Projekt współfinansowany ze środków Unii Europejskiej w ramach Europejskiego Funduszu Społecznego
MODULE DESCRIPTION
Module code
Module name
Module name in English
Valid from academic year
Konstrukcje betonowe 1
Concrete Structures 1
2012/2013
MODULE PLACEMENT IN THE SYLLABUS
Level of education
Civil Engineering
1st degree
Studies profile
General
Subject
(1st degree / 2nd degree)
(general / practical)
Form and method of conducting
classes
Specialisation
Full-time
(full-time / part-time)
The Department of Strength of Materials of Concrete
Structures
Barbara Goszczyńska, PhD, Eng., Assistant Professor
Jerzy Z. Piotrowski, PhD hab., Eng., Professor of the
University
Unit conducting the module
Module co-ordinator
Approved by:
MODULE OVERVIEW
Type of subject/group of subjects
Other HES
Module status
Compulsory
Language of conducting classes
Polish
Module placement in the syllabus semester
5th semester
Subject realisation in the academic
year
Winter semester
Initial requirements
No requirements
Examination
No
Number of ECTS credit points
5
Method of
conducting
classes
Per semester
(basic / major / specialist subject / conjoint / other HES)
(compulsory / non-compulsory)
(winter / summer)
(module codes / module names)
(yes / no)
Lecture
Classes
30
15
Laboratory
Project
Other
30
TEACHING RESULTS AND THE METHODS OF ASSESSING TEACHING RESULTS
The aim of the module is to learn and master basic principles of work concerning concrete
Module structures (taking their nonlinearity into consideration). Other aims are to design and
target determine load bearing capability of concrete elements and structures. This knowledge is a
fundamental of designing concrete structures as well as the ability of designing rod
Biuro Projektu
al. Tysiąclecia Państwa Polskiego 7
25-314 Kielce
tel. 41-34-24-209, e-mail: d.sliwinska@tu.kielce.pl
Projekt ,,Politechnika Świętokrzyska – uczelnia na miarę XXI w.’’
Program Operacyjny Kapitał Ludzki Priorytet IV Działanie 4.1, Poddziałanie 4.1.1
na podstawie umowy z Ministerstwem Nauki i Szkolnictwa Wyższego UDA – POKL.04.01.01-00-381/10-00
Projekt współfinansowany ze środków Unii Europejskiej w ramach Europejskiego Funduszu Społecznego
structures.
Effect
symbol
Teaching results
W_01
A student knows theoretical fundamentals of the
essence of concrete structures.
A student knows nonlinear characteristics of
concrete structures.
A student knows the fundamentals of designing
typical elements of concrete structures. Moreover, a
student is knowledgeable about static analysis of the
designed structure.
W_02
W_03
W_04
Teaching
methods
(l/c/l/p/other)
Reference to
subject effects
l
B_W09
T1A_W03
T1A_W07
l/c/p
B_W09
T1A_W03
T1A_W07
l/c/p
B_W08
B_W09
B_W10
l/c/p
A student knows the principles of reinforcing typical
elements of concrete structures.
U_01
l/c/p
B_W09
B_W08
B_W10
A student is able to apply an appropriate calculation
model for designing a concrete structure. In addition,
a student can apply an appropriate static diagram for
the designed element of concrete structure.
U_03
l/c/p
B_U02
l/c/p
B_U14
l/c/p
B_U14
p
B_K01
B_K05
B_K07
p
B_K02
B_K03
B_K07
p
B_K04
B_K07
A student can dimension a typical element of
concrete structure (a beam and a pile).
U_04
A student can correctly reinforce a basic element (a
beam and a pile) a concrete structure.
K_01
A student can work individually and in a team.
Moreover, a student can organise the work of a
team which will analyse a given task. In addition, a
student can divide work among team members into
tasks according to their competences.
K_02
A student is responsible for the reliability of the
obtained results.
K_03
A student can formulate conclusions and describe
the results of the obtained work.
T1A_W03
T1A_W04
T1A_W05
T1A_W07
T1A_W08
T1A_W03
T1A_W04
T1A_W05
T1A_W07
T1A_W08
B_U24
A student can apply the material meeting
appropriate properties (concrete and steel) for the
designed structure. Moreover, a student can
describe a calculation situation. Finally, a student
can describe the work of a reinforced concrete
section.
U_02
Reference to
effects of a
field of study
T1A_U03
T1A_U05
T1A_U08
T1A_U09
T1A_U13
T1A_U14
T1A_U15
T1A_U16
T1A_U11
T1A_U13
T1A_U03
T1A_U04
T1A_U05
T1A_U14
T1A_U16
T1A_U03
T1A_U04
T1A_U05
T1A_U14
T1A_U16
T1A_K01
T1A_K03
T1A_K04
T1A_K05
T1A_k07
T1A_K01
T1A_K02
T1A_K03
T1A_K05
T1A_K06
T1A_K07
T1A_K01
T1A_K03
T1A_K07
Teaching contents:
Teaching contents as regards lectures
Biuro Projektu
al. Tysiąclecia Państwa Polskiego 7
25-314 Kielce
tel. 41-34-24-209, e-mail: d.sliwinska@tu.kielce.pl
Projekt ,,Politechnika Świętokrzyska – uczelnia na miarę XXI w.’’
Program Operacyjny Kapitał Ludzki Priorytet IV Działanie 4.1, Poddziałanie 4.1.1
na podstawie umowy z Ministerstwem Nauki i Szkolnictwa Wyższego UDA – POKL.04.01.01-00-381/10-00
Projekt współfinansowany ze środków Unii Europejskiej w ramach Europejskiego Funduszu Społecznego
Lecture
number
1.
Teaching contents
10.
Discussing the syllabus of the lectures. Introductory information (historical
conditions, the types of concrete structures, determining basic notions,
calculation situations, the types of boundary states).
The properties of materials:
- concrete: mechanical properties of concrete (- relationship, strength
according to work conditions, the coefficient of elasticity; concrete
deformability; reological properties, i.e. shrinking, bulking, creep, and
relaxation; calculation models; calculation and characteristic strength values;
Poisson’s ratio)
- steel: characteristic and calculation plasticity boundary; steel elasticity
module; steel deformability; the coefficient of thermal expandability; guidelines
concerning the selection of types of steel
The interaction between concrete and steel (the factors influencing the
interaction between concrete and steel). Anchorage length.
The phases of work concerning bent reinforced concrete beam. The methods
of dimensioning reinforced concrete sections: the method of linear stresses,
the method of plastic deformations, the method of boundary states. Structure
safety.
Boundary states of load bearing capacity: assumptions concerning
calculations with the boundary state method; dimensioning as regards bending
with the general method.
Boundary states of load bearing capacity: assumptions concerning
calculations with the boundary state method; dimensioning as regards bending
with the simplified method.
Boundary states of load bearing capacity: assumptions concerning
calculations of support zones; dimensioning with respect to shearing.
Boundary states of load bearing capacity: dimensioning with respect to the
operation of longitudinal forces (stretching and pressing) and the bending
moment.
Boundary states of load bearing capacity: dimensioning with respect to
torsion. Functional boundary states (assumptions).
Functional boundary states (boundary state of deflections).
11.
Functional boundary states (boundary state of scratching).
12.
Static analysis of reinforced concrete structures.
13.
The fundamentals of designing: general principles of designing according to
PN-EN 1992-1-1:2008; structural requirements while reinforcing reinforced
concrete structures.
2.
3.
4.
5.
6.
7.
8.
9.
14.
Designing basic constructional elements (a beam and a pile).
Reference
to teaching
results for a
module
W_01
U_01
W_01
W_02
U_01
U_02
W_01
W_01 W_02
U_02
W_02, W_03
U_02
U_03
W_02 W_03
U_01
W_02 W_03
U_01
W_02 W_03
U_01
W_02 W_03
U_01
W_02 W_03
U_01
W_02 W_03
U_01
W_03
U_02
W_03
W_04
U_03
U_04
W_01
W_02
W_03
W_04
U_02
U_03
U_04
Teaching contents as regards classes
Lecture
number
1.
Teaching contents
Dimensioning with the method of boundary states of reinforced section
operating during bending (rectangular sections).
Biuro Projektu
al. Tysiąclecia Państwa Polskiego 7
25-314 Kielce
tel. 41-34-24-209, e-mail: d.sliwinska@tu.kielce.pl
Reference
to teaching
results for a
module
W_02
W_03
U_01
U_02
Projekt ,,Politechnika Świętokrzyska – uczelnia na miarę XXI w.’’
Program Operacyjny Kapitał Ludzki Priorytet IV Działanie 4.1, Poddziałanie 4.1.1
na podstawie umowy z Ministerstwem Nauki i Szkolnictwa Wyższego UDA – POKL.04.01.01-00-381/10-00
Projekt współfinansowany ze środków Unii Europejskiej w ramach Europejskiego Funduszu Społecznego
2.
Dimensioning with the method of boundary states of reinforced sections
operating during bending (T-slot sections).
3.
Determining load bearing capacity of reinforced concrete sections operating
during bending (rectangular sections).
4.
Determining load bearing capacity of reinforced sections operating during
bending (T-slot sections).
5.
Dimensioning support zones.
6.
Dimensioning sections subject to operation of the longitudinal force and
bending moment (pressing).
7.
Dimensioning sections subject to operation of the longitudinal force and
bending moment (pressing).
U_03
U_04
K_01
K_02
W_02
W_03
U_01
U_02
U_03
U_04
K_01
K_02
W_02
W_03
U_01
U_02
U_03
U_04
K_01
K_02
W_02
W_03
U_01
U_02
U_03
U_04
K_01
K_02
W_02
W_03
U_01
U_02
U_03
U_04
K_01
K_02
W_02
W_03
U_01
U_02
U_03
U_04
K_01
K_02
W_02
W_03
U_01
U_02
U_03
U_04
K_01
K_02
The characteristics of project assignments
Making individual project assignments
Project
number
Teaching contents
1.
Determining a stress solid for a plane stress state.
2.
Statistical analysis of examination results of concrete strength: mean value,
standard deviation, the coefficient of variability, guaranteed strength,
characteristic and calculation strength for pressing and stretching, elasticity
module.
Biuro Projektu
al. Tysiąclecia Państwa Polskiego 7
25-314 Kielce
tel. 41-34-24-209, e-mail: d.sliwinska@tu.kielce.pl
Reference
to teaching
results for a
module
W_01
K_01
K_02
K_03
W_02
U_01
K_01
K_02
K_03
Projekt ,,Politechnika Świętokrzyska – uczelnia na miarę XXI w.’’
Program Operacyjny Kapitał Ludzki Priorytet IV Działanie 4.1, Poddziałanie 4.1.1
na podstawie umowy z Ministerstwem Nauki i Szkolnictwa Wyższego UDA – POKL.04.01.01-00-381/10-00
Projekt współfinansowany ze środków Unii Europejskiej w ramach Europejskiego Funduszu Społecznego
3.
A project of a reinforced beam: dimensioning a bent reinforced section with
the limit state method (the simplified method); dimensioning with respect to
cross forces; controlling the load bearing capacity for bending and the
structure of load bearing capacity envelope.
4.
A project of an eccentrically pressed pile.
W_02
W_03
W_04
U_01
U_02
U_03
U_04
K_01
K_02
K_03
W_02
W_03
W_04
U_01
U_02
U_03
U_04
K_01
K_02
K_03
The methods of assessing teaching results
Effect
symbol
W_01
W_02
W_03
W_04
U_01
U_02
U_03
U_04
K_01
K_02
K_03
Methods of assessing teaching results
(assessment method, including skills – reference to a particular project, laboratory assignments, etc.)
A test and a project
A test and a project
A test and a project
A test and a project
A test and a project
A test and a project
A test and a project
A test and a project
A project
A project
A project
STUDENT’S INPUT
ECTS credit points
Student’s
workload
Type of student’s activity
1
2
3
4
5
6
7
8
9
10
Participation in lectures
Participation in classes
Participation in laboratories
Participation in tutorials (2-3 times per semester)
Participation in project classes
Project tutorials
Participation in an examination or a final test
Number of hours requiring a lecturer’s assistance
Number of ECTS credit points which are allocated for assisted work
(1 ECTS credit point=25-30 hours)
Biuro Projektu
al. Tysiąclecia Państwa Polskiego 7
25-314 Kielce
tel. 41-34-24-209, e-mail: d.sliwinska@tu.kielce.pl
30
15
3
15
2
2
67
(sum)
2.7
Projekt ,,Politechnika Świętokrzyska – uczelnia na miarę XXI w.’’
Program Operacyjny Kapitał Ludzki Priorytet IV Działanie 4.1, Poddziałanie 4.1.1
na podstawie umowy z Ministerstwem Nauki i Szkolnictwa Wyższego UDA – POKL.04.01.01-00-381/10-00
Projekt współfinansowany ze środków Unii Europejskiej w ramach Europejskiego Funduszu Społecznego
11
12
13
14
15
16
17
18
19
20
21
15
5
8
Unassisted study of lecture subjects
Unassisted preparation for classes
Unassisted preparation for tests
Unassisted preparation for laboratories
Preparing reports
Preparing for a final laboratory test
Preparing a project or documentation
Preparing for an examination or a final test
Preparing questionnaires
20
10
58
Number of hours of a student’s unassisted work
(sum)
Number of ECTS credit points which a student receives for unassisted
work
2.3
(1 ECTS credit point=25-30 hours)
Total number of hours of a student’s work
ECTS credit points per module
22
23
1 ECTS credit point=25-30 hours
24
Work input connected with practical classes
Total number of hours connected with practical classes
25
Number of ECTS credit points which a student receives for practical
classes
125
5
40
1.6
(1 ECTS credit point=25-30 hours)
Biuro Projektu
al. Tysiąclecia Państwa Polskiego 7
25-314 Kielce
tel. 41-34-24-209, e-mail: d.sliwinska@tu.kielce.pl
Projekt ,,Politechnika Świętokrzyska – uczelnia na miarę XXI w.’’
Program Operacyjny Kapitał Ludzki Priorytet IV Działanie 4.1, Poddziałanie 4.1.1
na podstawie umowy z Ministerstwem Nauki i Szkolnictwa Wyższego UDA – POKL.04.01.01-00-381/10-00