201 |
Seismic Damage Assessment of Reinforced Concrete Frame Buildings in CanadaAl Mamun, Abdullah January 2017 (has links)
The emphasis on seismic design and assessment of reinforced concrete (RC) frame structure has shifted from force-based to performance-based design and assessment to accommodate strength and ductility for required performance of building. RC frame structure may suffer different levels of damage under seismic-induced ground motions, with potentials for formation of hinges in structural elements, depending on the level of stringency in design. Thus it is required to monitor the seismic behaviour and performance of buildings, which depend on the structural system, year of construction and the level of irregularities in the structural system. It is the objective of the current research project to assess seismic performance of RC frame buildings in Canada, while developing fragility curves as analytical tools for such assessment. This was done through dynamic inelastic analysis by modelling selected building structures and using PERFORM-3D as analysis software, while employing incremental dynamic analysis to generate performance data under incrementally increasing seismic intensity of selected earthquake records. The results lead to probabilistic tools to assess the performance of buildings designed following the National Building Code of Canada in different years of construction with and without irregularities. The research consists of three phases; i) regular buildings designed after 1975, ii) regular buildings designed prior to 1975, and iii) irregular buildings designed prior to 1975. The latter two phases address older buildings prior to the development of modern seismic building codes. All three phases were carried out by selecting and designing buildings in Ottawa, representing the seismic region in eastern Canada, as well as buildings in Vancouver, representing the seismic region in western Canada. Buildings had three heights (2; 5; and 10-stories) to cover a wide range of building periods encountered in practice. The resulting fragility curves indicated that the older buildings showed higher probabilities of exceeding life safety and/or collapse prevention performance levels. Newer buildings showed higher probabilities of exceeding target performance levels in western Canada than those located in the east.
|
202 |
New insights into the competition between ductile tearing and plastic collapse in 304(L) stainless steel componentsWasylyk, Andrew Paul January 2013 (has links)
Structural integrity assessment of nuclear components assessed using the R6 Failure Assessment Diagram approach requires an understanding of the limiting condition in terms of both fracture and plastic collapse. For ductile materials, such as stainless steels used for nuclear components, including the primary pipe-work of a Pressurised Water Reactor (PWR), the limiting condition defined by plastic collapse is likely to occur prior to the initiation of fracture. This is due to the relatively low yield stress of the material and the high fracture toughness. If this is the case, structural integrity may be solely assessed on plastic collapse criteria, with little or no reference to fracture toughness; thus considerably simplifying the assessment procedure, whilst maintaining the integrity of the plant. Nevertheless, an in-depth understanding of fracture under plastic collapse conditions is required to make a robust case for single parameter assessments based on a plastic collapse criterion alone. The challenge in this project lay in understanding and predicting ductile fracture initiation under large-scale yielding conditions, i.e. outside the normal validity limits of conventional elastic-plastic fracture mechanics as plastic collapse conditions are achieved. The approach developed in this research has explored three fracture assessment methods: (a) two parameter fracture mechanics based on the J-integral and a refined Q-parameter calculated closer to the crack-tip under widespread plasticity than is conventionally the case, (b) two local approach methods based on critical void growth ratio defined by Rice and Tracey, and (c) a local approach method based on the critical work of fracture. All three methodologies were found to adequately describe failure across a range of constraint conditions. The fracture toughness constraint dependence of 304(L) stainless steel was studied experimentally and analytically. Significant constraint loss was shown to occur in nominally high constraint fracture toughness specimens due to extensive plastic deformation at fracture initiation. Furthermore, significant fracture toughness constraint dependence was observed experimentally. An analytical method using local approach criteria was developed to predict high constraint fracture toughness, required for structural integrity assessments, and to quantify the constraint dependence fracture toughness as a function of two parameter fracture mechanics based on the J-integral and the refined Q-parameter. The influence of constraint on the prediction of failure in a stainless steel pipe containing a fully circumferential crack of various depths was investigated analytically for a range of loading conditions. A refined constraint independent failure assessment methodology was developed using local approach analyses. Using this methodology, the pipe component was shown to consistently fail by plastic collapse irrespective of the crack depth or loading condition. The conservatism of the conventional structural integrity assessment was quantified and shown to vary with crack depth and with loading conditions. This research has suggested that failure in a 304(L) stainless steel pipe will be by plastic collapse prior to ductile initiation for a limited range of defects and loading conditions. Further analytical studies and experimental work will be required to demonstrate whether this observation is general for a wider range of defects and loading conditions.
|
203 |
Elastoplastická analýza napětí a deformace a stanovení lomových parametrů při tahovém namáhání těles s koncentrátory napětí / Elastoplastic analysis of stress and deformation and determination of fracture parameters of bodies with stress concentrators under tensile loadingDubravec, Kristián January 2021 (has links)
The aim of this thesis is the construction of a diagram of fracture strain for high strength steel OCHN3MFA and its application for the estimation of fracture toughness of this material. The first part of the thesis contains the necessary theoretical framework for numerical modelling of tensile tests of various specimens - smooth specimen, specimen with a notch and specimen with a circumferential crack, it describes the influence of triaxiality on the fracture of bodies and the possibilities of construction of the diagram of fracture strain. Subsequently, a numerical model of these specimens is created using the finite element method (FEM). A non-linear, elastoplastic calculation is performed. Fracture is identified by means of comparing the true stress versus the strain obtained from tests with the finite element analysis results. Stress–strain states of specimens at the moment of fracture are obtained from a numerical model. A diagram of fracture strain is constructed, and it is used to estimate the fracture toughness of a cracked body. Finally, a local approach, which uses the diagram of fracture strain, and a classical approach of fracture mechanics, especially the stress intensity factor, are compared.
|
204 |
Implementace, kalibrace a využití podmínek tvárného lomu v programech MKP / Implementation, Calibration and Application of Ductile Fracture Conditions in FEM ProgramsKubík, Petr January 2015 (has links)
The presented work is concerning with ductile fracture problematic under monotonic loading which is result of gradual material degradation at large plastic deformation. At present, a large number of models, which calibration is not trivial, are used for its prediction. Ductile fracture mechanisms and cut-off region are described in the literature search part. Next, there is given a summary of criteria which are based on different approaches to ductile fracture. There were proposed and used KHPS and KHPS2 criteria within this PhD thesis. Procedure of assessment of the stress-strain curve and ductile fracture criteria calibration are described in last part of the literature search. A summary of tests, which were done in order to calibrate chosen criteria, is given in experimental part. Various stress states within broad range of stress triaxiality and Lode parameter were reached using these tests. Special type of specimen, by which very low stress triaxiality value is reached, was designed within this work. All specimens were made from the steel 12 050. Wrought rods of one melt with circular cross-section of 27 mm in diameter were used as semi-product. Calibration of chosen ductile fracture criteria was performed using foregoing tests. These criteria were implemented by author into explicit finite element software ABAQUS/Explicit using user subroutine VUMAT. Chosen criteria were used for simulation of multistep extrusion at which formation of internal central cracks occurs. These criteria were also used for simulation of cutting of circular cross-section rods. Results from simulation were compared to experiments which were done by industrial partner J-VST.
|
205 |
Case Study To Evaluate Drift Estimation In Non-Ductile Reinforced Concrete Buildings With Foundation Lap-Splices: Numerical Simulation WorkRebeca P Orellana Montano (9029597) 29 June 2020 (has links)
<p>Past earthquake damage
assessments have shown the seismic vulnerability of older non-ductile reinforced
concrete buildings. The life safety-risk these buildings pose has motivated
researchers to study, develop, and improve modeling techniques to better simulate
their behavior with the aim to prioritize retrofits.</p><p><br></p>
<p>This study focuses on the lap
splice detailing at the base of the building in columns, shorter than those
recommended by modern codes which consider seismic effects. Current modeling efforts
in non-ductile reinforced concrete frame structures have considered the
connection at the foundation fixed. This study models the influence of the performance
of short lap splices on the simulation of response of an instrumented perimeter-frame-non-ductile
building located in Van Nuys, California, and to compare results with those of
previous studies of the same building.</p><p><br></p>
<p>The methodology consisted of evaluating
the response of a non-ductile concrete building subjected to a suite of ground
motions through the comparison of three base connections: fixed, pinned, and a
rotational spring modeling the short lap splice. Comparison and performance
evaluation are done on the basis of drift as the main performance metric. In
the building response evaluation flexure and shear forces in frame elements
were also compared using the different base conditions. </p><p><br></p>
<p>The models consist of two-dimensional
frames in orthogonal direction, including interior and exterior frames,
totaling into 4 frames. The dynamic analysis was performed using SAP2000
analysis software. The proposed rotational spring at the base was defined using
the Harajli & Mabsout (2002) bond stress – slip relationship and moment –
curvature sectional analysis, applied to 24d<sub>b</sub> and 36d<sub>b</sub>
lap splices. Deformation considered flexure and slip. Adequacy of shear strength
was checked prior to the analysis to verify that shear failure did not occur
prior to either reaching first yield of the column reinforcement or splice
capacity. </p><p><br></p>
In this study, the response of the frames using the
proposed rotational spring model was found to be between the fixed and pinned
base conditions with regard to roof displacement and interstory drift ratio,
also termed as story drift ratio. The behavior of the frames changed depending
on the yielding of the longitudinal reinforcement, as depicted by the
interstory drift ratio and displacement. The performance of the building frames
also depended on the ground motion. The N-S and E-W direction frame
computational models considered three and four earthquakes, respectively,
totaling to 14 computational models per base condition. Three computational
models out of the 14 with the proposed rotational spring base condition simulated
recorded roof displacement results with accuracy. In the frame simulations
where yielding of most of the column longitudinal bars was not calculated, the
maximum interstory drift occurred in the upper stories, matching column damage
observations during the event. The findings of the study showed that short lap
splice increases the drift and displacement compared to the fixed base supporting
its effect, i.e. the behavior of a non-ductile reinforced concrete case study
building to an earthquake.
|
206 |
Ductile and Compacted Graphite Iron Casting Skin - Evaluation, Effect on Fatigue Strength and EliminationBoonmee, Sarum 20 June 2013 (has links)
No description available.
|
207 |
Distribution and Transport of Water in Natural Quartz Arenites Near Brittle-Ductile Transition ConditionsVanDeVelde, Sharon Ann 15 April 2009 (has links)
No description available.
|
208 |
Effects of Mean Stress and Stress Concentration on Fatigue Behavior of Ductile IronMeyer, Nicholas January 2014 (has links)
No description available.
|
209 |
Locally enhanced voronoi cell finite element model (LE-VCFEM) for ductile fracture in heterogeneous cast aluminum alloysHu, Chao 07 January 2008 (has links)
No description available.
|
210 |
INTEGRATED MULTISCALE CHARACTERIZATION AND MODELING OF DUCTILE FRACTURE IN HETEROGENEOUS ALUMINUM ALLOYSValiveti, Dakshina M. 30 September 2009 (has links)
No description available.
|
Page generated in 0.0366 seconds