UACEG - Faculties - Faculty of Structural Engineering - Departments - Structural Mechanics

Semester: 2
Assessment: exam
Method of teaching: lectures and seminars
Total hours: 30 lectures and 30 Seminars (Academic Hours)
ECTS credits 4

Applied Theory of Plasticity

Semester: 1
Assessment: exam
Method of teaching: lectures and seminars
Total hours: 30 lectures and 30 Seminars (Academic Hours)
ECTS credits 5

Computer - Aided Analysis of Structures

Year of education:V, Semester: 9, WINTER
Assessment: continuous assessment
Method of teaching: lectures
Total hours: 30 lectures (Academic Hours)
ECTS credits 2

Computer - Aided Analysis of Structures

Year of education:V, Semester: 9, WINTER
Assessment: continuous assessment
Method of teaching: lectures
Total hours: 30 lectures (Academic Hours)
ECTS credits 2

Dynamics and Stability of Structures

The modern structures must be precisely analysed for both global and local stability in connection with geometrical and material nonlinearities. Engineering structures are subjected to various dynamic loads. The aim of the offered course “Structural Dynamics and Stability” is to give all necessary knowledge for design of modern structures.

Dynamics of Structures

Semester: 1, Assessment: exam
Method of teaching: lectures and seminars
Total hours: 45 lectures and 30 Seminars (Academic Hours)
ECTS credits 5

Dynamics of Structures and Seismic Analysis

Year of education: IV, Semester: 7, WINTER
Assessment: exam
Method of teaching: lectures and seminars
Total hours: 45 lectures and 45 Seminars (Academic Hours)
ECTS credits 6

Dynamics of structures and seismic analysis

Year of education: IV, Semester: 7, WINTER
Assessment: exam
Method of teaching: lectures and seminars
Total hours: 45 lectures and 45 Seminars (Academic Hours)
ECTS credits 6

Earthquake-Resistant Design of Structures I

The first part of the course covers the basic methods for seismic response evaluation of structures. In addition to the theoretical background of the conventional approach, the essentials of the “Performance-Based Design” concept and advanced analysis techniques such as Static Nonlinear Analysis and Time History Analysis are introduced. The second part of the course is devoted to the design of steel structures in seismic regions. The major structural systems used for providing seismic ...

Finite Element Method

Major: Structural Engineering ,

Year of education: III, Semester: 6, summer
Assessment: continuous assessment
Method of teaching: lectures and seminars
Total hours: 30 lectures and 30 seminars (Academic Hours)
ECTS credits 4

Finite Element Method

Year of education: III, Semester: 6, summer
Assessment: continuous assessment
Method of teaching: lectures and seminars
Total hours: 30 lectures and 30 seminars (Academic Hours)
ECTS credits 4

Finite Element Method

Major:

Съгласно утвърден учебен план от 2021 година:
• Вид на дисциплината – Факултативна
• Курс на обучение – 4 (четвърти)
• Семестър на обучение – VII, VIII (по избор на студентите седми или осми сем.)
• Пълен хорариум на аудиторните занятия: Лекции 30 часа / Упражнения 0 часа
• Сигнатура: FEMbFBH, ECTS кредити 2

Finite Element Method

Major:

Съгласно утвърден учебен план от 2021 година:
• Вид на дисциплината – Факултативна
• Курс на обучение – 4 (четвърти)
• Семестър на обучение – VII, VIII (по избор на студентите седми или осми сем.)
• Пълен хорариум на аудиторните занятия: Лекции 30 часа / Упражнения 0 часа
• Сигнатура: FEMbFBH, ECTS кредити 2

Finite Element Method

Major: Water Supply and Sewerage

Предлаганият курс е предназначен за студенти, обучаващи се по програма за получаване на образователно-квалификационна степен Магистър за специалност „Хидростроителство“. Целта на курса е да даде систематизирани познания в областта на теорията и приложението на ...

Finite Element Method

Semester: 1
Assessment: exam
Method of teaching: lectures and seminars
Total hours: 30 lectures and 30 Seminars (Academic Hours)
ECTS credits 5

Finite Element Method

Major: Hydraulic Engineering

Students learn the main equations of FEM; approximation of displacements, deformations and stresses; equivalent nodal forces; matrices of stiffness, masses and vector of free members; equations for equilibrium of the whole structure; modelling of plane and space frames under FEM; use of the program package SAP-90; computational models of frames and hydraulic structures; seismic loads and their calculation.

Finite Element Method

Major: Irrigation and Drainage Engineering

Students learn the main equations of FEM; approximation of displacements, deformations and stresses; equivalent nodal forces; matrices of stiffness, masses and vector of free members; equations for equilibrium of the whole structure; modelling of plane and space frames under FEM; use of the program package SAP-90; computational models of frames and hydraulic structures; seismic loads and their calculation.

Finite Element Method

Major: Water Маnagement

Students learn the main equations of FEM; approximation of displacements, deformations and stresses; equivalent nodal forces; matrices of stiffness, masses and vector of free members; equations for equilibrium of the whole structure; modelling of plane and space frames under FEM; use of the program package SAP-90; computational models of frames and hydraulic structures; seismic loads and their calculation.

Finite Element Method (Applied course)

Semester: 1
Assessment: exam
Method of teaching: lectures and seminars
Total hours: 15 lectures and 60 Seminars (Academic Hours)
ECTS credits 5

Finite Element Method - basic and applied course

The suggested course is intended for students that follow the educational program for achievement of Master degree in Structural Engineering. The purpose of the course is to provide consistent knowledge in the theory of the Finite Element Method that is added to the basic knowledge obtained during the study of separate subjects in the previous course of education. That purpose is achieved mainly by general approach for the analysis of different objects in the structural engineering area and ...

Plastic Analysis of Structures

Major: Structural Engineering ,

Year of education: 3, Semester: 6/summer
Assessment: Exam
Method of teaching: Lectures
Total hours: 30 lectures
ECTS credits 2

Plastic Analysis of Structures

Year of education: 3, Semester: 6/summer
Assessment: Exam
Method of teaching: Lectures
Total hours: 30 lectures
ECTS credits 2

Practical Training in Modelling and computation of bridge structures

Year of education:III, Semester: 6, summer
Form of education: FULL TIME UNIVERSITY LEVEL
Assessment: interview
Method of teaching: practice
Practice preparation: 30
ECTS credits 1

Practical Training in Statics of Structures

Year of education: III, Semester:6, summer
Form of education: FULL TIME UNIVERSITY LEVEL
Assessment: interview
Method of teaching: practice
ECTS credits 1

Stability of Structures

Major: Structural Engineering ,

Year of education: IV, Semester: 7, WINTER
Assessment: exam
Method of teaching: lectures and seminars
Total hours: 30 lectures and 30 seminars (Academic Hours)
ECTS credits 4

Stability of Structures

Year of education: IV, Semester: 7, WINTER
Assessment: exam
Method of teaching: lectures and seminars
Total hours: 30 lectures and 30 seminars (Academic Hours)
ECTS credits 4

Stability of Structures

This course is currently unavailable.
Този курс в момента е част от курса по "Теория на еластичността, динамика и устойчивост"
This course is currently part of the "Theory of Elasticity, Dynamics and Stability" course.

Stability of Structures

Semester: 1
Assessment: exam
Method of teaching: lectures and seminars
Total hours: 30 lectures and 30 Seminars (Academic Hours)
ECTS credits 5

Statics of Structures I

Major: Structural Engineering ,

Year of education: III, Semester: 5, WINTER
Assessment: exam
Method of teaching: lectures and seminars
Total hours: 60 lectures and 45 seminars (Academic Hours)
ECTS credits 7

Statics of Structures I

Year of education: III, Semester: 5, WINTER
Assessment: exam
Method of teaching: lectures and seminars
Total hours: 60 lectures and 45 seminars (Academic Hours)
ECTS credits 7

Statics of Structures I

Year of education: III Semester: 5, WINTER
Assessment: exam
Method of teaching: lectures and seminars
Total hours: 45 lectures and 30 seminars (Academic Hours)
ECTS credits 5

Statics of Structures II

Major: Structural Engineering ,

Year of education: 3, Semester: 6/summer
Form of education: FULL TIME UNIVERSITY LEVEL
Assessment: Exam
Method of teaching: Lectures and seminars
Total hours: 30 lectures and 45 seminars (Academic Hours)
ECTS credits 5

Statics of Structures II

Year of education: 3, Semester: 6/summer
Assessment: Exam
Method of teaching: Lectures and seminars
Total hours: 30 lectures and 45 seminars (Academic Hours)
ECTS credits 5

Statics of Structures II

Year of education: III, Semester: 6, WINTER
Assessment: exam
Method of teaching: lectures and seminars
Total hours: 45 lectures and 30 seminars (Academic Hours)
ECTS credits 5

Structural Analysis Using ANSYS

Major: Structural Engineering ,

Year of education: IV, Semester: 8, SUMMER
Assessment: ongoing assessment
Method of teaching: lectures
Total hours: 30 lectures
Self-preparation :30 (Academic Hours)
ECTS credits 2

Structural Analysis Using ANSYS