TY  - CONF
AU  - Folić, Boris
AU  - Ćosić, Mladen
AU  - Brčić, Stanko
AU  - Čokić, Miloš
AU  - Sedmak, Simon
PY  - 2019
UR  - http://rims.institutims.rs/handle/123456789/749
AB  - This paper presents the manner of modeling the aftershock (in an earthquake), the phenomenon whose significance has been noted in the second half of the 20th century. Itlists the constructional systems in which the consideration of the aftershock is important. It shows in more detail the model of the skeletal RC construction, i.e. the 2D RC facade frame constructed on the 60cm-diameter drilled RC piles. The dynamic interaction soil-pile, i.e. the non-linear behaviour of the soil is modelled with the horizontal p-y curves for sand, applying multiplastic link elements. For the accelerogram El Centro during time history (TH) the global and (local) drift, the condition of plastic hinges were considered.
PB  - Association of civil engineers of Serbia (ACES)
C3  - Assessment of the Condition, Maintenance and Rehabilitation of Buildings and Settlements, 10th International Conference, Zlatibor, Serbia
T1  - The effect of aftershock on 2D RC frame founded on piles with P-Y curves
EP  - 386
SP  - 375
UR  - https://hdl.handle.net/21.15107/rcub_rims_749
ER  - 

@conference{
author = "Folić, Boris and Ćosić, Mladen and Brčić, Stanko and Čokić, Miloš and Sedmak, Simon",
year = "2019",
abstract = "This paper presents the manner of modeling the aftershock (in an earthquake), the phenomenon whose significance has been noted in the second half of the 20th century. Itlists the constructional systems in which the consideration of the aftershock is important. It shows in more detail the model of the skeletal RC construction, i.e. the 2D RC facade frame constructed on the 60cm-diameter drilled RC piles. The dynamic interaction soil-pile, i.e. the non-linear behaviour of the soil is modelled with the horizontal p-y curves for sand, applying multiplastic link elements. For the accelerogram El Centro during time history (TH) the global and (local) drift, the condition of plastic hinges were considered.",
publisher = "Association of civil engineers of Serbia (ACES)",
journal = "Assessment of the Condition, Maintenance and Rehabilitation of Buildings and Settlements, 10th International Conference, Zlatibor, Serbia",
title = "The effect of aftershock on 2D RC frame founded on piles with P-Y curves",
pages = "386-375",
url = "https://hdl.handle.net/21.15107/rcub_rims_749"
}

Folić, B., Ćosić, M., Brčić, S., Čokić, M.,& Sedmak, S.. (2019). The effect of aftershock on 2D RC frame founded on piles with P-Y curves. in Assessment of the Condition, Maintenance and Rehabilitation of Buildings and Settlements, 10th International Conference, Zlatibor, Serbia
Association of civil engineers of Serbia (ACES)., 375-386.
https://hdl.handle.net/21.15107/rcub_rims_749

Folić B, Ćosić M, Brčić S, Čokić M, Sedmak S. The effect of aftershock on 2D RC frame founded on piles with P-Y curves. in Assessment of the Condition, Maintenance and Rehabilitation of Buildings and Settlements, 10th International Conference, Zlatibor, Serbia. 2019;:375-386.
https://hdl.handle.net/21.15107/rcub_rims_749 .

Folić, Boris, Ćosić, Mladen, Brčić, Stanko, Čokić, Miloš, Sedmak, Simon, "The effect of aftershock on 2D RC frame founded on piles with P-Y curves" in Assessment of the Condition, Maintenance and Rehabilitation of Buildings and Settlements, 10th International Conference, Zlatibor, Serbia (2019):375-386,
https://hdl.handle.net/21.15107/rcub_rims_749 .

TY  - CONF
AU  - Folić, Boris
AU  - Brčić, Stanko
AU  - Ćosić, Mladen
PY  - 2018
UR  - http://rims.institutims.rs/handle/123456789/747
AB  - The paper presents a seismic analysis of a 2D reinforced concrete (RC) frame founded on piles. The soil-pile interaction is represented by the so-called p-y curves. At the base, the piles may be both fixed or elastically supported. P-y curves are determined according to Rees, Cox and Matlock model for sand. Using SAP 2000, p-y curves are applied on both sides of the pile, as the link elements. Link elements are assumed as a multi-linear plastic type, i.e. as hysteresis envelopes according to the Takeda model. The linear part of the link element corresponds to initial stiffness of the p-y curve. Curves are exposed to compression only and to almost negligible tension. In the analysis of seismic action, the curve coefficients for a repeated, i.e. cyclic load were assumed. In such a way, numerical model asymptotically simulates the real actions and seismic response of structures in dynamic interaction of the pile-structure-soil system. This model offers many options for further development and study of seismic performance.
PB  - Savez građevinskih inženjera Srbije SGIS
PB  - Društvo za zemljotresno inženjerstvo Srbije
C3  - 6th International Conference of Earthquake Engineering and Engineering Seismology, Kraljevo, Serbia
T1  - Analysis of Interaction of 2D RC Frame Model Using p-y Curves Upon Piles
EP  - 406
SP  - 397
UR  - https://hdl.handle.net/21.15107/rcub_rims_747
ER  - 

@conference{
author = "Folić, Boris and Brčić, Stanko and Ćosić, Mladen",
year = "2018",
abstract = "The paper presents a seismic analysis of a 2D reinforced concrete (RC) frame founded on piles. The soil-pile interaction is represented by the so-called p-y curves. At the base, the piles may be both fixed or elastically supported. P-y curves are determined according to Rees, Cox and Matlock model for sand. Using SAP 2000, p-y curves are applied on both sides of the pile, as the link elements. Link elements are assumed as a multi-linear plastic type, i.e. as hysteresis envelopes according to the Takeda model. The linear part of the link element corresponds to initial stiffness of the p-y curve. Curves are exposed to compression only and to almost negligible tension. In the analysis of seismic action, the curve coefficients for a repeated, i.e. cyclic load were assumed. In such a way, numerical model asymptotically simulates the real actions and seismic response of structures in dynamic interaction of the pile-structure-soil system. This model offers many options for further development and study of seismic performance.",
publisher = "Savez građevinskih inženjera Srbije SGIS, Društvo za zemljotresno inženjerstvo Srbije",
journal = "6th International Conference of Earthquake Engineering and Engineering Seismology, Kraljevo, Serbia",
title = "Analysis of Interaction of 2D RC Frame Model Using p-y Curves Upon Piles",
pages = "406-397",
url = "https://hdl.handle.net/21.15107/rcub_rims_747"
}

Folić, B., Brčić, S.,& Ćosić, M.. (2018). Analysis of Interaction of 2D RC Frame Model Using p-y Curves Upon Piles. in 6th International Conference of Earthquake Engineering and Engineering Seismology, Kraljevo, Serbia
Savez građevinskih inženjera Srbije SGIS., 397-406.
https://hdl.handle.net/21.15107/rcub_rims_747

Folić B, Brčić S, Ćosić M. Analysis of Interaction of 2D RC Frame Model Using p-y Curves Upon Piles. in 6th International Conference of Earthquake Engineering and Engineering Seismology, Kraljevo, Serbia. 2018;:397-406.
https://hdl.handle.net/21.15107/rcub_rims_747 .

Folić, Boris, Brčić, Stanko, Ćosić, Mladen, "Analysis of Interaction of 2D RC Frame Model Using p-y Curves Upon Piles" in 6th International Conference of Earthquake Engineering and Engineering Seismology, Kraljevo, Serbia (2018):397-406,
https://hdl.handle.net/21.15107/rcub_rims_747 .

TY  - CONF
AU  - Ćosić, Mladen
AU  - Brčić, Stanko
AU  - Šušić, Nenad
AU  - Folić, Radomir
AU  - Božić-Tomić, Kristina
PY  - 2018
UR  - http://rims.institutims.rs/handle/123456789/748
AB  - The paper is presenting a mathematical formulation of an originally developed ground motion record surface (GMRS) and response spectra surface (RSS) for the presentation of 2D seismic ground motion records (GMR) and the corresponding response spectra (RS), respectively. These surfaces are constructed by transformation from 2D polar coordinate system to a 3D cylindrical coordinate system and then to the 3D orthogonal coordinate system. The principle of application of three orthogonal coordinates for each discrete value is used in order to achieve easy manipulation and interpolation of spatial surface. Scaling of accelerograms was carried out using two procedures: the Least Square Method (LSM) and Spectral Matching (SM).
PB  - Association of Civil Engineers of Serbia, Kraljevo
C3  - 6th International Conference of Earthquake Engineering and Engineering Seismology, Kraljevo, Serbia
T1  - Development of ground motion record surface and response spectra surface
EP  - 354
SP  - 343
UR  - https://hdl.handle.net/21.15107/rcub_rims_748
ER  - 

@conference{
author = "Ćosić, Mladen and Brčić, Stanko and Šušić, Nenad and Folić, Radomir and Božić-Tomić, Kristina",
year = "2018",
abstract = "The paper is presenting a mathematical formulation of an originally developed ground motion record surface (GMRS) and response spectra surface (RSS) for the presentation of 2D seismic ground motion records (GMR) and the corresponding response spectra (RS), respectively. These surfaces are constructed by transformation from 2D polar coordinate system to a 3D cylindrical coordinate system and then to the 3D orthogonal coordinate system. The principle of application of three orthogonal coordinates for each discrete value is used in order to achieve easy manipulation and interpolation of spatial surface. Scaling of accelerograms was carried out using two procedures: the Least Square Method (LSM) and Spectral Matching (SM).",
publisher = "Association of Civil Engineers of Serbia, Kraljevo",
journal = "6th International Conference of Earthquake Engineering and Engineering Seismology, Kraljevo, Serbia",
title = "Development of ground motion record surface and response spectra surface",
pages = "354-343",
url = "https://hdl.handle.net/21.15107/rcub_rims_748"
}

Ćosić, M., Brčić, S., Šušić, N., Folić, R.,& Božić-Tomić, K.. (2018). Development of ground motion record surface and response spectra surface. in 6th International Conference of Earthquake Engineering and Engineering Seismology, Kraljevo, Serbia
Association of Civil Engineers of Serbia, Kraljevo., 343-354.
https://hdl.handle.net/21.15107/rcub_rims_748

Ćosić M, Brčić S, Šušić N, Folić R, Božić-Tomić K. Development of ground motion record surface and response spectra surface. in 6th International Conference of Earthquake Engineering and Engineering Seismology, Kraljevo, Serbia. 2018;:343-354.
https://hdl.handle.net/21.15107/rcub_rims_748 .

Ćosić, Mladen, Brčić, Stanko, Šušić, Nenad, Folić, Radomir, Božić-Tomić, Kristina, "Development of ground motion record surface and response spectra surface" in 6th International Conference of Earthquake Engineering and Engineering Seismology, Kraljevo, Serbia (2018):343-354,
https://hdl.handle.net/21.15107/rcub_rims_748 .

TY  - JOUR
AU  - Ćosić, Mladen
AU  - Folić, Radomir
AU  - Brčić, Stanko
PY  - 2017
UR  - http://rims.institutims.rs/handle/123456789/305
AB  - Autori rada su, na osnovu analize velikog broja naučnih radova, dali prikaz sopstvene originalne sistematizacije seizmičkih analiza konstrukcija, a veliki deo njih je razvijen u poslednje dve decenije. Seizmičke analize su klasifikovane generalno u dve (četiri) grupe: linearne i nelinearne statičke analize; i linearne i nelinearne dinamičke analize. Posebno su klasifikovane analize nelinearnog seizmičkog odgovora konstrukcija, a posebno analize ciljnog pomeranja kojim se definiše odnos seizmičkog zahteva i seizmičkog odgovora. S druge strane, klasifikacija je sprovedena i u funkciji da li se nelinearan odgovor sistema dobija primenom inkrementalno-iterativnih procedura ili primenom poluiterativnih i/ili poluinkrementalnih procedura. Nelinearne dinamičke analize su klasifikovane prema konceptu matematičke formulacije, odnosno da li se zasnivaju na samo jednoj dinamičkoj analizi, većem broju dinamičkih analiza ili dobijaju rešenja u kombinaciji s drugim metodama. Primenom sprovedene sistematizacije seizmičkih analiza može se vrlo efikasno razmotriti koji tip analize je optimalan za analizu konstrukcija i koji tip analize je potrebno uzeti u obzir u fazi preliminarnih i finalnih analiza za naučna istraživanja i stručne projekte. U radu su, takođe, prikazani aspekti modeliranja prigušenja u analizi konstrukcija sistematizacijom tipova prigušenja i formiranim dijagramima tokova, a u zavisnosti od tipa primenjene analize: linearne i nelinearne, statičke i dinamičke. Sistematizacija prigušenja je sprovedena prema načinu uvođenja u proračun i to preko prigušenja materijala, prigušenja elemenata veze i prigušenja koja se direktno uvode u analize, a koje se sprovode u kapacitativnom, vremenskom i frekventnom domenu. Primenom razvijenih dijagrama tokova, u procesu kreiranja numeričkih modela konstrukcija, može se vrlo efikasno razmotriti koji tip prigušenja treba odabrati i na koji način uvesti prigušenje u analizu konstrukcija. Takođe, primenom razvijenih dijagrama tokova mogu se definisati i alternativni pristupi uvođenja prigušenja u analizu konstrukcija.
AB  - The authors of the paper, on the basis of the analysis of a large number of scientific papers, presented their original systematization of seismic analyses of structures, where a large number of them were developed during the last twenty years. Seismic analyses are generally classified into two (four) groups: Linear Static Analyses (LSA) and Nonlinear Static Analyses (NSA), and Linear Dynamic Analyses (LDA) and Nonlinear Dynamic Analyses (NDA). The analyses of nonlinear seismic structural response were classified separately from the Target Displacement Analyses (TDA) which defines the relationship of the seismic demand and seismic response. On the other hand, classification was also conducted depending on whether a nonlinear response of the system is obtained by the implementation of incremental-iterative procedures or by implementation of semi-iterative and/or semi-incremental procedures. NDA were classified according to the concept of mathematical formulation, i.e. whether they are based on only one dynamic analysis, several dynamic analyses or they are solved in combination with other methods. By implementing the conducted systematization of seismic analyses, one can efficiently consider which type of analysis is optimal for structural analysis and which type of analysis should be taken into account in the phase of preliminary and final analyses in the course of scientific research and professional projects. This paper also presents the aspects of damping modelling in structural analysis through the systematization of damping types and flowcharts, depending on the type of analysis applied: linear and nonlinear, static and dynamic. Damping has been systematized based on the way it was introduced into calculations, i.e. over material damping, link element damping and damping directly introduced into the analyses which are conducted in capacitive, time and frequency domains. In the process of creating numerical structural models, the type of damping and the way of its introduction into structural analysis can be very efficiently selected by applying the flow charts developed. By applying the developed flowcharts, alternative approaches to the introduction of damping into structural analysis can also be defined.
PB  - Društvo za ispitivanje i istraživanje materijala i konstrukcija Srbije, Beograd
T2  - Građevinski materijali i konstrukcije
T1  - Pregled savremenih seizmičkih analiza i načina uvođenja prigušenja u njima
T1  - An overview of modern seismic analyses with different ways of damping introduction
EP  - 30
IS  - 1
SP  - 3
VL  - 60
DO  - 10.5937/grmk1701003C
ER  - 

@article{
author = "Ćosić, Mladen and Folić, Radomir and Brčić, Stanko",
year = "2017",
abstract = "Autori rada su, na osnovu analize velikog broja naučnih radova, dali prikaz sopstvene originalne sistematizacije seizmičkih analiza konstrukcija, a veliki deo njih je razvijen u poslednje dve decenije. Seizmičke analize su klasifikovane generalno u dve (četiri) grupe: linearne i nelinearne statičke analize; i linearne i nelinearne dinamičke analize. Posebno su klasifikovane analize nelinearnog seizmičkog odgovora konstrukcija, a posebno analize ciljnog pomeranja kojim se definiše odnos seizmičkog zahteva i seizmičkog odgovora. S druge strane, klasifikacija je sprovedena i u funkciji da li se nelinearan odgovor sistema dobija primenom inkrementalno-iterativnih procedura ili primenom poluiterativnih i/ili poluinkrementalnih procedura. Nelinearne dinamičke analize su klasifikovane prema konceptu matematičke formulacije, odnosno da li se zasnivaju na samo jednoj dinamičkoj analizi, većem broju dinamičkih analiza ili dobijaju rešenja u kombinaciji s drugim metodama. Primenom sprovedene sistematizacije seizmičkih analiza može se vrlo efikasno razmotriti koji tip analize je optimalan za analizu konstrukcija i koji tip analize je potrebno uzeti u obzir u fazi preliminarnih i finalnih analiza za naučna istraživanja i stručne projekte. U radu su, takođe, prikazani aspekti modeliranja prigušenja u analizi konstrukcija sistematizacijom tipova prigušenja i formiranim dijagramima tokova, a u zavisnosti od tipa primenjene analize: linearne i nelinearne, statičke i dinamičke. Sistematizacija prigušenja je sprovedena prema načinu uvođenja u proračun i to preko prigušenja materijala, prigušenja elemenata veze i prigušenja koja se direktno uvode u analize, a koje se sprovode u kapacitativnom, vremenskom i frekventnom domenu. Primenom razvijenih dijagrama tokova, u procesu kreiranja numeričkih modela konstrukcija, može se vrlo efikasno razmotriti koji tip prigušenja treba odabrati i na koji način uvesti prigušenje u analizu konstrukcija. Takođe, primenom razvijenih dijagrama tokova mogu se definisati i alternativni pristupi uvođenja prigušenja u analizu konstrukcija., The authors of the paper, on the basis of the analysis of a large number of scientific papers, presented their original systematization of seismic analyses of structures, where a large number of them were developed during the last twenty years. Seismic analyses are generally classified into two (four) groups: Linear Static Analyses (LSA) and Nonlinear Static Analyses (NSA), and Linear Dynamic Analyses (LDA) and Nonlinear Dynamic Analyses (NDA). The analyses of nonlinear seismic structural response were classified separately from the Target Displacement Analyses (TDA) which defines the relationship of the seismic demand and seismic response. On the other hand, classification was also conducted depending on whether a nonlinear response of the system is obtained by the implementation of incremental-iterative procedures or by implementation of semi-iterative and/or semi-incremental procedures. NDA were classified according to the concept of mathematical formulation, i.e. whether they are based on only one dynamic analysis, several dynamic analyses or they are solved in combination with other methods. By implementing the conducted systematization of seismic analyses, one can efficiently consider which type of analysis is optimal for structural analysis and which type of analysis should be taken into account in the phase of preliminary and final analyses in the course of scientific research and professional projects. This paper also presents the aspects of damping modelling in structural analysis through the systematization of damping types and flowcharts, depending on the type of analysis applied: linear and nonlinear, static and dynamic. Damping has been systematized based on the way it was introduced into calculations, i.e. over material damping, link element damping and damping directly introduced into the analyses which are conducted in capacitive, time and frequency domains. In the process of creating numerical structural models, the type of damping and the way of its introduction into structural analysis can be very efficiently selected by applying the flow charts developed. By applying the developed flowcharts, alternative approaches to the introduction of damping into structural analysis can also be defined.",
publisher = "Društvo za ispitivanje i istraživanje materijala i konstrukcija Srbije, Beograd",
journal = "Građevinski materijali i konstrukcije",
title = "Pregled savremenih seizmičkih analiza i načina uvođenja prigušenja u njima, An overview of modern seismic analyses with different ways of damping introduction",
pages = "30-3",
number = "1",
volume = "60",
doi = "10.5937/grmk1701003C"
}

Ćosić, M., Folić, R.,& Brčić, S.. (2017). Pregled savremenih seizmičkih analiza i načina uvođenja prigušenja u njima. in Građevinski materijali i konstrukcije
Društvo za ispitivanje i istraživanje materijala i konstrukcija Srbije, Beograd., 60(1), 3-30.
https://doi.org/10.5937/grmk1701003C

Ćosić M, Folić R, Brčić S. Pregled savremenih seizmičkih analiza i načina uvođenja prigušenja u njima. in Građevinski materijali i konstrukcije. 2017;60(1):3-30.
doi:10.5937/grmk1701003C .

Ćosić, Mladen, Folić, Radomir, Brčić, Stanko, "Pregled savremenih seizmičkih analiza i načina uvođenja prigušenja u njima" in Građevinski materijali i konstrukcije, 60, no. 1 (2017):3-30,
https://doi.org/10.5937/grmk1701003C . .

TY  - CONF
AU  - Ćosić, Mladen
AU  - Brčić, Stanko
AU  - Folić, Radomir
AU  - Šušić, Nenad
PY  - 2016
UR  - http://rims.institutims.rs/handle/123456789/745
AB  - The paper presents the original developed software Quake Nonlin for
performance-based seismic analysis of 3D structural models. Software Nonlin
Quake consists of several independent compatible softwares that implements:
create a database of two componential ground motion records (GMR), generation
and processing of multicomponential GMR, creating incomplete and complete
nonstationary artificial accelerograms, deterministic and probabilistic seismic
hazard analysis, generation and processing of multicomponential response
spectras, analysis of design parameters, processing of pushover curves and
surfaces, calculation based on hybrid incremental nonlinear static-dynamic
analysis, target displacement analysis, analysis and scaling of response spectras
and analysis of target displacement envelope. For four considered methods for
analysis of system performances: nonlinear static pushover analysis (NSPA),
incremental nonlinear dynamic analysis (INDA), incremental dynamic analysis
(IDA) and hybrid incremental nonlinear static-dynamic analysis (HINSDA), flow
charts are shown.
PB  - Savez građevinskih inženjera Srbije SGIS
C3  - 5th International Conference of Earthquake Engineering and Engineering Seismology, Sremski Karlovci, Serbia
T1  - Nonlin Quake: Expert System for Performance-Based Analysis of Structures
EP  - 316
SP  - 303
UR  - https://hdl.handle.net/21.15107/rcub_rims_745
ER  - 

@conference{
author = "Ćosić, Mladen and Brčić, Stanko and Folić, Radomir and Šušić, Nenad",
year = "2016",
abstract = "The paper presents the original developed software Quake Nonlin for
performance-based seismic analysis of 3D structural models. Software Nonlin
Quake consists of several independent compatible softwares that implements:
create a database of two componential ground motion records (GMR), generation
and processing of multicomponential GMR, creating incomplete and complete
nonstationary artificial accelerograms, deterministic and probabilistic seismic
hazard analysis, generation and processing of multicomponential response
spectras, analysis of design parameters, processing of pushover curves and
surfaces, calculation based on hybrid incremental nonlinear static-dynamic
analysis, target displacement analysis, analysis and scaling of response spectras
and analysis of target displacement envelope. For four considered methods for
analysis of system performances: nonlinear static pushover analysis (NSPA),
incremental nonlinear dynamic analysis (INDA), incremental dynamic analysis
(IDA) and hybrid incremental nonlinear static-dynamic analysis (HINSDA), flow
charts are shown.",
publisher = "Savez građevinskih inženjera Srbije SGIS",
journal = "5th International Conference of Earthquake Engineering and Engineering Seismology, Sremski Karlovci, Serbia",
title = "Nonlin Quake: Expert System for Performance-Based Analysis of Structures",
pages = "316-303",
url = "https://hdl.handle.net/21.15107/rcub_rims_745"
}

Ćosić, M., Brčić, S., Folić, R.,& Šušić, N.. (2016). Nonlin Quake: Expert System for Performance-Based Analysis of Structures. in 5th International Conference of Earthquake Engineering and Engineering Seismology, Sremski Karlovci, Serbia
Savez građevinskih inženjera Srbije SGIS., 303-316.
https://hdl.handle.net/21.15107/rcub_rims_745

Ćosić M, Brčić S, Folić R, Šušić N. Nonlin Quake: Expert System for Performance-Based Analysis of Structures. in 5th International Conference of Earthquake Engineering and Engineering Seismology, Sremski Karlovci, Serbia. 2016;:303-316.
https://hdl.handle.net/21.15107/rcub_rims_745 .

Ćosić, Mladen, Brčić, Stanko, Folić, Radomir, Šušić, Nenad, "Nonlin Quake: Expert System for Performance-Based Analysis of Structures" in 5th International Conference of Earthquake Engineering and Engineering Seismology, Sremski Karlovci, Serbia (2016):303-316,
https://hdl.handle.net/21.15107/rcub_rims_745 .

TY  - JOUR
AU  - Ćosić, Mladen
AU  - Brčić, Stanko
PY  - 2014
UR  - http://rims.institutims.rs/handle/123456789/755
AB  - U radu je prikazan koncept analize mehanizama loma zgrada bazirajući se na osnovnim stavovima iz statike konstrukcija, razmatrajući statičku neodređenost i kinematičku stabilnost. Istraživanje je sprovedeno modelirajući mehanizme loma koji se uobičajeno javljaju kod zgrada izloženih dejstvu zemljotresa: prema metodi programiranog ponašanja (CDM - Capacity Design Method), “jaki stubovi - slabe grede”, “slabi stubovi - jake grede”, “meki sprat”, “fleksibilno prizemlje”, “diskontinuitet krutosti”, uticaj krutog parapeta, sistem sa konzolnim delom, sistemi neregularni po visini, sistem ukrućen vertikalnim armiranobetonskim zidom i sa izmeštenim delom zida u prizemlju. Takođe, razmatrani su i složeni mehanizmi loma koji se javljaju kao kombinacija čistih ili parcijalno razvijenih više prethodno nabrojanih mehanizama loma.
T2  - Časopis Izgradnja
T1  - Analiza mehanizama loma zgrada razmatranjem statičke neodređenosti i kinematičke stabilnosti
EP  - 494
IS  - 11-12
SP  - 481
VL  - 68
UR  - https://hdl.handle.net/21.15107/rcub_rims_755
ER  - 

@article{
author = "Ćosić, Mladen and Brčić, Stanko",
year = "2014",
abstract = "U radu je prikazan koncept analize mehanizama loma zgrada bazirajući se na osnovnim stavovima iz statike konstrukcija, razmatrajući statičku neodređenost i kinematičku stabilnost. Istraživanje je sprovedeno modelirajući mehanizme loma koji se uobičajeno javljaju kod zgrada izloženih dejstvu zemljotresa: prema metodi programiranog ponašanja (CDM - Capacity Design Method), “jaki stubovi - slabe grede”, “slabi stubovi - jake grede”, “meki sprat”, “fleksibilno prizemlje”, “diskontinuitet krutosti”, uticaj krutog parapeta, sistem sa konzolnim delom, sistemi neregularni po visini, sistem ukrućen vertikalnim armiranobetonskim zidom i sa izmeštenim delom zida u prizemlju. Takođe, razmatrani su i složeni mehanizmi loma koji se javljaju kao kombinacija čistih ili parcijalno razvijenih više prethodno nabrojanih mehanizama loma.",
journal = "Časopis Izgradnja",
title = "Analiza mehanizama loma zgrada razmatranjem statičke neodređenosti i kinematičke stabilnosti",
pages = "494-481",
number = "11-12",
volume = "68",
url = "https://hdl.handle.net/21.15107/rcub_rims_755"
}

Ćosić, M.,& Brčić, S.. (2014). Analiza mehanizama loma zgrada razmatranjem statičke neodređenosti i kinematičke stabilnosti. in Časopis Izgradnja, 68(11-12), 481-494.
https://hdl.handle.net/21.15107/rcub_rims_755

Ćosić M, Brčić S. Analiza mehanizama loma zgrada razmatranjem statičke neodređenosti i kinematičke stabilnosti. in Časopis Izgradnja. 2014;68(11-12):481-494.
https://hdl.handle.net/21.15107/rcub_rims_755 .

Ćosić, Mladen, Brčić, Stanko, "Analiza mehanizama loma zgrada razmatranjem statičke neodređenosti i kinematičke stabilnosti" in Časopis Izgradnja, 68, no. 11-12 (2014):481-494,
https://hdl.handle.net/21.15107/rcub_rims_755 .

TY  - JOUR
AU  - Ćosić, Mladen
AU  - Brčić, Stanko
PY  - 2014
UR  - http://rims.institutims.rs/handle/123456789/758
AB  - This paper presents the original method of controlled building damage mechanisms based on Nonlinear Static Pushover Analysis (NSPA-DMBD). The optimal building damage mechanism is determined based on the solution of the Capacity Design Method (CDM), and the response of the building is considered in incremental situations. The development of damage mechanism of a system in such incremental situations is being controlled on the strain level, examining the relationship of current and limit strains in concrete and reinforcement steel. The correction of cross-section, in which the strain limit is reached, is being implemented by redesigning, and then the process of the NSPA building analysis is being repeated. Since the procedure of the system damage mechanism analysis according to the NSPA-DMBD method is being iteratively implemented and designing checked after the strain reaches the limit, for this analysis a term Iterative-Interactive Design (IID) has been introduced. By selecting, monitoring and controlling the optimal damage mechanism of the system and by developed NSPA-DMBD method, damage mechanism of the building is being controlled and the level of resistance to an early collapse is being increased.
T2  - Facta Universitatis, Series: Architecture and Civil Engineering
T1  - The Development of Controlled Damage Mechanisms-Based Design Method for Nonlinear Static Pushover Analysis
EP  - 40
IS  - 1
SP  - 25
VL  - 12
DO  - 10.2298/fuace1401025c
ER  - 

@article{
author = "Ćosić, Mladen and Brčić, Stanko",
year = "2014",
abstract = "This paper presents the original method of controlled building damage mechanisms based on Nonlinear Static Pushover Analysis (NSPA-DMBD). The optimal building damage mechanism is determined based on the solution of the Capacity Design Method (CDM), and the response of the building is considered in incremental situations. The development of damage mechanism of a system in such incremental situations is being controlled on the strain level, examining the relationship of current and limit strains in concrete and reinforcement steel. The correction of cross-section, in which the strain limit is reached, is being implemented by redesigning, and then the process of the NSPA building analysis is being repeated. Since the procedure of the system damage mechanism analysis according to the NSPA-DMBD method is being iteratively implemented and designing checked after the strain reaches the limit, for this analysis a term Iterative-Interactive Design (IID) has been introduced. By selecting, monitoring and controlling the optimal damage mechanism of the system and by developed NSPA-DMBD method, damage mechanism of the building is being controlled and the level of resistance to an early collapse is being increased.",
journal = "Facta Universitatis, Series: Architecture and Civil Engineering",
title = "The Development of Controlled Damage Mechanisms-Based Design Method for Nonlinear Static Pushover Analysis",
pages = "40-25",
number = "1",
volume = "12",
doi = "10.2298/fuace1401025c"
}

Ćosić, M.,& Brčić, S.. (2014). The Development of Controlled Damage Mechanisms-Based Design Method for Nonlinear Static Pushover Analysis. in Facta Universitatis, Series: Architecture and Civil Engineering, 12(1), 25-40.
https://doi.org/10.2298/fuace1401025c

Ćosić M, Brčić S. The Development of Controlled Damage Mechanisms-Based Design Method for Nonlinear Static Pushover Analysis. in Facta Universitatis, Series: Architecture and Civil Engineering. 2014;12(1):25-40.
doi:10.2298/fuace1401025c .

Ćosić, Mladen, Brčić, Stanko, "The Development of Controlled Damage Mechanisms-Based Design Method for Nonlinear Static Pushover Analysis" in Facta Universitatis, Series: Architecture and Civil Engineering, 12, no. 1 (2014):25-40,
https://doi.org/10.2298/fuace1401025c . .

TY  - CONF
AU  - Brčić, Stanko
AU  - Ćosić, Mladen
PY  - 2014
UR  - http://rims.institutims.rs/handle/123456789/738
AB  - Applied Element Method (AEM), as the relatively new (15-20 years old) and little known numerical method is presented in the paper, first generally, and then with particular reference to dynamic and seismic analysis. Using the AEM it is possible to efficiently and successively solve most of the structural problems that could be also analyzed by the Finite Element Method(FEM). On the other hand, there are various classes of problems that could not be solved by the FEM, but could be efficiently treated using the AEM, such as the crack development, failure, progressive collapse, impacts, etc.
PB  - Savez građevinskih inženjera Srbije
C3  - 4th International Conference of Earthquake Engineering and Engineering Seismology, Borsko jezero, Serbia
T1  - Applied Element Method (AEM) in Dynamic and Seismic Analysis
EP  - 292
SP  - 285
UR  - https://hdl.handle.net/21.15107/rcub_rims_738
ER  - 

@conference{
author = "Brčić, Stanko and Ćosić, Mladen",
year = "2014",
abstract = "Applied Element Method (AEM), as the relatively new (15-20 years old) and little known numerical method is presented in the paper, first generally, and then with particular reference to dynamic and seismic analysis. Using the AEM it is possible to efficiently and successively solve most of the structural problems that could be also analyzed by the Finite Element Method(FEM). On the other hand, there are various classes of problems that could not be solved by the FEM, but could be efficiently treated using the AEM, such as the crack development, failure, progressive collapse, impacts, etc.",
publisher = "Savez građevinskih inženjera Srbije",
journal = "4th International Conference of Earthquake Engineering and Engineering Seismology, Borsko jezero, Serbia",
title = "Applied Element Method (AEM) in Dynamic and Seismic Analysis",
pages = "292-285",
url = "https://hdl.handle.net/21.15107/rcub_rims_738"
}

Brčić, S.,& Ćosić, M.. (2014). Applied Element Method (AEM) in Dynamic and Seismic Analysis. in 4th International Conference of Earthquake Engineering and Engineering Seismology, Borsko jezero, Serbia
Savez građevinskih inženjera Srbije., 285-292.
https://hdl.handle.net/21.15107/rcub_rims_738

Brčić S, Ćosić M. Applied Element Method (AEM) in Dynamic and Seismic Analysis. in 4th International Conference of Earthquake Engineering and Engineering Seismology, Borsko jezero, Serbia. 2014;:285-292.
https://hdl.handle.net/21.15107/rcub_rims_738 .

Brčić, Stanko, Ćosić, Mladen, "Applied Element Method (AEM) in Dynamic and Seismic Analysis" in 4th International Conference of Earthquake Engineering and Engineering Seismology, Borsko jezero, Serbia (2014):285-292,
https://hdl.handle.net/21.15107/rcub_rims_738 .

TY  - JOUR
AU  - Ćosić, Mladen
AU  - Brčić, Stanko
PY  - 2013
UR  - http://rims.institutims.rs/handle/123456789/757
AB  - This paper presents a typology of pushover curves and the originally developed pushover surfaces based on the generalization of the nonlinear response of the 3D system to the earthquake action. By determination and analysis of the NSPA (Nonlinear Static Pushover Analysis) pushover surface, it is possible to obtain a more complex and a more complete insight of the response and performance of 3D models of structures exposed to the bidirectional seismic action. The setting which served as a base for the development of the mathematical formulation and generation of the NSPA pushover surface presents the application of NSPA pushover curve for the response of the system in one direction. By integrating the system responses for a number of directions, i.e. attac angles of directions of earthquake action, the presentation of the 3D response of the system in the capacity domain is achieved. The typology of NSPA pushover curves is derived as a function of the existence of linear, nonlinear and collapse subdomain, and also considerations are made taking into account the nonlinear stiffness and ductility class of the system. The typology of NSPA pushover surface is derived based on the generalized model of the system response through ductility, ductility in hardening/softening zone and a coefficient of the relationship of stiffness in the nonlinear and linear domain, based on which it is possible to create systems of different stiffness, strength and ductility. The research presented in this paper defines the typological models of NSPA pushover surfaces based on which further discussion can be done on real pushover surfaces of 3D models of structures with a more complex, particularly non-symetric geometry, as well as variation of responses of the system due to bidirectional seismic actions.
T2  - Gradjevinski materijali i konstrukcije
T1  - Typology of NSPA Pushover Curves and Surfaces for 3D Performance-Based Seismic Response of Structures
T1  - Tipologija NSPA pushover krivih i površi za 3D seizmički odgovor konstrukcija prema performansama
EP  - 38
IS  - 4
SP  - 19
VL  - 56
DO  - 10.5937/grmk1304019c
ER  - 

@article{
author = "Ćosić, Mladen and Brčić, Stanko",
year = "2013",
abstract = "This paper presents a typology of pushover curves and the originally developed pushover surfaces based on the generalization of the nonlinear response of the 3D system to the earthquake action. By determination and analysis of the NSPA (Nonlinear Static Pushover Analysis) pushover surface, it is possible to obtain a more complex and a more complete insight of the response and performance of 3D models of structures exposed to the bidirectional seismic action. The setting which served as a base for the development of the mathematical formulation and generation of the NSPA pushover surface presents the application of NSPA pushover curve for the response of the system in one direction. By integrating the system responses for a number of directions, i.e. attac angles of directions of earthquake action, the presentation of the 3D response of the system in the capacity domain is achieved. The typology of NSPA pushover curves is derived as a function of the existence of linear, nonlinear and collapse subdomain, and also considerations are made taking into account the nonlinear stiffness and ductility class of the system. The typology of NSPA pushover surface is derived based on the generalized model of the system response through ductility, ductility in hardening/softening zone and a coefficient of the relationship of stiffness in the nonlinear and linear domain, based on which it is possible to create systems of different stiffness, strength and ductility. The research presented in this paper defines the typological models of NSPA pushover surfaces based on which further discussion can be done on real pushover surfaces of 3D models of structures with a more complex, particularly non-symetric geometry, as well as variation of responses of the system due to bidirectional seismic actions.",
journal = "Gradjevinski materijali i konstrukcije",
title = "Typology of NSPA Pushover Curves and Surfaces for 3D Performance-Based Seismic Response of Structures, Tipologija NSPA pushover krivih i površi za 3D seizmički odgovor konstrukcija prema performansama",
pages = "38-19",
number = "4",
volume = "56",
doi = "10.5937/grmk1304019c"
}

Ćosić, M.,& Brčić, S.. (2013). Typology of NSPA Pushover Curves and Surfaces for 3D Performance-Based Seismic Response of Structures. in Gradjevinski materijali i konstrukcije, 56(4), 19-38.
https://doi.org/10.5937/grmk1304019c

Ćosić M, Brčić S. Typology of NSPA Pushover Curves and Surfaces for 3D Performance-Based Seismic Response of Structures. in Gradjevinski materijali i konstrukcije. 2013;56(4):19-38.
doi:10.5937/grmk1304019c .

Ćosić, Mladen, Brčić, Stanko, "Typology of NSPA Pushover Curves and Surfaces for 3D Performance-Based Seismic Response of Structures" in Gradjevinski materijali i konstrukcije, 56, no. 4 (2013):19-38,
https://doi.org/10.5937/grmk1304019c . .

TY  - JOUR
AU  - Ćosić, Mladen
AU  - Brčić, Stanko
PY  - 2012
UR  - http://rims.institutims.rs/handle/123456789/616
AB  - U radu je dat prikaz metodologije za pripremu i obradu akcelerograma koji se koriste za
seizmički proračun konstrukcija. Definisani su termini i detaljnije obrazložene procedure koje
se sprovode nad akcelerogramima kao što su: selekcija, formatiranje, konvertovanje, skaliranje,
kalkulacija, procesiranje, kompatibilizacija, normalizacija, filtriranje, generisanje i transformacija.
Ove procedure se izvršavaju u vremenskom, frekventnom, FFT frekventnom, FFT frekventno-
vremenskom i kapacitativnom domenu. Jasno su postavljene granice između procedura
definisanjem termina za svaku po na osob, tako da su pojedine procedure međusobno autonomne,
ali sa druge strane matematičke formulacije i fizikalnost problema određenih procedura se
preklapaju ili su komplementarne.
T2  - Časopis Izgradnja
T1  - Metodologija pripreme i obrade akcelerograma za linearne i nelinearne seizmičke analize konstrukcija
EP  - 526
IS  - 11-12
SP  - 511
VL  - 66
UR  - https://hdl.handle.net/21.15107/rcub_rims_616
ER  - 

@article{
author = "Ćosić, Mladen and Brčić, Stanko",
year = "2012",
abstract = "U radu je dat prikaz metodologije za pripremu i obradu akcelerograma koji se koriste za
seizmički proračun konstrukcija. Definisani su termini i detaljnije obrazložene procedure koje
se sprovode nad akcelerogramima kao što su: selekcija, formatiranje, konvertovanje, skaliranje,
kalkulacija, procesiranje, kompatibilizacija, normalizacija, filtriranje, generisanje i transformacija.
Ove procedure se izvršavaju u vremenskom, frekventnom, FFT frekventnom, FFT frekventno-
vremenskom i kapacitativnom domenu. Jasno su postavljene granice između procedura
definisanjem termina za svaku po na osob, tako da su pojedine procedure međusobno autonomne,
ali sa druge strane matematičke formulacije i fizikalnost problema određenih procedura se
preklapaju ili su komplementarne.",
journal = "Časopis Izgradnja",
title = "Metodologija pripreme i obrade akcelerograma za linearne i nelinearne seizmičke analize konstrukcija",
pages = "526-511",
number = "11-12",
volume = "66",
url = "https://hdl.handle.net/21.15107/rcub_rims_616"
}

Ćosić, M.,& Brčić, S.. (2012). Metodologija pripreme i obrade akcelerograma za linearne i nelinearne seizmičke analize konstrukcija. in Časopis Izgradnja, 66(11-12), 511-526.
https://hdl.handle.net/21.15107/rcub_rims_616

Ćosić M, Brčić S. Metodologija pripreme i obrade akcelerograma za linearne i nelinearne seizmičke analize konstrukcija. in Časopis Izgradnja. 2012;66(11-12):511-526.
https://hdl.handle.net/21.15107/rcub_rims_616 .

Ćosić, Mladen, Brčić, Stanko, "Metodologija pripreme i obrade akcelerograma za linearne i nelinearne seizmičke analize konstrukcija" in Časopis Izgradnja, 66, no. 11-12 (2012):511-526,
https://hdl.handle.net/21.15107/rcub_rims_616 .