Seismic Behaviour and Design of Irregular and Complex Civil Structures III

While many analysts have commented on the representation of 1968 campus events and antiwar demonstrations, less attention has been paid to the global significance of the dramatic struggles in industrial Detroit during the period. The meanings of events in the city were intensely fought over. As Stuart Hall, Chas Critcher, Tony Jefferson, John Clarke, and Brian Roberts observed, the events of 1968 were “an act of collective will, the breaks and ruptures stemming from the rapid expansion in the ideology, culture and civil structures of the new capitalism . . . in the form of a ‘crisis of authority.’” In Detroit the crisis of authority was expressed in the form of popular political struggles against racism, state violence, and the contradictions of life in the industrial capitalist city. This article asks and answers the following research questions about the struggle over the meaning of this decisive turning point in US history: What was the relationship between racial ordering, uneven capitalist development, and mass antiracist and class struggles? How did Black working-class organic intellectuals resist and alter hegemonic definitions of the situation? How are the dialectics of insurgency and counterinsurgency to be best theorized during this precise historical conjuncture?

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Inclusion of Aircraft Crash into NPP Design Bases and Probabilistic Justification of Loads on Civil Structures and Equipment

Earthquake Engineering. Construction Safety ◽

10.37153/2618-9283-2020-1-35-47 ◽

2020 ◽

pp. 35-47

Author(s):

Nikita Chernukha

Keyword(s):

Nuclear Power ◽

Response Spectra ◽

Mechanical Action ◽

Exceedance Probability ◽

Civil Structures ◽

Method Of Calculation ◽

Floor Response Spectra ◽

Aircraft Trajectory ◽

Probabilistic Justification ◽

Aircraft Crash

The article is about nuclear power plant (NPP) safety analysis in case of aircraft crash. Specifically, the article considers the following problems: inclusion of aircraft crash into NPP design bases regarding calculation of frequency of an aircraft crash into NPP; aspects of justification of loads on NPP structures, systems and components (SSCs) caused by mechanical action of a primary missile – aircraft fuselage impact. Probabilistic characteristics of such random parameters as frequency of aircraft crash and direction of aircraft trajectory are determined by the results of analysis of world statistics of aviation accidents. Method of calculation of aircraft crash frequency on structures, buildings and NPP as a whole is presented. It takes into account options of accidental and intentional aircraft crashes and various aircraft approach scenarios. Procedure of probabilistic justification of loads on civil structures under aircraft impact is described. The loads are specified so as not to exceed allowable value of failure probability of NPP as a whole. Calculation of failure frequency of civil structures of existing NPP is given as an example to show analysis in case of a crash of an aircraft heavier than considered in NPP design. Procedure of probabilistic justification of dynamic loads on NPP equipment in case of aircraft impact is described. Method of floor response spectra (FRS) calculation with the required non-exceedance probability is given. Probabilistically justified loads in case of intentional aircraft impact (act of terrorism) are also considered. Additionally it is presented how internal forces calculated with the use of FRS with the required non-exceedance probability can be summed to provide analysis of subsystems.

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Application of the Subspace-Based Methods in Health Monitoring of Civil Structures: A Systematic Review and Meta-Analysis

Applied Sciences ◽

10.3390/app10103607 ◽

2020 ◽

Vol 10 (10) ◽

pp. 3607

Author(s):

Hoofar Shokravi ◽

Hooman Shokravi ◽

Norhisham Bakhary ◽

Mahshid Heidarrezaei ◽

Seyed Saeid Rahimian Koloor ◽

...

Keyword(s):

System Identification ◽

Systematic Reviews ◽

Health Monitoring ◽

Meta Analysis ◽

Civil Structures ◽

Literature Reviews ◽

Research Gap ◽

Meta Analyses ◽

Subspace System Identification ◽

Insight Into

A large number of research studies in structural health monitoring (SHM) have presented, extended, and used subspace system identification. However, there is a lack of research on systematic literature reviews and surveys of studies in this field. Therefore, the current study is undertaken to systematically review the literature published on the development and application of subspace system identification methods. In this regard, major databases in SHM, including Scopus, Google Scholar, and Web of Science, have been selected and preferred reporting items for systematic reviews and meta-analyses (PRISMA) has been applied to ensure complete and transparent reporting of systematic reviews. Along this line, the presented review addresses the available studies that employed subspace-based techniques in the vibration-based damage detection (VDD) of civil structures. The selected papers in this review were categorized into authors, publication year, name of journal, applied techniques, research objectives, research gap, proposed solutions and models, and findings. This study can assist practitioners and academicians for better condition assessment of structures and to gain insight into the literature.

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Experimental investigation on the seismic behaviour of innovative self-centring precast steel-concrete hybrid frames

Engineering Structures ◽

10.1016/j.engstruct.2021.112222 ◽

2021 ◽

Vol 239 ◽

pp. 112222

Author(s):

Yong Yang ◽

Shiqiang Feng ◽

Yicong Xue ◽

Yunlong Yu

Keyword(s):

Experimental Investigation ◽

Seismic Behaviour ◽

Hybrid Frames

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Numerical Modelling of Reinforced Concrete Slender Walls Subjected to Coupled Axial Tension–Flexure

International Journal of Concrete Structures and Materials ◽

10.1186/s40069-021-00471-y ◽

2021 ◽

Vol 15 (1) ◽

Author(s):

Xiaowei Cheng ◽

Haoyou Zhang

Keyword(s):

Reinforced Concrete ◽

Plastic Hinge ◽

Element Model ◽

Lateral Loading ◽

Design Parameters ◽

Seismic Behaviour ◽

High Rise ◽

Ultimate Deformation ◽

Axial Tension ◽

Plastic Hinge Length

AbstractUnder strong earthquakes, reinforced concrete (RC) walls in high-rise buildings, particularly in wall piers that form part of a coupled or core wall system, may experience coupled axial tension–flexure loading. In this study, a detailed finite element model was developed in VecTor2 to provide an effective tool for the further investigation of the seismic behaviour of RC walls subjected to axial tension and cyclic lateral loading. The model was verified using experimental data from recent RC wall tests under axial tension and cyclic lateral loading, and results showed that the model can accurately capture the overall response of RC walls. Additional analyses were conducted using the developed model to investigate the effect of key design parameters on the peak strength, ultimate deformation capacity and plastic hinge length of RC walls under axial tension and cyclic lateral loading. On the basis of the analysis results, useful information were provided when designing or assessing the seismic behaviour of RC slender walls under coupled axial tension–flexure loading.

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Fragility curves for Italian URM buildings based on a hybrid method

Bulletin of Earthquake Engineering ◽

10.1007/s10518-021-01155-4 ◽

2021 ◽

Author(s):

A. Sandoli ◽

G. P. Lignola ◽

B. Calderoni ◽

A. Prota

Keyword(s):

Seismic Vulnerability ◽

Fragility Curves ◽

Limit State ◽

Ultimate Limit State ◽

Masonry Building ◽

Masonry Buildings ◽

Seismic Behaviour ◽

Building Stock ◽

Ground Acceleration ◽

Damage Scenario

AbstractA hybrid seismic fragility model for territorial-scale seismic vulnerability assessment of masonry buildings is developed and presented in this paper. The method combines expert-judgment and mechanical approaches to derive typological fragility curves for Italian residential masonry building stock. The first classifies Italian masonry buildings in five different typological classes as function of age of construction, structural typology, and seismic behaviour and damaging of buildings observed following the most severe earthquakes occurred in Italy. The second, based on numerical analyses results conducted on building prototypes, provides all the parameters necessary for developing fragility functions. Peak-Ground Acceleration (PGA) at Ultimate Limit State attainable by each building’s class has been chosen as an Intensity Measure to represent fragility curves: three types of curve have been developed, each referred to mean, maximum and minimum value of PGAs defined for each building class. To represent the expected damage scenario for increasing earthquake intensities, a correlation between PGAs and Mercalli-Cancani-Sieber macroseismic intensity scale has been used and the corresponding fragility curves developed. Results show that the proposed building’s classes are representative of the Italian masonry building stock and that fragility curves are effective for predicting both seismic vulnerability and expected damage scenarios for seismic-prone areas. Finally, the fragility curves have been compared with empirical curves obtained through a macroseismic approach on Italian masonry buildings available in literature, underlining the differences between the methods.

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