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Author: Eyitayo Opabola Publisher: ISBN: Category : Languages : en Pages : 0
Book Description
The 2010-11 Canterbury and 2016 Kaikoura seismic events led to the identification of several vulnerabilities in existing older-type and modern reinforced concrete (RC) frame structures. By mid-2017, the New Zealand parliament approved the Building Amendment Act 2016 which set new requirements for managing earthquake-prone structures. However, owing to a lack of sufficient knowledge on the seismic response of reinforced concrete (RC) frame structures on the global and component level, codified seismic assessment provisions in New Zealand and overseas are inherently conservative or not suited for structures with specific vulnerabilities; leading to unwarranted retrofits or building closures. Aside from the over-exaggerated risks to community seismic resilience, the high costs of these unwarranted retrofits pose a significant financial burden on New Zealand's economy. To address this, the main objective of this research is to develop refined seismic assessment provisions that can be adopted for the identification and intervention prioritisation of the most earthquake-vulnerable structures. A survey of the NZ assessment guidelines and overseas standards highlighted specific provisions that need to be improved. These include provisions for: (a) evaluating the yield rotation of beam-column RC components; (b) accounting for the influence of biaxial seismic demands on RC columns; (c) assessment of beam-column RC components susceptible to single-crack plastic hinge response; and (d) accounting for uncertainty in component failure mode in seismic assessment of frame structures. This thesis has been developed to address each of the aforementioned issues. Using a collated experimental database of columns, beams and coupling beams with normal- and high-strength longitudinal steel, simple mechanistic formulations were developed for estimating the yield rotation and effective stiffness of beam-column components. The proposed formulations explicitly account for the contribution of bar slip and shear deformations, as a function of aspect ratio, using a proposed coefficient. To address the absence of specific provisions for accounting for the influence of biaxial seismic demands on RC columns, a dataset of past tests on columns subjected to biaxial lateral demands was collated. Analysis of the dataset was used to identify the characteristics and effects of biaxial lateral displacement paths on the seismic response of RC columns. Using the available ii dataset, recommendations were provided on how the influence of biaxial lateral load on lateral strength, deformation capacity, and stiffness degradation can be accounted for. A failure mode-based approach was proposed to improve provisions for seismic assessment of components susceptible to single-crack plastic hinge response. Firstly, a database of past tests on columns with smooth reinforcement was collated. This database was then used to validate a proposed mechanistic formulation for estimating the rocking capacity of columns with smooth reinforcement. Furthermore, an experimental program was carried out on six full-scale beams which are replicas of beams observed to have exhibited a single-crack plastic hinge response following the 2016 Kaikoura earthquake. This experimental program provides data on seismic performance, repairability, and residual capacity of beams with curtailed bar detailing. Using these test data, formulations were proposed for seismic assessment of beams with curtailed bar detailing. The final part of this thesis focuses on a probabilistic failure mode-based approach. Experimental and analytical studies were carried out to demonstrate the existence and influence of component failure mode variability on the collapse response of RC components and frame systems. This source of uncertainty was previously neither recognised nor incorporated into probabilistic seismic assessment frameworks. It was shown that nominally identical components may exhibit different failure modes due to inherent material uncertainty, strain rate and displacement history effects. To account for this, a failure mode transition zone was defined to identify components susceptible to failure mode variability. Furthermore, a probabilistic framework was proposed to account for the influence of failure mode variability in component collapse fragility estimate. The study was concluded by developing a framework for incorporating uncertainty in the global collapse mechanism into the performance-based earthquake engineering (PBEE) framework.
Author: Eyitayo Opabola Publisher: ISBN: Category : Languages : en Pages : 0
Book Description
The 2010-11 Canterbury and 2016 Kaikoura seismic events led to the identification of several vulnerabilities in existing older-type and modern reinforced concrete (RC) frame structures. By mid-2017, the New Zealand parliament approved the Building Amendment Act 2016 which set new requirements for managing earthquake-prone structures. However, owing to a lack of sufficient knowledge on the seismic response of reinforced concrete (RC) frame structures on the global and component level, codified seismic assessment provisions in New Zealand and overseas are inherently conservative or not suited for structures with specific vulnerabilities; leading to unwarranted retrofits or building closures. Aside from the over-exaggerated risks to community seismic resilience, the high costs of these unwarranted retrofits pose a significant financial burden on New Zealand's economy. To address this, the main objective of this research is to develop refined seismic assessment provisions that can be adopted for the identification and intervention prioritisation of the most earthquake-vulnerable structures. A survey of the NZ assessment guidelines and overseas standards highlighted specific provisions that need to be improved. These include provisions for: (a) evaluating the yield rotation of beam-column RC components; (b) accounting for the influence of biaxial seismic demands on RC columns; (c) assessment of beam-column RC components susceptible to single-crack plastic hinge response; and (d) accounting for uncertainty in component failure mode in seismic assessment of frame structures. This thesis has been developed to address each of the aforementioned issues. Using a collated experimental database of columns, beams and coupling beams with normal- and high-strength longitudinal steel, simple mechanistic formulations were developed for estimating the yield rotation and effective stiffness of beam-column components. The proposed formulations explicitly account for the contribution of bar slip and shear deformations, as a function of aspect ratio, using a proposed coefficient. To address the absence of specific provisions for accounting for the influence of biaxial seismic demands on RC columns, a dataset of past tests on columns subjected to biaxial lateral demands was collated. Analysis of the dataset was used to identify the characteristics and effects of biaxial lateral displacement paths on the seismic response of RC columns. Using the available ii dataset, recommendations were provided on how the influence of biaxial lateral load on lateral strength, deformation capacity, and stiffness degradation can be accounted for. A failure mode-based approach was proposed to improve provisions for seismic assessment of components susceptible to single-crack plastic hinge response. Firstly, a database of past tests on columns with smooth reinforcement was collated. This database was then used to validate a proposed mechanistic formulation for estimating the rocking capacity of columns with smooth reinforcement. Furthermore, an experimental program was carried out on six full-scale beams which are replicas of beams observed to have exhibited a single-crack plastic hinge response following the 2016 Kaikoura earthquake. This experimental program provides data on seismic performance, repairability, and residual capacity of beams with curtailed bar detailing. Using these test data, formulations were proposed for seismic assessment of beams with curtailed bar detailing. The final part of this thesis focuses on a probabilistic failure mode-based approach. Experimental and analytical studies were carried out to demonstrate the existence and influence of component failure mode variability on the collapse response of RC components and frame systems. This source of uncertainty was previously neither recognised nor incorporated into probabilistic seismic assessment frameworks. It was shown that nominally identical components may exhibit different failure modes due to inherent material uncertainty, strain rate and displacement history effects. To account for this, a failure mode transition zone was defined to identify components susceptible to failure mode variability. Furthermore, a probabilistic framework was proposed to account for the influence of failure mode variability in component collapse fragility estimate. The study was concluded by developing a framework for incorporating uncertainty in the global collapse mechanism into the performance-based earthquake engineering (PBEE) framework.
Author: Tiago Miguel Ferreira Publisher: MDPI ISBN: 3039212575 Category : Technology & Engineering Languages : en Pages : 184
Book Description
This book is a printed edition of the Special Issue Reducing the Seismic Vulnerability of Existing Buildings: Assessment and Retrofit that was published in Buildings
Author: Ozan Cem Celik Publisher: VDM Publishing ISBN: 9783836464154 Category : Architecture Languages : en Pages : 152
Book Description
This book presents a set of probability-based tools for efficient uncertainty analysis and for seismic vulnerability and risk assessment of structures, and illustrates the use of these tools in evaluating the potential impact of future earthquakes that may occur in the New Madrid Seismic Zone on reinforced concrete frames in the Central and Eastern United States. Due to the lack of natural strong motion records in this low-to-moderate seismic region, synthetic earthquake ground motions developed in recent seismological research are used in nonlinear finite element-based time history analyses to determine the seismic demand on the gravity load designed (GLD) frames. Seismic fragilities that incorporate various sources of uncertainty are formulated for low-, mid-, and high-rise GLD frames, and are used in the performance appraisal of the building frame inventory in Memphis, TN. This fragility assessment indicates that traditional GLD reinforced concrete frames may not meet the life safety and collapse prevention performance objectives that are stipulated in recent building codes and guidelines for performance-based earthquake engineering. The intended audience of this book is researchers and professional engineers involved with the performance assessment of existing buildings for upgraded seismic resistance.
Author: Tiago Miguel Ferreira Publisher: Woodhead Publishing ISBN: 0128240725 Category : Technology & Engineering Languages : en Pages : 396
Book Description
Seismic Vulnerability Assessment of Civil Engineering Structures at Multiple Scales: From Single Buildings to Large-Scale Assessment provides an integrated, multiscale platform for fundamental and applied studies on the seismic vulnerability assessment of civil engineering structures, including buildings with different materials and building typologies. The book shows how various outputs obtained from different scales and layers of assessment (from building scale to the urban area) can be used to outline and implement effective risk mitigation, response and recovery strategies. In addition, it highlights how significant advances in earthquake engineering research have been achieved with the rise of new technologies and techniques. The wide variety of construction and structural systems associated with the complex behavior of their materials significantly limits the application of current codes and building standards to the existing building stock, hence this book is a welcomed guide on new construction standards and practices. Provides the theoretical backgrounds on the most advanced seismic vulnerability assessment approaches at different scales and for most common building typologies Covers the most common building typologies and the materials they are made from, such as concrete, masonry, steel, timber and raw earth Presents practical guidelines on how the outputs coming from such approaches can be used to outline effective risk mitigation and emergency planning strategies
Author: Moustafa Moufid Kassem Publisher: Springer Nature ISBN: 9819950384 Category : Technology & Engineering Languages : en Pages : 100
Book Description
This book represents a significant step toward a new contribution in the process of developing the seismic vulnerability index. This is accomplished by releasing or reducing the role of the rapid visual screening that is created by the opinions and decisions of experts, which depend on observations made while investigating the vulnerability damages caused by earthquakes. Alternatively, the computational analytical technique is preferable since it can be effective in determining the seismic vulnerability index before the occurrence of an earthquake by modeling the most affected influencing parameters that regulate the building performance. In addition, the seismic vulnerability index is supported by the vulnerability curves, which describe the probability of damages and are used to estimate the economic damage grade for each building which is the topic of inquiry. In the end, this helps to establish a clear vision and sort of recommendations for engineers and specialists to follow in order to take into consideration certain indices and factors before designing any specific structure. Because of this, the simplified work is utilized to manage and put into action measures that will protect against the effects of seismic events before an earthquake really occurs. In addition to this benefit, the work that has been done is of significant assistance to the authorities that are accountable for the restoration of the preexisting buildings and the cultural heritages.
Author: S. Tanvir Wasti Publisher: Springer Science & Business Media ISBN: 9401000212 Category : Technology & Engineering Languages : en Pages : 562
Book Description
The present volume contains a total of 23 papers centred on the research area of Seismic Assessment and Rehabilitation of Existing Buildings. This subject also forms the core of Project SfP977231, sponsored by the NATO Science for Peace Office and supported by the Scientific and Technical Research Council of Turkey [ TUBIT AK ]. Most of these papers were presented by the authors at a NATO Science for Peace Workshop held in Izmir on 13 - 14 May, 2003 and reflect a part of their latest work conducted within the general confines of the title of the NATO Project. Middle East Technical University, Ankara, Turkey serves as the hub of Project SfP977231 and coordinates research under the project with universities within Turkey, e. g. Istanbul Technical University and Kocaeli University, and with partner institutions in Greece and the Former Yugoslav Republic of Macedonia: A few articles have also been contributed by invited experts, who are all noted researchers in the field. Altogether, the contents of the volume deal with a vast array of problems in Seismic Assessment and Rehabilitation and cover a wide range of possible solutions, techniques and proposals. It is intended to touch upon many of these aspects separately below. Earthquakes constitute possibly the most widely spread and also the most feared of natural hazards. Recent earthquakes within the first six months of 2003, such as the Bingol Earthquake in Turkey and the Algerian earthquake, have caused both loss of life and severe damage to property.
Author: American Society of Civil Engineers Publisher: Amer Society of Civil Engineers ISBN: 9780784406700 Category : Technology & Engineering Languages : en Pages : 446
Book Description
Provides a three-tiered process for seismic evaluation of existing buildings in any level of seismicity. This standard is intended to serve as a nationally applicable tool for design professionals, code officials, and building owners looking to seismically evaluate existing buildings. It considers various aspects of building performance.
Author: S Tesfamariam Publisher: Elsevier ISBN: 0857098985 Category : Science Languages : en Pages : 920
Book Description
Earthquakes represent a major risk to buildings, bridges and other civil infrastructure systems, causing catastrophic loss to modern society. Handbook of seismic risk analysis and management of civil infrastructure systems reviews the state of the art in the seismic risk analysis and management of civil infrastructure systems. Part one reviews research in the quantification of uncertainties in ground motion and seismic hazard assessment. Part twi discusses methodologies in seismic risk analysis and management, whilst parts three and four cover the application of seismic risk assessment to buildings, bridges, pipelines and other civil infrastructure systems. Part five also discusses methods for quantifying dependency between different infrastructure systems. The final part of the book considers ways of assessing financial and other losses from earthquake damage as well as setting insurance rates. Handbook of seismic risk analysis and management of civil infrastructure systems is an invaluable guide for professionals requiring understanding of the impact of earthquakes on buildings and lifelines, and the seismic risk assessment and management of buildings, bridges and transportation. It also provides a comprehensive overview of seismic risk analysis for researchers and engineers within these fields. This important handbook reviews the wealth of recent research in the area of seismic hazard analysis in modern earthquake design code provisions and practices Examines research into the analysis of ground motion and seismic hazard assessment, seismic risk hazard methodologies Addresses the assessment of seismic risks to buildings, bridges, water supply systems and other aspects of civil infrastructure
Author: Eyitayo Opabola
Author: Eyitayo Opabola
Author: Tiago Miguel Ferreira
Author: Kerstin Lang
Author: Ozan Cem Celik
Author: Aydın Öztemel
Author: Tiago Miguel Ferreira
Author: Moustafa Moufid Kassem
Author: S. Tanvir Wasti
Author: American Society of Civil Engineers
Author: S Tesfamariam