE121
  • YEAR: 1
  • SEMESTER: 1
  • ECTS: 2

Course organizer:

Ciobanu Claudia-Ioana

1. Aesthetics and visual identity - introductory notions; operational concepts. 2. Principles of graphic design. 3. Branding in the engineering services market. 4. The image in visual communication for the real estate sector. 5. The role of color in visual communication for the real estate sector. 6. Fundamentals in graphic design. 7. Graphics in marketing or non-verbal component in communication. 8. Computerized processing of the image. 9. Creative strategies in promoting engineering services

L (lecture) - 2 H

L (lecture) - 2 H

LB (laboratory works) - 0 H

An introduction to technical creativity

  • CE123
  • YEAR: 1
  • SEMESTER: 2
  • ECTS: 2

Course organizer:

Neculai Oana

1. The history of human mind development. The place and role of technical creation in the development of humanity; The evolution of humanity through creative technology, forms of expression: innovations, inventions, discoveries; 2. Our mind and personality. Knowing ourselves better means knowing where we can improve; 3. Stages of technical creation, information, problem generation, solution search, incubation, lighting, engineering verification; 5. Synthesis of information on a field; 6. Ideas diagrams; 7. The morphological matrix of ideas; 8. Stages of technical creativity finalization: creative design, engineering verification

L (lecture) - 2 H

L (lecture) - 2 H

LB (laboratory works) - 0 H

Educational psychology*

  • CE127
  • YEAR: 1
  • SEMESTER: 1
  • ECTS: 5

Course organizer:

Buju Smaranda

1. Psychology of education: problematic and goals. 2. Factors mental development: Heredity, Environment and Education. Stages of cognitive, moral and psychosocial development. 3. Personality in educational context: defining and characteristic of personality. Personality’s structure and dynamics: Temperament, Character and Ability. Theories of Personality. 4. School Learning: definitions, processuality, shapes and conditions. Theories of learning. 5. School motivation. 6. Educational group: Conceptual explanations. Group activity: advantages and limits. Social influence and school environment. 7. Students’ creativity: definitions, levels, dimensions. Creativity’s blocking. Methods of creativity’s development. 8. Methods of knowledge of students.

L (lecture) - 2 H

L (lecture) - 2 H

LB (laboratory works) - 0 H

Elementary mathematics 1

  • CE124
  • YEAR: 1
  • SEMESTER: 1
  • ECTS: 2

Course organizer:

Roman Marcel-Romică

Chapter I. Elementary functions of a real variable; Chapter II. Elementary linear algebra Chapter III. Real sequences; Chapter IV. Real functions of a real variable

L (lecture) - 2 H

L (lecture) - 2 H

LB (laboratory works) - 0 H

Elementary mathematics 2

  • CE125
  • YEAR: 1
  • SEMESTER: 2
  • ECTS: 2

Course organizer:

Roman Marcel-Romică

Chapter I. Geometry and trigonometry; Chapter II. Combinatorics; Chapter III. Integrability; Chapter IV. Analytic geometry

L (lecture) - 2 H

L (lecture) - 2 H

LB (laboratory works) - 0 H

Pedagogy

  • CE128
  • YEAR: 1
  • SEMESTER: 2
  • ECTS: 5

Course organizer:

Buju Smaranda

1. The introduction in education issues - Fundamental concepts: pedagogy, education, learning and the educational sciences system. 2. Education aims - Detailing on components (intellectual, moral, estetic, religious, technique education and its aims). 3. Introduction in the curriculum issues: the « curriculum » concept; curricular contents: sources, selection, organization. 4. The curriculum design, implementation and evaluation. 5. Elements of curricular reform.

L (lecture) - 2 H

L (lecture) - 2 H

LB (laboratory works) - 0 H

Urban planning and landscaping

  • CE126
  • YEAR: 1
  • SEMESTER: 2
  • ECTS: 2

Course organizer:

Covatariu Daniel

Lecture I - Introduction (concepts, specialized terminology, regional and national context) Lecture II - Landscaping / Spatial Planning (definition, brief history, specific objectives and documentation); Lecture III - Urban planning (definition, historic approaching, specific objectives and documentation); Lecture IV - Urban Planning & Landscaping legislative framework in Romania (history, content, evolution, trends) Lecture V-IX - Framework-content of the documentation on Urban Planning and Landscaping: methodology for developing P.A.T.Z.R., P.A.T.J., P.M.U. and the attributions of the administrations; guidelines and framework-content of the P.U.G., P.U.Z., P.U.D. (specific methodology) and the administration’s attributions; Lecture X - The flowchart of urban’s documentations (initiative, elaboration, analyse, public debate, noticing, approval, implementation, penalties); Lecture XI - Public administration tasks regarding the activities of territorial/urban planning. Public policies and principles for local/regional sustainable development. Lecture XII - Components of the local administration system (territory / locality / land / constructions) and their management; related documentation.

L (lecture) - 2 H

L (lecture) - 2 H

LB (laboratory works) - 0 H

1st Year

Elective (DO)

Optional 1-English language 1

  • CE119
  • YEAR: 1
  • SEMESTER: 1
  • ECTS: 2

Course organizer:

French grammar (verb tenses, nouns, adjectives), communicational aspects, British and American cultural elements

L (lecture) - 0 H

L (lecture) - 0 H

LB (laboratory works) - 0 H

Opțional 2-English language 2

  • CE120
  • YEAR: 1
  • SEMESTER: 2
  • ECTS: 2

Course organizer:

French grammar (verb tenses, nouns, adjectives), communicational aspects, British and American cultural elements

L (lecture) - 0 H

L (lecture) - 0 H

LB (laboratory works) - 0 H

2nd Year

Mandatory (DI)

Civil buildings

  • CE213
  • YEAR: 2
  • SEMESTER: 2
  • ECTS: 3

Course organizer:

Cozmanciuc Ruxandra

1. Classification of constructions and buildings. Buildings components 2. Basic requirements for construction works. Performance concept. Technical specifications. Design and construction legislation in Romania. 3. Dimensional coordination and tolerances in constructions 4. Actions on structures. Classification and evaluation of actions 5. General notions on building engineering physics

L (lecture) - 2 H

L (lecture) - 2 H

LB (laboratory works) - 0 H

Engineering geology

  • CE203
  • YEAR: 2
  • SEMESTER: 1
  • ECTS: 3

Course organizer:

Rotaru Ancuța

I. What is Engineering Geology? Introduction and terminology. Physical Geology and Historical Geology. The geologic time. The geologic time scale: eras, periods, epochs. The theory of uniformitarianism versus the theory of catastrophism. II. The Earth’s Crust. Planetary Geology: The Universe. The Milky Way. Our Solar System. The nine planets of the Solar System. The Earth: Dimensions, shape, structure. Physical properties of the Earth. The Earth’s interior: the crust, the mantle and the core. The Earth’s movements. Basic of Mineralogy: Forming, structure, classification and physical properties of minerals. Basic of Petrology: Forming and rock classification. Rocks: igneous, sedimentary and metamorphic. III. Dynamic geology: Endogenous processes. Exogenous processes. Oscillatory and tectonic movements. Plate tectonics: Continental drift and sea-floor spreading theories. Isostasia. Volcanoes: Structure, types of volcanoes, types of eruptions. Danger, advantages and prediction of volcanic eruptions. Products of volcanoes. Geographic distribution of volcanoes. Earthquakes: Causes, elements. Seismic waves. Magnitude – Richter Scale. Damage caused by earthquakes – Mercalli Scale. Seism-tectonic models of Romania. IV. Engineering Geology and Environment. Groundwater, landslides. The role of Engineering Geology in Civil Engineering.

L (lecture) - 1 H

L (lecture) - 1 H

LB (laboratory works) - 1 H

Environmental engineering

  • CE216
  • YEAR: 2
  • SEMESTER: 2
  • ECTS: 3

Course organizer:

Baran Irina

1. Introduction 2. Environmental factors - pollution vectors 3. Pollution sources and nature of pollutants 4.The dispersion of pollutants. 5. The biological action of pollutants. 6. Controlling the contamination of the environment 7. Environment protection principles. 8. Elements of environmental law 9. Changing the environmental conditions in urban areas and their influence on sustainable construction 10. Recycling of building materials 11. Energy conservation in buildings 12. Sustainable Buildings.

L (lecture) - 2 H

L (lecture) - 2 H

LB (laboratory works) - 0 H

General economics

  • CE207
  • YEAR: 2
  • SEMESTER: 1
  • ECTS: 2

Course organizer:

Filipeanu Dumitru

Ch.1. Introduction to Political Economy; Ch.2. Forms of organization and functioning of the social economy; Ch.3. Consumer choice; Ch.4. Theory of demand; Ch.5. Theory of cost and supply Ch.6. Perfect Competition; Ch.7. Monopoly; Ch.8. Oligopoly and monopolistic competition; Ch.9. Government intervention in price formation mechanism; Ch.10. Main Macroeconomic indicators Ch.11. Income, consumption, savings; Ch.12. Unemployment; Ch.13. Inflation; Ch.14. State and economy; Ch.15. Economic growth and development

L (lecture) - 1 H

L (lecture) - 1 H

LB (laboratory works) - 0 H

Hydraulics

  • CE215
  • YEAR: 2
  • SEMESTER: 2
  • ECTS: 2

Course organizer:

Mitroi Raluca

I. Physical properties of fluids; II. Hydrostatics; III. Hydro kinematics; IV. Hydrodynamics V. Hydraulic systems under pressure (Pipes); VI. Hydraulic systems with a free level (Channels) VII. Ground water hydraulics; VIII. Hydraulic engines (Pumps)

L (lecture) - 1 H

L (lecture) - 1 H

LB (laboratory works) - 0 H

Physical training 3

  • CE208
  • YEAR: 2
  • SEMESTER: 1
  • ECTS: 1

Course organizer:

1. Sport games: basketball, handball, football, volley, badminton 2. Improving the basic moving capacities

L (lecture) - 0 H

L (lecture) - 0 H

LB (laboratory works) - 0 H

Physical training 4

  • CE217
  • YEAR: 2
  • SEMESTER: 2
  • ECTS: 1

Course organizer:

Sport games: basketball, handball, football, volley, badminton. Improving the basic moving capacities

L (lecture) - 0 H

L (lecture) - 0 H

LB (laboratory works) - 0 H

Physics 1

  • CE204
  • YEAR: 2
  • SEMESTER: 1
  • ECTS: 3

Course organizer:

Radinschi Irina

I. Mechanics, oscillations. Principles of classical mechanics. Laws of conservation. Harmonic oscillations. Damped oscillations. Forced oscillations. Two harmonic parallel oscillations of the same frequency. Applications. II. Undulatory phenomena. Acoustics. Waves. Mathematical description. Classification. Travelling waves. Wave equation. Interference, diffraction, polarization. Acoustics. Applications. III. Fluids. Physical quantities and laws. Applications. IV. Thermodynamics. Physical quantities. Principles. Applications.

L (lecture) - 1 H

L (lecture) - 1 H

LB (laboratory works) - 1 H

Physics 2

  • CE209
  • YEAR: 2
  • SEMESTER: 2
  • ECTS: 3

Course organizer:

Radinschi Irina

I. Electricity and magnetism, electromagnetic waves. Electrostatics. Electrokinetic. Magnetostatics. Wave equation in dielectrics and conductors. Reflection and refraction of electromagnetic waves; optical fiber. Polarization of light; applications. II. Optical phenomena. Interference. Diffraction. Applications. III. Quantification and the dual nature of matter. Thermal radiation; technical applications. Photoelectric effect. Applications. IV. Elements of quantum mechanics. Elements of solid-state physics. Schrödinger equation. Particle in pit potential. Barrier potential. Crystal structure and their classification. The theory of electrons in solids. Electrical properties of crystals: electrical conduction in metals and semiconductors; electrical properties of dielectrics; superconductivity. Thermal properties of solids. Magnetic properties of solids. Applications.

L (lecture) - 2 H

L (lecture) - 2 H

LB (laboratory works) - 0 H

Reinforced and prestressed concrete 1

  • CE212
  • YEAR: 2
  • SEMESTER: 2
  • ECTS: 3

Course organizer:

Roșca Bogdan-Gheorghe

The course covers the introductory topics required for design of reinforced concrete members: Concrete and reinforced concrete as a material for concrete structures; Structure of concrete; Strength and strain of concrete; Time-dependent deformation of concrete and effect of temperature; Reinforcing steel; Bond between reinforcement and concrete; Durability and cover to reinforcement; Flexural behavior Basic design concepts of concrete members; Introduction in Design of structural members at ultimate limit state.

L (lecture) - 2 H

L (lecture) - 2 H

LB (laboratory works) - 1 H

Strength of materials 2

  • CE205
  • YEAR: 2
  • SEMESTER: 1
  • ECTS: 6

Course organizer:

Ibănescu Mihaela

1.Deflections of Elastic Beams; 2.Skew Bending; 3. Eccentric Tension or Compression 4. Combined Tension/Compression, Skew Bending and Torsion; 5. Plastic Analysis 6. Buckling Analysis; 7. Three-Dimensional Stress and Strain. Generalized Hooke’s Law 8. Failure Theories

L (lecture) - 3 H

L (lecture) - 3 H

LB (laboratory works) - 0 H

Structural statics and stability 1

  • CE201
  • YEAR: 2
  • SEMESTER: 1
  • ECTS: 5

Course organizer:

Banu Oana-Mihaela

I. Introduction to statics of constructions; II. Analysis of statically determinate plane structures; III. Beams and frames. Internal forces; IV. Principle of virtual work; V. Arches; VI. Statically determinate trusses; VII. Computation of point elastic displacements using energy methods; VIII. Influence lines for statically determinate structures.

L (lecture) - 3 H

L (lecture) - 3 H

LB (laboratory works) - 0 H

Structural statics and stability 2

  • CE210
  • YEAR: 2
  • SEMESTER: 2
  • ECTS: 5

Course organizer:

Olteanu Ioana

I. The Forces Method. Frame Structures. Truss Structures. II. The Displacement Method: Slope-Deflection Method in case of 2D frames composed of linear elements subjected to constant forces; Moment Distribution Procedure for frames with no side-ways; Moment Distribution Procedure for frames with side-ways; Moment Distribution Procedure; the calculus of the fixed end moments in the case of the base settlements action and uniform temperature variation. Case-studies. III. The Matrix Approach for the Solution of the Plane Frames IV. Computer Aided Structural Design

L (lecture) - 3 H

L (lecture) - 3 H

LB (laboratory works) - 2 H

Surveying

  • CE206
  • YEAR: 2
  • SEMESTER: 1
  • ECTS: 3

Course organizer:

Covatariu Daniel

Lecture 1: Basic Notions: The Surveying domain and subjects; Lecture 2: Basic Knowledge in Geodesy; Lecture 3: Basic Knowledge in Chartography; Lecture 4: Planimetry; Lecture 5: Levelling; Lecture 6: Tacheometry; Lecture 7: Surveying’s Applications in Civil Engineering; Lecture 8: In-Time Monitoring of the Engineering Structures; Lecture 9: Global Navigational Satellite System-GNSS;

L (lecture) - 2 H

L (lecture) - 2 H

LB (laboratory works) - 2 H

Surveying practice

  • CE218
  • YEAR: 2
  • SEMESTER: 2
  • ECTS: 4

Course organizer:

Details for the practice period. Activities programming; Methods for verifying and centralising of the ground measured data and drawing up specific documentation; Labour Protection Rules to be respected during practical procedures; Plane surface setting-up with planimetric traverse, including preparation of topographical plan at the scale and surfaces calculation by various methods; Determination of the vertical position (quotas) of characteristic points of a building’s infrastructure, by using the levelling traverse method, including drafting the longitudinal profile and transverse profiles through the given points; Setting-up on the ground of the building by using the polar coordinates method, the intersection angle method, and linear intersection method by using data from an existing topographical plan; Building’s height and verticality’s deviation measurement

L (lecture) - 0 H

L (lecture) - 0 H

LB (laboratory works) - 0 H

Technical drawing and infographics 2

  • CE202
  • YEAR: 2
  • SEMESTER: 1
  • ECTS: 4

Course organizer:

Hîncu Grațiela-Diamantina

I. AutoCAD. Overview. Utilitary commands; II. Drawing aids; III. 2D drawing commands; IV. 2D editing commands; V. Dimensioning commands; VI. Hatching commands; VII. Inquiry commands

L (lecture) - 1 H

L (lecture) - 1 H

LB (laboratory works) - 0 H

Theory of elasticity and plasticity

  • CE211
  • YEAR: 2
  • SEMESTER: 2
  • ECTS: 3

Course organizer:

Ibănescu Mihaela

1. Basic Concepts; 2. Plane Elasticity in Cartesian Coordinates; 3. Solution of Plane Elasticity Problem in Terms of Stresses; 4. Solution of Plane Elasticity Problem in Terms of Strains; 5. Methods for Solving the Plane Elasticity Problem; 6. Plane Elasticity in Polar Coordinates; 7. Disks and Tubes with Thick Walls; 8. Elastic Half-Plane; 9. Thin Plates; 10. Elements of Theory of Plasticity.

L (lecture) - 2 H

L (lecture) - 2 H

LB (laboratory works) - 0 H

Transportation infrastructure

  • CE214
  • YEAR: 2
  • SEMESTER: 2
  • ECTS: 2

Course organizer:

Boacă Gheorghiță

1. General problems: development of communication channels; modes of transport, classification of land communication routes 2. Geometric elements of the communication paths: geometric elements of the path in plan, longitudinal profile and transversal profile 3. Study of the route: study stages; calculation and movement of embankments; embankment construction works, water drainage 4. Works of art 5. Road superstructure: road traffic, curved vehicle traffic; arrangement of curves (widening and elevation), visibility 6. The body of the road: the role of various layers; classification of road structures; the composition and construction of various road layers 7. Railway superstructure: rolling stock and traction; the composition of the superstructure; line works

L (lecture) - 1 H

L (lecture) - 1 H

LB (laboratory works) - 0 H

2nd Year

Category (DL)

Didactics of the specialized domain*

  • CE225
  • YEAR: 2
  • SEMESTER: 2
  • ECTS: 5

Course organizer:

*

L (lecture) - 2 H

L (lecture) - 2 H

LB (laboratory works) - 0 H

Etics and integrity

  • CE226
  • YEAR: 2
  • SEMESTER: 2
  • ECTS: 2

Course organizer:

Romila Claudiu

1. Presentation of the general theme and objectives of the course. Defining and operationalizing the concepts of "ethics" and "integrity 2. Ethical theories 3. Personal responsibility and morality. Moral dilemmas 4. Work ethic at the workplace. Codes of conduct 5. The characteristics of the concept of integrity, as a fundamental moral value 6. Fundamentals of academic ethics. University code of ethics 7. Academic rights and responsibilities of students 8. Lack of honesty and academic integrity. Forms and example 9. How to write an academic paper 10. Ethics of research, team collaboration and scientific dialogue

L (lecture) - 2 H

L (lecture) - 2 H

LB (laboratory works) - 0 H

Intercultural Communication

  • I COMM
  • YEAR: 2
  • SEMESTER: 1
  • ECTS: 3

Course organizer:

assoc. prof. Evagrina Dîrțu

The course main objective is to provide the students with the necessary skills in order to manage diversity and to collaborate efficiently in multicultural environments. The students will raise their awareness related to biases, assumptions and emotions regarding one’s own and others’ cultures and will develop soft skills allowing them to constructively solve potential intercultural conflicts. And last but not least, the students will enhance personal and professional development by cultivating openness toward others, empathy, and critical thinking.

L (lecture) - 1 H

L (lecture) - 1 H

LB (laboratory works) - 0 H

See course guide
See course guide

Pedagogy II

  • CE224
  • YEAR: 2
  • SEMESTER: 1
  • ECTS: 5

Course organizer:

*

L (lecture) - 2 H

L (lecture) - 2 H

LB (laboratory works) - 0 H

Programming languages for solving engineering problems-python

  • CE222
  • YEAR: 2
  • SEMESTER: 2
  • ECTS: 3

Course organizer:

Covatariu Gabriela

1. Introduction. Why Python? 2. Variables, expressions and statements 3. Conditional statements 4. Functions 5. Loops and iterations 6. Strings. 7. Files 8. Lists. Tuples 9. Expressions 10. Net programming. Using Web services 11. Objects programming 12. Databases 13. Data visualisation

L (lecture) - 2 H

L (lecture) - 2 H

LB (laboratory works) - 2 H

Technical drawing and infographics 3

  • CE223
  • YEAR: 2
  • SEMESTER: 2
  • ECTS: 4

Course organizer:

Antonescu Ion

Types of tridimensional representations for civil engineering drawings. Axonometric projection. Perspective projection. Computer Programs used for tridimensional representations for civil engineering. Types of 3D models used in computer graphics and methods for their generation. Wireframe and Surface (Shell) 3D Models. Generation of 3D Solid Models using Constructive Solid Geometry. Generation of 3D Solid Models using extrusion, revolving, lofting, sweeping and other methods. Generation of orthographic representations and sections starting from 3D Models. Generation of realistic representations (rendering) starting from 3D Models. Exporting of 3D Solid Models in Computer Aided Engineering Programs for simulation. Exporting of 3D Solid Models for 3D Printing

L (lecture) - 1 H

L (lecture) - 1 H

LB (laboratory works) - 2 H

2nd Year

Elective (DO)

Optional 3-Probability theory and statistics

  • CE219
  • YEAR: 2
  • SEMESTER: 1
  • ECTS: 2

Course organizer:

Georgescu Valeriu-Paul

I First-order ordinary differential equations (ODEs); II Higher-order ODEs with constant coefficients; III Systems of first-order linear ODEs with constant coefficients; IV The Laplace transform and its applications; V First-order partial differential equations; VI Scalar and vector fields

L (lecture) - 2 H

L (lecture) - 2 H

LB (laboratory works) - 0 H

Optional 4-English language 3

  • CE220
  • YEAR: 2
  • SEMESTER: 1
  • ECTS: 1

Course organizer:

French grammar (verb tenses, nouns, adjectives), communicational aspects, cultural elements. Writing a letter of intent with terminology in the field of civil engineering.

L (lecture) - 0 H

L (lecture) - 0 H

LB (laboratory works) - 0 H

Optional 5-English language 4

  • CE221
  • YEAR: 2
  • SEMESTER: 2
  • ECTS: 1

Course organizer:

French grammar and lexical exercises. Recapitulation of Verbal Modes and Tenses. Verb: Imperative Module. Structural exercises. Adverb and Preposition (classification, place, use); application exercises, oral vs written communication. The concordance of tenses to the subjunctive; application exercises. Watching a movie, commenting, analyzing. Translation and lexical / grammatical analysis of specialized technical texts; interactive exercises. General notions of specific technical vocabulary. Grammar and lexical exercises applied to the terminology in the final part of the textbook. Writing a thematic essay using specialized terminology in the field of civil engineering.

L (lecture) - 0 H

L (lecture) - 0 H

LB (laboratory works) - 0 H

3rd Year

Mandatory (DI)

Civil constructions

  • CE307
  • YEAR: 3
  • SEMESTER: 1
  • ECTS: 5

Course organizer:

Pescaru Radu-Aurel

A. Building elements; B. Finishes; C. Building structures

L (lecture) - 2 H

L (lecture) - 2 H

LB (laboratory works) - 0 H

Computer aided desing

  • CE310
  • YEAR: 3
  • SEMESTER: 2
  • ECTS: 2

Course organizer:

Olteanu Ioana, Neagu Cerasela-Panseluța

I. Basic principles of the finite elements analysis based of software development. Fininte elements modeling applied in civil engineering. Modeling and simulation stages using finite element software. II. Finite elements description of 1D elements. Static, dynamic and seismic analyses of 1D finite elements. One-dimensional elements, plain-strain stress and two-dimensional elements. Stages of modelling, margin conditions and load applications. Case studies. III. Finite Element Analysis of 2D structural elements for static and dynamic loading. Modeling 2D structures; analyzing the response for static and dynamic loads. Results analysis and interpretation. IV. Static analyses of structures supported on elastic foundations (Winkler) modeled with 1D and 2D finite elements. Modeling structures; analyzing the response for static and dynamic loads. Results analysis and interpretation. Stages of analysis and case studies for different classes of constructions. V. Finite Element Analysis of 3D structures for static and dynamic loading Modeling structures; analyzing the response for static and dynamic loads. Results analysis and interpretation. Stages of analysis and case studies for different classes of constructions.

L (lecture) - 2 H

L (lecture) - 2 H

LB (laboratory works) - 1 H

Construction management

  • CE302
  • YEAR: 3
  • SEMESTER: 1
  • ECTS: 3

Course organizer:

Șerbănoiu Adrian-Alexandru

1. Introduction to the Construction Management. 2. Investments; general concepts. Construction investments 3. The stages of making an investment in construction 4. Factors involved in the realization of an investment in construction 5. Definition of the concepts of cost, expense, price. Price categories for construction 6. The price structure of a construction work 7. Methods of assessing the price of a construction work 8. Price evaluation of a construction work using the standard method 9. Quantitative estimation of a construction work using the standard assessment method 10. Estimation the resource consumption for the execution of a construction work using the rules-based assessment method 11. Estimation the costs of carrying out a construction work 12. Estimation of execution costs for carrying out a construction work 13. General concepts of procedures for contracting the execution of construction works. Special features on public procurement 14. Contracting of construction work 15. Acceptance of construction work. Authorization to carry out construction work

L (lecture) - 2 H

L (lecture) - 2 H

LB (laboratory works) - 0 H

Earthquake engineering

  • CE309
  • YEAR: 3
  • SEMESTER: 2
  • ECTS: 3

Course organizer:

Pauleț-Crăiniceanu Fideliu

• Behavior of different building types and their damages due to earthquakes • Elements of Seismology • Seismic response of 1DOF and nDOF systems • Seismic forces regulation conforming to design codes • New systems for seismic protection

L (lecture) - 2 H

L (lecture) - 2 H

LB (laboratory works) - 2 H

Foundations

  • CE312
  • YEAR: 3
  • SEMESTER: 2
  • ECTS: 5

Course organizer:

Lungu Irina

General terms and requirements in foundation engineering; Analysis and design of shallow foundations; Analysis and design of pile foundations; Analysis and design of caissons; Excavation works; Retaining walls; Water removal works.

L (lecture) - 3 H

L (lecture) - 3 H

LB (laboratory works) - 0 H

Fundamentals of fire safety in civil engineering

  • CE308
  • YEAR: 3
  • SEMESTER: 1
  • ECTS: 2

Course organizer:

Grigoraș Zeno-Cosmin

I. Generalities about Fire Safety in Civil Engineering: Dangers and vulnerabilities in constructions. Safety and risks II. Basic Concepts in Burning and Fire Problems: Ignition and Burning. Burning Classification. Explosions and fires. III. The System of Fire Safety in Constructions: Fire safety concepts and system. Reduction of fire risk. IV. Classification of Products which Ensure the Fire Safety in Constructions: Performances of these products referring to their reaction to fire and fire resistance. Classification. V. Constructions in the Context of Fire Safety (in Romania): Construction fire risk and fire resistance degree. VI. Protection Measures Against Fire for Buildings and Building Services: Passive protection of constructions against fire. Fire compartment. People evacuation in case of fire. VII. Technical Procedures for Fire Fighting in Constructions: Active protection of constructions against fire. Fire detection and fighting. Operative protection against fire. VIII. Fire Risk in Constructions: Assessment of fire risk. Qualitative methods (fire safety scenario) and quantitative methods (deterministic national procedures).

L (lecture) - 2 H

L (lecture) - 2 H

LB (laboratory works) - 0 H

Geotechnics

  • CE306
  • YEAR: 3
  • SEMESTER: 1
  • ECTS: 5

Course organizer:

Aniculăesi Mircea

I. Soil characterisation and composition II. Hydrological and hydraulic underground notions III. Stresses state in earth massive IV. Soils compressibility V. Soil settlement VI. Soil shear strength VII. Stability of embankments and slopes VIII. Active and passive pressure of soils IX. Bearing capacity of soil

L (lecture) - 3 H

L (lecture) - 3 H

LB (laboratory works) - 2 H

Numerical methods in engineering

  • CE304
  • YEAR: 3
  • SEMESTER: 1
  • ECTS: 3

Course organizer:

Toma Ionuț-Ovidiu

1. Introduction in the Finite Element Method (FEM): 1.1. Basic Concepts in FEM; 1.2. Modeling Principles. 2. Finite Element Analysis of Linear Structural Elements or Structures Made of Linear Elements: 2.1. Analysis of Axially Loaded Structural Elements; 2.2. Analysis of Two- Dimensional and Three-Dimensional Truss Structures; 2.3. Analysis of Beams; 2.4. Analysis of Two- Dimensional and Three-Dimensional Frames. 3. Finite Element Analysis of Two-Dimensional Structural Elements which Work in Plane Stress or Strain: 3.1.Triangular and Rectangular Finite Elements in Cartesian and Natural Coordinates; 3.2. Axi-Symmetrical Finite Elements; 3.3. Assembly Procedure. 4. Finite Element Analysis of Three-Dimensional Structural Elements: 4.1. Tetrahedral Finite Element in Cartesian and Natural Coordinates; 4.2. Brick-Shape Finite Element in Cartesian and Natural Coordinates; 4.3. Assembly Procedure. 5. Finite Element Analysis of Thin Plates: 5.1. Analysis of Thin Plates by using Rectangular and Triangular Finite Elements.

L (lecture) - 2 H

L (lecture) - 2 H

LB (laboratory works) - 1 H

Reinforced and prestressed concrete

  • CE305
  • YEAR: 3
  • SEMESTER: 1
  • ECTS: 5

Course organizer:

Roșca Bogdan-Gheorghe

The course covers the main topics required for design of concrete members, reinforced or prestressed: Design of structural members at ULS – Bending; Design of structural members at ULS – Shear; Design of structural members at ULS – Bending plus axial force (uniaxial and biaxial eccentricity); Design of structural members at ULS – Torsion and Punching; Limit State of Cracking – Crack control Limit State of Deflection – Deflection control; Detailing of reinforced concrete members and particular rules; Prestressed Concrete: Basic concepts of prestressed concrete; Materials for prestressed Loss of prestressing; Basic principles for flexural design

L (lecture) - 2 H

L (lecture) - 2 H

LB (laboratory works) - 0 H

Specialized practice

  • CE315
  • YEAR: 3
  • SEMESTER: 2
  • ECTS: 4

Course organizer:

I. The study of the execution of technological files (teaching activity) II. Research on the construction site regarding the technology of carrying out construction works and site management III. Preparing the practical training book

L (lecture) - 0 H

L (lecture) - 0 H

LB (laboratory works) - 0 H

Steel construction 1

  • CE301
  • YEAR: 3
  • SEMESTER: 1
  • ECTS: 3

Course organizer:

Băetu Georgeta

1. Structural applications of steel in Civil Engineering: advantages, disadvantages, further development 2. Steel qualities and steel products for structural steelwork: 3. Engineering properties of structural steels: 4. Design principles for steel structures 5. Connection of steel members. Welded connections. 6. Bolted connections: Ordinary Bolts; High Strength Friction Grip Bolts 7. Behaviour of steels in corrosive environments and elevated temperature conditions. Protective measures

L (lecture) - 2 H

L (lecture) - 2 H

LB (laboratory works) - 1 H

Steel construction 2

  • CE311
  • YEAR: 3
  • SEMESTER: 2
  • ECTS: 4

Course organizer:

Teleman Elena-Carmen

• Steel Members Subjected to Tension; • Classification of Transversal Cross Sections. Design Methods of Steel in the Global Analysis; • Steel Members Subjected to Compression; • Steel members Subjected to Bending – plate girders and rolled sections; • Steel Members Subjected to Bending – trusses; • Steel Members Subjected to Compression and Bending -beam columns

L (lecture) - 2 H

L (lecture) - 2 H

LB (laboratory works) - 0 H

Structural dynamics

  • CE303
  • YEAR: 3
  • SEMESTER: 1
  • ECTS: 4

Course organizer:

Olteanu Ioana

1. Introduction: Principle of Structural Dynamics. Dynamic Actions. Classifications. Examples. Dynamic System. Dynamic Model. 2. Dynamic analysis of single degree of freedom model, SDOFM Undamped free vibration for SDOFM; Damped free vibration for SDOFM; Forced vibration for SDOM 3. Dynamic response of multi-degree of freedom models, MDOFM Undamped free vibration for MDOFM – lateral stiffness matrix method; Undamped free vibration for MDOFM – lateral flexibility matrix method; Harmonic forced vibration for MDOFM – lateral stiffness matrix method; Harmonic forced vibration for MDOFM – lateral flexibility matrix method 4. Numerical Procedures used in Linear Structural Dynamics.

L (lecture) - 2 H

L (lecture) - 2 H

LB (laboratory works) - 2 H

Technology of constructions 1

  • CE314
  • YEAR: 3
  • SEMESTER: 2
  • ECTS: 3

Course organizer:

Cozmanciuc Ciprian-Ilie

Earthworks technology; Transports in constructions; Technology works for concrete formwork, framings and scaffolds; Reinforcements for constructions

L (lecture) - 2 H

L (lecture) - 2 H

LB (laboratory works) - 0 H

Timber structures

  • CE313
  • YEAR: 3
  • SEMESTER: 2
  • ECTS: 4

Course organizer:

Ențuc Ioana-Sorina

1.General design considerations. Wood as construction material; 2. Wood properties; 3. The use of wood in construction; 4. Design methods for timber construction; 5. Timber elements design; 6. Timber connections design; 7. Timber roof structures; 8. Timber floor structures; 9. Timber frame structures;10. Project: Building timber structure: ground floor and attic/loft (P+M/P)

L (lecture) - 2 H

L (lecture) - 2 H

LB (laboratory works) - 0 H

3rd Year

Category (DL)

Advanced english language

  • CE320.1
  • YEAR: 3
  • SEMESTER: 1
  • ECTS: 2

Course organizer:

Pronunciation and spelling issues. Presenting facts and figures. Specific vocabulary. Technical explanations. Rephrasing. Types of connectors. Applications. Scientific writing. Describing properties. Comparison and contrast. Telephone calls (1) Requesting information. Common mistakes. Research methods. Identifying scientific sources. Translation issues. Email writing (1) registers. Email writing (2) templates. Applications. Instructions and regulations. Specific vocabulary.

L (lecture) - 0 H

L (lecture) - 0 H

LB (laboratory works) - 0 H

Advanced english language

  • CE320.2
  • YEAR: 3
  • SEMESTER: 2
  • ECTS: 2

Course organizer:

Describing technical requirements. Work meetings. Specific vocabulary. Delivering a work presentation. Describing a scientific experiment. Design phases. Resolving design problems. Technical problems. Assessing and interpreting faults. Professional communication. Terminology (1) Purpose, methods, sources. Terminology (2) Specialized glossaries. Applying for a job. Job interviews. Industrial hazards and safety precautions. Technical writing. Characteristics, templates, examples. Applications.

L (lecture) - 0 H

L (lecture) - 0 H

LB (laboratory works) - 0 H

Computer assisted training

  • CE321
  • YEAR: 3
  • SEMESTER: 1
  • ECTS: 2

Course organizer:

*

L (lecture) - 1 H

L (lecture) - 1 H

LB (laboratory works) - 0 H

Entrepreneurial education

  • CE325
  • YEAR: 3
  • SEMESTER: 2
  • ECTS: 5

Course organizer:

Romila Claudiu

Introduction to entrepreneurship. Recognizing opportunities and generating ideas. Feasibility analysis of the project idea. Forms of business organization. Leadership and entrepreneurship. Strategic planning - strategic vision, business mission, competitive advantage. Business management and marketing. Business plan. Business ethics and social responsibility. Business sustainability. Strategies for expanding a company

L (lecture) - 2 H

L (lecture) - 2 H

LB (laboratory works) - 1 H

Graduation exam- level 1

  • CE324
  • YEAR: 3
  • SEMESTER: 2
  • ECTS: 5

Course organizer:

*

L (lecture) - 0 H

L (lecture) - 0 H

LB (laboratory works) - 0 H

Management of the pupils’ classroom*

  • CE322
  • YEAR: 3
  • SEMESTER: 2
  • ECTS: 2

Course organizer:

*

L (lecture) - 1 H

L (lecture) - 1 H

LB (laboratory works) - 0 H

Practicum in educational institutions (2)*

  • CE323
  • YEAR: 3
  • SEMESTER: 2
  • ECTS: 2

Course organizer:

*

L (lecture) - 0 H

L (lecture) - 0 H

LB (laboratory works) - 0 H

Programming languages (matlab)

  • CE318
  • YEAR: 3
  • SEMESTER: 1
  • ECTS: 2

Course organizer:

Covatariu Gabriela

1.Using programming environments in solving scientific and engineering problems – Matlab: Basics about programming environment and using it by students and engineers; Basics operations with matrix in Matlab; Programming principles and basic instructions in Matlab; Programmed graphics in Matlab 2.Commands in Matlab: Conditional and loops instructions; Instructions for data import / export; Basic data types: constants and variables; Functions; Graphics 3. Matlab – Toolbox, Simulink Examples of civil engineering problems solved using Matlab

L (lecture) - 1 H

L (lecture) - 1 H

LB (laboratory works) - 3 H

3rd Year

Elective (DO)

Optional 7-Building thermotechnics

  • CE317
  • YEAR: 3
  • SEMESTER: 2
  • ECTS: 3

Course organizer:

Romila Claudiu

Understanding physical phenomena and concepts specific to building physics Formulation of requirements and required performance levels, selection of optimal solutions and evaluation of the behaviour of the building envelope in certain conditions of indoor and outdoor environment I. Introduction: Course content, human–building–environment relationship II. Design climate parameters III. Heat transfer in buildings IV. Behaviour of building elements at heat transfer in stationary regime V. Behaviour of building elements and rooms at heat transfer in variable regime VI. Air humidity and water vapor condensation VII. Hygrothermal criteria for the design of building envelope VIII. Natural ventilation of buildings IX. Building acoustics X. Natural lighting of buildings

L (lecture) - 2 H

L (lecture) - 2 H

LB (laboratory works) - 1 H

Project management

  • CE316
  • YEAR: 3
  • SEMESTER: 2
  • ECTS: 3

Course organizer:

Lupășteanu Radu

I. History and basic concepts about quality II. Specific features of construction quality approach III. Quality assurance and control – obligations of the factors involved in construction industry IV. Classes and categories of importance for buildings V. Quality requirements for construction materials and products VI. Quality assurance and control for construction projects VII. Quality assurance and control for construction projects during the constructing stage VIII. Legal witnesses (technical expertise) for construction projects, construction works, constructed facilities. IX. Quality assurance and control for construction projects during the hand-over stage X. Maintenance, rehabilitation and health-monitoring of buildings during their in-service life stage

L (lecture) - 2 H

L (lecture) - 2 H

LB (laboratory works) - 0 H

4th Year

Mandatory (DI)

Communication

  • CE409
  • YEAR: 4
  • SEMESTER: 1
  • ECTS: 1

Course organizer:

Ciobanu Claudia-Ioana

1. Human communication: general notions, concepts, theories; 2. Social phobia; 3. Negotiation skills training; 4. Transactional analysis; 5. Elements of proxemics in business 6. Written communication; 7. Intercultural communication; 8. Interpersonal communication 9. Elements of visual identity in business; 10. Verbal communication

L (lecture) - 1 H

L (lecture) - 1 H

LB (laboratory works) - 0 H

Composite construction materials and elements

  • CE410
  • YEAR: 4
  • SEMESTER: 2
  • ECTS: 4

Course organizer:

Hudisteanu Iuliana

I. Introduction: Definition. Classification. Advantages and disadvantages of composites. Applications of composites in construction. II. Constituents of composites and fabrication procedures III. Micromechanics of composite materials IV. Macromechanics of composite lamina V. Sandwich construction: The concept of sandwich structure

L (lecture) - 2 H

L (lecture) - 2 H

LB (laboratory works) - 1 H

Constructions in rural zone

  • CE407
  • YEAR: 4
  • SEMESTER: 1
  • ECTS: 4

Course organizer:

Oprișan Gabriel

Introductory elements on agricultural buildings General plan conception for agricultural buildings Agricultural structures and building materials Specific actions for agricultural buildings Livestock building design Buildings for poultry rearing Structures for vegetable and flower production Engineering structures for the storage and maintenance of plant production Engineering structures for warehouses and machine sheds Advances in greenhouse automation and controlled environment agriculture

L (lecture) - 2 H

L (lecture) - 2 H

LB (laboratory works) - 0 H

Diploma exam

  • CE419
  • YEAR: 4
  • SEMESTER: 2
  • ECTS: 10

Course organizer:

Diploma project completion

  • CE417
  • YEAR: 4
  • SEMESTER: 2
  • ECTS: 4

Course organizer:

Draft framework for content of the dissertation thesis - specialization civil engineering 1. The title of the project: must reflect the content of the solved problems from the project entitled 2. Content of the project: 2.1 Technical report: The requirements of building function; Information about the site; Describe the superstructure; Description of the infrastructure; Description of structural elements; Description of the claddings; Operating conditions; Norms underlying the project; Safety rules; Describe the content of the personal part of the project. 2.2 Design report: Preliminary design. Assessment of loads. The structural design. The design of the foundations; 2.3 Contents of the drawing parts: (Minimum 8 drawing parts): Architectural plans; Foundation plan and details of foundations; Development plans from personal part

L (lecture) - 0 H

L (lecture) - 0 H

LB (laboratory works) - 0 H

Diploma project practice

  • CE418
  • YEAR: 4
  • SEMESTER: 2
  • ECTS: 2

Course organizer:

Draft framework for content of the dissertation thesis - specialization civil engineering Technical report: The requirements of building function; Information about the site; Describe the superstructure; Description of the infrastructure; Description of structural elements; Description of the claddings; Operating conditions; Norms underlying the project; Safety rules; Describe the content of the personal part of the project. Design report: Preliminary design. Assessment of loads. The structural design. The design of the foundations; Drawing parts: Architectural plans; Foundation plan and details of foundations; Development plans from personal part"

L (lecture) - 0 H

L (lecture) - 0 H

LB (laboratory works) - 0 H

General concepts of sustainability

  • CE404
  • YEAR: 4
  • SEMESTER: 1
  • ECTS: 2

Course organizer:

Maxineasa Sebastian-George

By the end of the course, students will be able to describe and discuss the concept of sustainability and analyse the implications resulted from considering and applying the three main dimensions of sustainability in the construction sector. 1. Introduction; 2. Sustainability and sustainable development; 3. The main dimensions of sustainable development; 4. Sustainability in the construction sector; 5. Reducing the impact of the built environment

L (lecture) - 1 H

L (lecture) - 1 H

LB (laboratory works) - 0 H

Industrial constructions

  • CE403
  • YEAR: 4
  • SEMESTER: 1
  • ECTS: 4

Course organizer:

Oprișan Gabriel

I. Introduction; II. Basics of industrial construction; III. Composition and structural design of industrial plants; IV. Envelope of the industrial construction; V. Lighting and ventilation of industrial buildings; VI. Fire protection of industrial construction and security measures; VII. Special industrial structures, VIII BIM of Industrial Constructions and Parametric design.

L (lecture) - 2 H

L (lecture) - 2 H

LB (laboratory works) - 0 H

Organization of constructions works

  • CE405
  • YEAR: 4
  • SEMESTER: 1
  • ECTS: 4

Course organizer:

Șerbănoiu Adrian-Alexandru

1 The definition and the contents of the organization and of the management in general, and of the construction activity in particular. The evolution of the management as science and art 2. The parameters of the organization of the processes 3. The content, the purpose, the principles and the parameters of the construction execution processes 4. Scheduling Methods 5. Line of balance analysis 6. The determination of the number of sectors for the construction execution processes 7. Programming of construction works based on the Critical Path Method 8. Programming of construction works based on the Critical Path Method 9. Programming of construction works based on the Critical Path Method by AOA 10. Programming of construction works based on the Critical Path Method by AON 11. Scheduling the execution of construction projects through the time and resources analysis 12. The Duration and the Cost of the Construction Projects 13. PERT Program Evaluation and Review Technique 14. Project Management Software

L (lecture) - 3 H

L (lecture) - 3 H

LB (laboratory works) - 0 H

Reinforced concrete structures

  • CE401
  • YEAR: 4
  • SEMESTER: 1
  • ECTS: 5

Course organizer:

Mihai Petru

I. Particularities of the concrete behavior (concrete behavior under loads, methods to improve the concrete behavior, classification, advantages and disadvantages of concrete structures, basic principles of conceiving and designing of concrete) II. Concrete linear elements: conceiving, designing, making-up details (monolithic and precast beams, singular columns, columns in structures, arches, trusses, frame girders, mixed linear elements) III. Concrete surface elements: conceiving, designing, making-up details (monolith and precast slabs, stairs, walls, deep beams, thin shells) IV. Floors: conceiving, designing, making-up details (beam-girder floor, simple girder floor, coffered floor, ribbed floor, mushroom floor, flat slab floor, mixed floors) V. Concrete structures: conceiving, design, making-up details (ground floor and storied frames, structures with walls, frame-structural walls mixed structures, structures with flat slab floors, structures with thin shells, central core structures, tube in tube structures, suspended structures, mixed structures)

L (lecture) - 3 H

L (lecture) - 3 H

LB (laboratory works) - 0 H

Steel structures

  • CE402
  • YEAR: 4
  • SEMESTER: 1
  • ECTS: 5

Course organizer:

Teleman Elena-Carmen

Principles of Global Analysis of the Steel Structures; Single Storey Steel Frames – Industrial Structures; Multi-Storey Steel Framed Structures; Steel Frames with Arches; Building the Steel Framed Structures.

L (lecture) - 2 H

L (lecture) - 2 H

LB (laboratory works) - 0 H

Technology of constructions 2

  • CE406
  • YEAR: 4
  • SEMESTER: 2
  • ECTS: 3

Course organizer:

Țurcanu Florin Emilian

Heating Systems Ventilation and Conditioning Systems Sanitary Systems Electrical Systems Refrigeration Systems

L (lecture) - 2 H

L (lecture) - 2 H

LB (laboratory works) - 0 H

4th Year

Category (DL)

BIM – digitalization of construction projects

  • CE422
  • YEAR: 4
  • SEMESTER: 1
  • ECTS: 2

Course organizer:

Covatariu Gabriela

1. Basics of BIM. Why BIM? The advantages of working collaboratively using the BIM system 2. BIM maturity levels 3. Roles of various parties in BIM. Competences 4. Standards in BIM. File formats. Common Data Environment (CDE) 5. BIM tools and technologies. Software used in BIM

L (lecture) - 1 H

L (lecture) - 1 H

LB (laboratory works) - 2 H

Entrepreneurial education-innovative entrepreneurship 1

  • CE420
  • YEAR: 4
  • SEMESTER: 1
  • ECTS: 5

Course organizer:

Romila Claudiu

1. The entrepreneurial process. Developing successful business ideas. Techniques for generating ideas 2. Developing an efficient business model. The components of an efficient business model 3. Franchising as a business growth strategy. Advantages and disadvantages of franchising as a business growth strategy 4. Business feasibility analysis. Importance and content. Components of the feasibility analysis and the impact of its results on business success. 5. Branch and competitors’ analysis. The types of branches and opportunities they offer 6. Management and growth of the entrepreneurial company. Preparing for growth and evaluating the growth possibilities of the entrepreneurial company 7. Reasons for growing the company. Factors are influencing the success of the growth strategy. Internal and external strategies for company growth

L (lecture) - 1 H

L (lecture) - 1 H

LB (laboratory works) - 2 H

Entrepreneurial education-innovative entrepreneurship 2

  • CE421
  • YEAR: 4
  • SEMESTER: 2
  • ECTS: 3

Course organizer:

Romila Claudiu

*

L (lecture) - 2 H

L (lecture) - 2 H

LB (laboratory works) - 0 H

Smart cities. Building concepts and structures

  • CE423
  • YEAR: 4
  • SEMESTER: 2
  • ECTS: 2

Course organizer:

Păuleț-Crăiniceanu Fideliu

• The history of industrial revolutions. Concepts that define a Smart City. The challenges of the actual society. Emerging and advanced technologies. Examples of Smart Cities. • Civil Engineering domain, a history of Smart Cities. Actual steps in Civil Engineering, toward implementing latest technologies. Future of Civil Engineering in the context of Smart Cities.

L (lecture) - 1 H

L (lecture) - 1 H

LB (laboratory works) - 0 H

4th Year

Elective (DO)

Opțional 10-Durability of construction

  • CE413
  • YEAR: 4
  • SEMESTER: 2
  • ECTS: 2

Course organizer:

Roșca Bogdan

High performance concrete Reactive powder concrete Special concrete for industrial applications Fiber-reinforced concrete Polymer concrete

L (lecture) - 2 H

L (lecture) - 2 H

LB (laboratory works) - 0 H

Opțional 11-Cold formed structural steel members

  • CE414
  • YEAR: 4
  • SEMESTER: 2
  • ECTS: 3

Course organizer:

Munteanu Vlad

Space lattice towers: high towers for broadcasting, guyed masts, power supply line towers Space frame structures: space grids, planar grids; Suspended structures; Steel storage structures: tanks and silos

L (lecture) - 2 H

L (lecture) - 2 H

LB (laboratory works) - 0 H

Opțional 12-Building rehabilitation

  • CE415
  • YEAR: 4
  • SEMESTER: 2
  • ECTS: 3

Course organizer:

Venghiac Vasile-Mircea

The course is based on the following topics: The structure model and the main principles. Classification of analysis types: - first order analysis (linear elastic, non-linear-elastic, inelastic); - second order analysis (linear elastic and geometrical non-linear, elastic and geometrical non-linear, inelastic and geometrical non-linear). Second order geometrical non-linear analysis. Non-linear elastic analysis. Non-linear inelastic analysis. Second order inelastic analysis

L (lecture) - 2 H

L (lecture) - 2 H

LB (laboratory works) - 0 H

Opțional 13-Foundations in special conditions

  • CE416
  • YEAR: 4
  • SEMESTER: 2
  • ECTS: 3

Course organizer:

Boacă Gheorghiță

1. Excavation Support: Introduction; Earth Pressures; Stability of Walls; Reinforced Concrete Walls 2. Concrete Basements: Introduction; Geotechnical and structural design; Case studies 2. Deep Excavations: Needs for Deep Excavations; Excavation methods; Types of earth lateral support; Stability analysis; Case studies 3. Soil drainage and dewatering: Construction dewatering; Permanent ground water control; Dewatering methods; Dewatering techniques 4. Urban tunnels: Introduction; Subway Stations, Underground parking; Bored and open-face tunneling below cities; Introduction to the design of underground structures

L (lecture) - 2 H

L (lecture) - 2 H

LB (laboratory works) - 0 H

Opțional 8-Masonry mechanics

  • CE411
  • YEAR: 4
  • SEMESTER: 1
  • ECTS: 3

Course organizer:

Dumitrescu Laura

Introduction, Heat balance of buildings, Principles of thermal rehabilitation, Insulating materials, Solutions for thermal rehabilitation, Technical conditions for execution, Responsibilities of stakeholders

L (lecture) - 2 H

L (lecture) - 2 H

LB (laboratory works) - 0 H

Opțional 9-Precast structures for civil and industrial buildings

  • CE412
  • YEAR: 4
  • SEMESTER: 2
  • ECTS: 3

Course organizer:

Cozmanciuc Ciprian-Ilie

Special technologies for plain concrete works and reinforced concrete works; The technology of fabricating precast and prestressed concrete elements; The technology of mounting precast and prestressed concrete elements; The technology of mounting and joining elements in case of metallic structures; The technology of specialized performing formwork systems.

L (lecture) - 2 H

L (lecture) - 2 H

LB (laboratory works) - 0 H

Structure of the Academic Year 2023– 2024

Bachelor and Master Studies, Full Time Studies

DATE

PERIOD

ACTIVITY

25.09.2023–01.10.2023

7 days

Accommodation of students

02.10.2023

The Official Opening of the Academic Year

1st SEMESTER

02.10.2023-22.12.2023

12 Weeks

Didactic Activity

23.12.2023-07.01.2024

2 Weeks

Christmas Holiday

08.01.2024- 21.01.2024

2 Weeks

Didactic Activity

22.01.2024-11.02.2024

3 Weeks

Examination Period

12.02.2024-18.02.2024

1 Week

Winter Holiday

2nd SEMESTER

19.02.2024-02.05.2024

11 Weeks

Didactic Activity

03.05.2024-12.05.2024

1 Week

Easter Holiday

07.05.2024

Free Day For Students (to be recovered on Saturday 25.05.2024)

13.05.2024-02.06.2024

3 Weeks

Didactic Activity

03.06.2024-23.06.2024

3 Weeks

Examination Period

02.09.2024-15.09.2024

2 Weeks

Reexamination Period

17 and 18.09.2024

2 Days

Re examinations

2nd SEMESTER for the final year of study (bachelor + master)

19.02.2024-02.06.2024

14 + 1 Weeks

Re Didactic Activity and Easter Holiday According To The Previous Calendar

03.06.2024-16.06.2024

2 Weeks

Examination period

17.06.2024-20.06.2024

4 days

Reexamination period

27.06.2024-07.07.2024

11 days

Period for preparing the final thesis

Legal and Religious Holidays:
30.11.2023, 01.12.2023, 25.12.2023 , 26.12.2023, 01.01.2024. 02.01.2024, 24.01.2024 01.05.2024, 03.05.2024, 06.05.2024, 01.06.2024, 24.06.2024, 15.08 2024.


Practical Activities (3 -6 Weeks)
will be scheduled either during the entire academic Year

Gheorghe Asachi Technical University of Iasi, with the oldest engineering education tradition in Romania, is dedicated to developing technology for the community through research, teaching, and technology transfer.

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