Title
Teorijska i eksperimentalna analiza armiranobetonskih linijskih nosača sa polukrutim vezama
Creator
Zlatkov, Dragan M.
Copyright date
2015
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Autorstvo-Nekomercijalno 3.0 Srbija (CC BY-NC 3.0)
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Dozvoljavate umnožavanje, distribuciju i javno saopštavanje dela, i prerade, ako se navede ime autora na način odredjen od strane autora ili davaoca licence. Ova licenca ne dozvoljava komercijalnu upotrebu dela. Osnovni opis Licence: http://creativecommons.org/licenses/by-nc/3.0/rs/deed.sr_LATN Sadržaj ugovora u celini: http://creativecommons.org/licenses/by-nc/3.0/rs/legalcode.sr-Latn
Language
Serbian
Cobiss-ID
Theses Type
Doktorska disertacija
description
Datum odbrane: 13.07.2015.
Other responsibilities
mentor
Zdravković, Slavko
član komisije
Folić, Radomir
član komisije
Ristić, Danilo
član komisije
Micov, Vlado
član komisije
Ranković, Slobodan
Academic Expertise
Tehničko-tehnološke nauke
University
Univerzitet u Nišu
Faculty
Građevinsko-arhitektonski fakultet
Group
Katedra za zgrade za stanovanje
Alternative title
Theoretical and experimental analysis of reinforced concrete frame structures with semi-rigid connections
Publisher
[D. Zlatkov]
Format
283 lista razl. paginacije
description
Na presavijenom delu omot. lista podaci o autoru sa slikom i podaci o radu
Abstract (en)
Choosing "an idealized model of the structure" in the classical theory of structures, connections
between the members of the linear systems are usually adopted as ideally pinned or absolutely rigid. Ideally
pinned connection does not allow relative displacement of interfaced sections foci, while sections can freely
and independently rotate. The rigid connection does not allow both relative displacement and relative rotation.
Numerous studies based on experimental results and numerical simulations, which were conducted
over the last forty years, indicate that a large number of the node connections of members of linear systems
can be classified neither as an ideally pinned nor as absolutely rigid.
Systematization of recent results of scientific research, both theoretical and experimental work in
this field in our country and worldwide, especially in the field of reinforced concrete linear systems, is
performed in the first part of this doctoral thesis.
The Chapter 1 presents an introductory discussion and an overview of the development of methods
for analysis of linear girders, while in the Chapter 2 the results of the international project COST C1 ˝Semi-
Rigid behavior˝ are analyzed in details, especially within the working groups for prestressed and reinforced
concrete structures and seismic design.
A special contribution to the study of this problem in our country is given by numerous theoretical
and experimental works of the team of researchers from the Faculty of Civil Engineering in Niš under the
leadership of Prof. Dr. Milic Milicevic. The theoretical approach to the design of structures with semi-rigid
connections using the classical formulation of deformation method was analyzed in these works in details
which an overview is given in the Chapter 3. Bearing in mind that the contemporary analysis of stress-strain
state of complex engineering structures can not be imagined without a matrix formulation and implementation
of electronic computers, the matrix formulation of structural analyzes of systems with semi-rigid connections
is presented in the same chapter, which opens wide opportunities for relatively quick and simple analysis of
these systems by use of modern methods of structural analysis.
Variation formulation of the stiffness matrix and the equivalent load vector determination is shown
in the Chapter 4, while the use of computers in the analysis of structures with semi-rigid connections is given
in the Chapter 5.
The results of the full size experimental analysis of a behavior of prefabricated reinforced concrete
structures with semi-rigid connections carried out on the newly designed and constructed buildings Minoma
and cold storage Lovopromet in Nis under static load are presented in the Chapter 6.
In Chapter 7 is shown the experimental determination of the dynamic characteristics of structures
by ambient vibration method which is performed on buildings constructed in structural systems Minoma and
Amont in Nis.
In the second part of the doctoral thesis experimental study is shown, which was realized in
cooperation with the "Institute of Earthquake Engineering and Engineering Seismology" of the University St.
Cyril and Methodius, Skopje, Republic of Macedonia, as a part of the static and dynamic stability attesting
project of the standardized modulus of prefabricated RC halls program of structural system "AMONT",
including analysis of obtained results, numerical modeling and calculation of reinforced concrete linear
structures constructed in this system taking into account the real characteristics of connections.
Almost all earthquakes that have occurred in the world in recent decades have caused severe
damage or total demolition of precast reinforced concrete structures with semi-rigid connections (industrial
iv
halls and other various structures which differ in number of floors and ground floor typology). The most
important is to provide that there are no human casualties during this damage, but the demolition of these
buildings during the earthquake causes huge losses. In addition to the losses in terms of the economic value of
the building itself, demolition most often has caused destruction of the very expensive industrial equipment.
Modern technological lines in contemporary industry may be five to ten times more expensive than the value
of the building itself. If the long-term economic consequences of the termination of the production process are
taken into account, it is clear that the seismic safety of industrial halls is of vital importance in any seismically
vulnerable region, which includes the territory of Serbia.
In the second part of the doctoral thesis original results obtained on the basis of extensive theoretical
and experimental research are presented with the aim to give adequate contribution in the field of real
observation of present problems, in order to define the structural conditions and measures to improve the
seismic safety of these specific structural systems.
For this purpose primarily real phenomena and causes of damage and demolition of similar
buildings during earthquake action are studied (Chapter 8).
Based on the selected characteristic prototype of an industrial hall, which is widely present in
Serbia, very extensive program of experimental research was carried out. These studies have provided original
results and new insights into the real behavior of structural connections based on constructed full size physical
models testing under the simulated cyclic load to the point of failure (Chapter 9).
Improved methodological concept for nonlinear analysis of integral facilities with semi-rigid
connections is formulated on the base of the experimental results by use of totally non-linear mathematical
model (Chapter 10).
A consistent theoretical procedure applicable for a detailed analysis of nonlinear seismic response of
the systems with semi-rigid connections has been formulated and presented in the Chapter 11. The
methodological concept of developed computer software used for detailed analysis of nonlinear seismic
response of the selected prototypical building is presented in the shortest in the Chapter 12.
The analytical part of the specific research includes the realization of extensive analysis of nonlinear
seismic response of the selected characteristic prototypical industrial hall, with the aim to show the practical
applicability of formulated analytical model and theoretical procedure for nonlinear analysis.
The concept of formulated totally nonlinear mathematical model is shown in the Chapter 13, while
in the Chapter 14 and the Chapter 15 the most significant results of the performed analysis of nonlinear
seismic response of the building in transversal and longitudinal direction due to the effect of real registered
earthquakes are presented.
The fundamental facts that have been reached on the basis of completed complex analytical research
are stated in the Chapter 16. Formulated and implemented detailed nonlinear analyzes enable improved
design and wide practical application of standardized industrial halls and other facilities of this type in seismic
zones of various intensity.Based on the results of completed integral theoretical, experimental and analytical
studies, adequate conclusions and appropriate recommendations for further experimental and analytical
research are summarized in the Chapter 17.
Authors Key words
armiranobetonske konstrukcije, polukrute veze, linearna analiza, nelinearna analiza,
eksperimenti, ambijent vibracije, frekvencija, prigušenje, seizmicka otpornost, histerezisno ponašanje
Authors Key words
RC structures, semirigid connections, linear analysis, nonlinear analysis, experiments,
ambient vibrations test, frequency, damping, seismic resistance, hysteretic behaviour
Classification
624.072.2(043.3)
Subject
T 230, T 002
Type
Elektronska teza
Abstract (en)
Choosing "an idealized model of the structure" in the classical theory of structures, connections
between the members of the linear systems are usually adopted as ideally pinned or absolutely rigid. Ideally
pinned connection does not allow relative displacement of interfaced sections foci, while sections can freely
and independently rotate. The rigid connection does not allow both relative displacement and relative rotation.
Numerous studies based on experimental results and numerical simulations, which were conducted
over the last forty years, indicate that a large number of the node connections of members of linear systems
can be classified neither as an ideally pinned nor as absolutely rigid.
Systematization of recent results of scientific research, both theoretical and experimental work in
this field in our country and worldwide, especially in the field of reinforced concrete linear systems, is
performed in the first part of this doctoral thesis.
The Chapter 1 presents an introductory discussion and an overview of the development of methods
for analysis of linear girders, while in the Chapter 2 the results of the international project COST C1 ˝Semi-
Rigid behavior˝ are analyzed in details, especially within the working groups for prestressed and reinforced
concrete structures and seismic design.
A special contribution to the study of this problem in our country is given by numerous theoretical
and experimental works of the team of researchers from the Faculty of Civil Engineering in Niš under the
leadership of Prof. Dr. Milic Milicevic. The theoretical approach to the design of structures with semi-rigid
connections using the classical formulation of deformation method was analyzed in these works in details
which an overview is given in the Chapter 3. Bearing in mind that the contemporary analysis of stress-strain
state of complex engineering structures can not be imagined without a matrix formulation and implementation
of electronic computers, the matrix formulation of structural analyzes of systems with semi-rigid connections
is presented in the same chapter, which opens wide opportunities for relatively quick and simple analysis of
these systems by use of modern methods of structural analysis.
Variation formulation of the stiffness matrix and the equivalent load vector determination is shown
in the Chapter 4, while the use of computers in the analysis of structures with semi-rigid connections is given
in the Chapter 5.
The results of the full size experimental analysis of a behavior of prefabricated reinforced concrete
structures with semi-rigid connections carried out on the newly designed and constructed buildings Minoma
and cold storage Lovopromet in Nis under static load are presented in the Chapter 6.
In Chapter 7 is shown the experimental determination of the dynamic characteristics of structures
by ambient vibration method which is performed on buildings constructed in structural systems Minoma and
Amont in Nis.
In the second part of the doctoral thesis experimental study is shown, which was realized in
cooperation with the "Institute of Earthquake Engineering and Engineering Seismology" of the University St.
Cyril and Methodius, Skopje, Republic of Macedonia, as a part of the static and dynamic stability attesting
project of the standardized modulus of prefabricated RC halls program of structural system "AMONT",
including analysis of obtained results, numerical modeling and calculation of reinforced concrete linear
structures constructed in this system taking into account the real characteristics of connections.
Almost all earthquakes that have occurred in the world in recent decades have caused severe
damage or total demolition of precast reinforced concrete structures with semi-rigid connections (industrial
iv
halls and other various structures which differ in number of floors and ground floor typology). The most
important is to provide that there are no human casualties during this damage, but the demolition of these
buildings during the earthquake causes huge losses. In addition to the losses in terms of the economic value of
the building itself, demolition most often has caused destruction of the very expensive industrial equipment.
Modern technological lines in contemporary industry may be five to ten times more expensive than the value
of the building itself. If the long-term economic consequences of the termination of the production process are
taken into account, it is clear that the seismic safety of industrial halls is of vital importance in any seismically
vulnerable region, which includes the territory of Serbia.
In the second part of the doctoral thesis original results obtained on the basis of extensive theoretical
and experimental research are presented with the aim to give adequate contribution in the field of real
observation of present problems, in order to define the structural conditions and measures to improve the
seismic safety of these specific structural systems.
For this purpose primarily real phenomena and causes of damage and demolition of similar
buildings during earthquake action are studied (Chapter 8).
Based on the selected characteristic prototype of an industrial hall, which is widely present in
Serbia, very extensive program of experimental research was carried out. These studies have provided original
results and new insights into the real behavior of structural connections based on constructed full size physical
models testing under the simulated cyclic load to the point of failure (Chapter 9).
Improved methodological concept for nonlinear analysis of integral facilities with semi-rigid
connections is formulated on the base of the experimental results by use of totally non-linear mathematical
model (Chapter 10).
A consistent theoretical procedure applicable for a detailed analysis of nonlinear seismic response of
the systems with semi-rigid connections has been formulated and presented in the Chapter 11. The
methodological concept of developed computer software used for detailed analysis of nonlinear seismic
response of the selected prototypical building is presented in the shortest in the Chapter 12.
The analytical part of the specific research includes the realization of extensive analysis of nonlinear
seismic response of the selected characteristic prototypical industrial hall, with the aim to show the practical
applicability of formulated analytical model and theoretical procedure for nonlinear analysis.
The concept of formulated totally nonlinear mathematical model is shown in the Chapter 13, while
in the Chapter 14 and the Chapter 15 the most significant results of the performed analysis of nonlinear
seismic response of the building in transversal and longitudinal direction due to the effect of real registered
earthquakes are presented.
The fundamental facts that have been reached on the basis of completed complex analytical research
are stated in the Chapter 16. Formulated and implemented detailed nonlinear analyzes enable improved
design and wide practical application of standardized industrial halls and other facilities of this type in seismic
zones of various intensity.Based on the results of completed integral theoretical, experimental and analytical
studies, adequate conclusions and appropriate recommendations for further experimental and analytical
research are summarized in the Chapter 17.
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