Relevant bibliographies by topics / Damage modelling

Contents

  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers
  6. Reports

Academic literature on the topic 'Damage modelling'

Author: Grafiati
Published: 4 June 2021
Last updated: 10 March 2023

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Journal articles on the topic "Damage modelling"

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Dimitrov, S., and E. Schnack. "Damage Modelling Using Dissipation Distances." Key Engineering Materials 251-252 (October 2003): 399–404. http://dx.doi.org/10.4028/www.scientific.net/kem.251-252.399.

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Elenas, Anaxagoras, Yuri Petryna, and Nawawi Chouw. "Structural Damage Modelling and Assessment." Mathematical Problems in Engineering 2014 (2014): 1–2. http://dx.doi.org/10.1155/2014/532345.

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Gertsman, V. Y., and K. Tangri. "Modelling of intergranular damage propagation." Acta Materialia 45, no. 10 (1997): 4107–16. http://dx.doi.org/10.1016/s1359-6454(97)00083-9.

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Davies, G. A. O., X. Zhang, G. Zhou, and S. Watson. "Numerical modelling of impact damage." Composites 25, no. 5 (1994): 342–50. http://dx.doi.org/10.1016/s0010-4361(94)80004-9.

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Sandin, Olle, Pär Jonsén, David Frómeta, and Daniel Casellas. "Stating Failure Modelling Limitations of High Strength Sheets: Implications to Sheet Metal Forming." Materials 14, no. 24 (2021): 7821. http://dx.doi.org/10.3390/ma14247821.

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This article discusses the fracture modelling accuracy of strain-driven ductile fracture models when introducing damage of high strength sheet steel. Numerical modelling of well-known fracture mechanical tests was conducted using a failure and damage model to control damage and fracture evolution. A thorough validation of the simulation results was conducted against results from laboratory testing. Such validations show that the damage and failure model is suited for modelling of material failure and fracture evolution of specimens without damage. However, pre-damaged specimens show less correlation as the damage and failure model over-predicts the displacement at crack initiation with an average of 28%. Consequently, the results in this article show the need for an extension of the damage and failure model that accounts for the fracture mechanisms at the crack tip. Such extension would aid in the improvement of fracture mechanical testing procedures and the modelling of high strength sheet metal manufacturing, as several sheet manufacturing processes are defined by material fracture.
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Bengtsson, A., and C. Nilsson. "Extreme value modelling of storm damage in Swedish forests." Natural Hazards and Earth System Sciences 7, no. 5 (2007): 515–21. http://dx.doi.org/10.5194/nhess-7-515-2007.

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Abstract. Forests cover about 56% of the land area in Sweden and forest damage due to strong winds has been a recurring problem. In this paper we analyse recorded storm damage in Swedish forests for the years 1965–2007. During the period 48 individual storm events with a total damage of 164 Mm³ have been reported with the severe storm on 8 to 9 January 2005, as the worst with 70 Mm³ damaged forest. For the analysis, storm damage data has been normalised to account for the increase in total forest volume over the period. We show that, within the framework of statistical extreme value theory, a Poisson point process model can be used to describe these storm damage events. Damage data supports a heavy-tailed distribution with great variability in damage for the worst storm events. According to the model, and in view of available data, the return period for a storm with damage in size of the severe storm of January 2005 is approximately 80 years, i.e. a storm with damage of this magnitude will happen, on average, once every eighty years. To investigate a possible temporal trend, models with time-dependent parameters have been analysed but give no conclusive evidence of an increasing trend in the normalised storm damage data for the period. Using a non-parametric approach with a kernel based local-likelihood method gives the same result.
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Worswick, M. J., Z. T. Chen, A. K. Pilkey, D. Lloyd, and S. Court. "Damage characterization and damage percolation modelling in aluminum alloy sheet." Acta Materialia 49, no. 14 (2001): 2791–803. http://dx.doi.org/10.1016/s1359-6454(01)00163-x.

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Stolz, Claude. "On damage regularity defect nucleation modelling." International Journal of Solids and Structures 229 (October 2021): 111107. http://dx.doi.org/10.1016/j.ijsolstr.2021.111107.

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del Prete, Antonio, Gabriele Papadia, Teresa Primo, and Emilia Mariano. "Modelling of Damage in Blanking Processes." Key Engineering Materials 554-557 (June 2013): 2432–39. http://dx.doi.org/10.4028/www.scientific.net/kem.554-557.2432.

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Fracturing by ductile damage occurs quite naturally in metal forming process due to the development of microcracks associated with large straining or due to plastic instabilities associated with material behavior and boundary conditions. Metal forming processes generally introduce a certain amount of damage in the material being formed. Predictions of the damage formation and growth in a series of forming steps may assist in optimizing the individual operations and their order. This is particularly true for operations such as cutting and blanking, which rely on the nucleation of damage and cracks in order to separate material. In this work numerical simulation of the blanking process, using Deform 2D, taking in account the damage, has been performed. In order to evaluate the accuracy of the numerical solution, experimental test have been performed. Furthermore a numerical – experimental correlation has been carried out.
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LIU, Y., and S. MAHADEVAN. "Strain-based multiaxial fatigue damage modelling." Fatigue Fracture of Engineering Materials and Structures 28, no. 12 (2005): 1177–89. http://dx.doi.org/10.1111/j.1460-2695.2005.00957.x.

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Dissertations / Theses on the topic "Damage modelling"

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Soyarslan, Celal. "Modelling Damage For Elastoplasticity." Phd thesis, METU, 2009. http://etd.lib.metu.edu.tr/upload/12610300/index.pdf.

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A local isotropic damage coupled hyperelastic-plastic framework is formulated in principal axes where thermo-mechanical extensions are also addressed. It is shown that, in a functional setting, treatment of many damage growth models, including ones originated from phenomenological models (with formal thermodynamical derivations), micro-mechanical models or fracture criteria, proposed in the literature, is possible. Quasi-unilateral damage evolutionary forms are given with special emphasis on the feasibility of formulations in principal axes. Local integration procedures are summarized starting from a full set of seven equations which are simplified step by step initially to two and finally to one where different operator split methodologies such as elastic predictor-plastic/damage corrector (simultaneous plastic-damage solution scheme) and elastic predictor-plastic corrector-damage deteriorator (staggered plasticdamage solution scheme) are given. For regularization of the post peak response with softening due to damage and temperature, Perzyna type viscosity is devised. Analytical forms accompanied with algorithmic expressions including the consistent material tangents are derived and the models are implemented as UMAT and UMATHT subroutines for ABAQUS/Standard, VUMAT subroutines for ABAQUS/Explicit and UFINITE subroutines for MSC.Marc. The subroutines are used in certain application problems including numerical modeling of discrete internal cracks, namely chevron cracks, in direct forward extrusion process where comparison with the experimental facts show the predicting capability of the model, isoerror map production for accuracy assessment of the local integration methods, and development two novel necking triggering methods in the context of a damage coupled environment.
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Almaskari, Fahad. "Modelling Damage in Composite Structures." Thesis, University of Manchester, 2010. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.525981.

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Lee, Hao. "Damage modelling for composite structures." Thesis, University of Manchester, 2015. https://www.research.manchester.ac.uk/portal/en/theses/damage-modelling-for-composite-structures(ee416524-935c-487d-bcd5-282875e6027a).html.

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Modelling damage in composite materials has played an important role in designing composite structures. Although numerical models for the progressive damage in laminated composites (e.g. transverse cracking, delamination and fibre breakage) have been developed in the literature, there is still a need for further improvement. This thesis aimed at developing damage models suitable for predicting intra-laminar and inter-laminar damage behaviour in fibre-reinforced composite materials. Several approaches such as fracture mechanics and continuum damage mechanics have been adopted for constructing the damage model. Meso-macro-mechanics analysis was performed to gain an insight into the entire damage process up to the final failure of the composite laminate under various conditions. Cohesive elements were placed in the finite element model to simulate the initiation and propagation of matrix crack and delamination in cross-ply laminates. This helped to understand the direct interactions between damage modes, i.e. whether one damage mode would initiate the other damage mode. The formation of a single matrix crack and its propagation across the layer thickness was also revealed. A new cohesive zone/interface element model was developed to consider the effect of through-thickness compressive stress on mode II fracture resistance by introducing friction into the constitutive law of the conventional cohesive zone model. Application of the model to practical problem in composite laminates shows that this model can simulate delamination failure more accurately than the cohesive element in ABAQUS.Damage models based on continuum damage mechanics were proposed for predicting intra-laminar damage and interlaminar damage. Five intra-laminar failure modes, fibre tension, fibre compression, matrix tension, matrix compression and shear failure, were modelled. Damage initiation was predicted based on stress/strain failure criteria and damage evolution law was based on fracture energy dissipation. The nonlinear shear behaviour of the material was considered as well. These models have been implemented into ABAQUS via a user-defined material subroutine and validated against experimental/numerical results available in the literature. The issue related to numerical implementation, e.g. convergence in the softening regime, was also addressed. Numerical simulation of the indentation test on filament-wound pipe was finally conducted and damages generated in the pipe were predicted using the above developed damage models. The predictions show an excellent agreement with experimental observations including load/indentation responses and multiple delaminations shape and size. Attempt was made to detect damage-induced leakage path in the pipe after indentation.
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De, Meo Dennj. "Peridynamic modelling of localised corrosion damage." Thesis, University of Strathclyde, 2016. http://digitool.lib.strath.ac.uk:80/R/?func=dbin-jump-full&object_id=27711.

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Due to their unpredictability, rapid growth and difficulty of detection, localised forms of corrosion represent a threat to human life and the environment. The current empirical and semi-empirical approaches used by engineers to hinder corrosion damage have several disadvantages and limitations. In this regard, numerical approaches can be a valuable complement. However, the majority of the numerical techniques currently available in the literature are based on partial differential equations, which become invalid in the presence of field’s discontinuities such as cracks and sharp concentration gradients. In order to overcome these limitations, a recently introduced continuum theory of mechanics based on integro-differential equations, peridynamics, is used for the first time for the modelling of polycrystalline fracture, stress-corrosion cracking, pitting corrosion and crack propagation from corrosion pits in steels exposed to different corrosive environments. The results are validated against experimental data and other numerical results. It was found that the microstructure can have a significant impact on the fracture behaviour of the material, and that aqueous solutions of sulfuric acid can lead to an embrittlement of high-strength steels so severe that the material can fail at stress intensity factors even four times smaller than the value of the fracture toughness. It was also found that peridynamics can be successfully used to reproduce realistic pit morphologies and to model microstructural effects, such as the presence of clusters of cathodic intermetallic particles, which can channel the propagation of corrosion pits. Finally, it was demonstrated that peridynamics can also be used to simulate crack nucleation and propagation from corrosion pits, without the need for any assumption on the location of crack nucleation, which, in contrast, is needed when using other numerical techniques. In conclusion, the results of this study support the idea that the peridynamic models produced as part of this research can be helpful in failure analysis and in the microstructural design of new fracture-resistant and corrosion-resistant materials.
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Bacorisen, Dnyansingh. "Modelling radiation damage in spinel oxides." Thesis, Loughborough University, 2006. https://dspace.lboro.ac.uk/2134/34089.

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In this thesis, defect formation by a radiation event in the normal MgAl2O4 was investigated using molecular dynamics (MD) simulations. The mechanisms and activation barriers for point defects to diffuse were determined using temperature accelerated dynamics (TAD). The role of cation inversion on defect formation and defect diffusion in spinel-structured oxides was analysed by performing the simulations in three spinels: the normal MgAl2O4, the half-inverse MgGa2O4 and the fully inverse MgIn2O4. The methodology employed in this thesis can be utilised for simulations in other ionic materials.
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Obisesan, Abayomi. "Stochastic damage modelling of ship collisions." Thesis, University of Aberdeen, 2017. http://digitool.abdn.ac.uk:80/webclient/DeliveryManager?pid=231845.

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Ship collision accidents are rare events but pose huge threat to human lives, assets, and the environment. Collision resistance of ships is usually assessed in terms of ship structural response such as member displacement, energy dissipation and the extent of damage. Many researchers have sought for effective models that compute ship stochastic response during collisions by considering the variability of collision scenario parameters. However, the models were limited by the capability of the collision computational models and did not completely capture collision scenario, and material and geometric uncertainties. In addition, the simplified models capturing the input-response relationships of the ship structural impact mechanics are in implicit forms which makes them unsuitable for assessing the performance of structural design specifications in collisions. Furthermore, with increasing ship passages in the Arctic region, the probabilities of ship-iceberg interactions are increasing, highlighting the need to focus on risk based ship designs. In this research, a conceptual stochastic modelling framework is developed for performance characterisation and quantitative risk assessment of ship-ship and ship-iceberg collisions. In this direction, an interface for automated stochastic finite element computations was developed to model ship structural resistance in reference collision scenarios. The stochastic structural response was characterised based on the onset of the ship structural failure. The focus was initially on ship-ship collisions to quantify the uncertainties experimentally and to characterise the performance for a variety of striking ships. The framework was then extended to consider probabilistic performance measures in ship-iceberg collisions. The computationally intensive collision response models were captured with efficient surrogate representations so that the performance measures can be obtained with gradient based reliability approaches. The most probable input design sets for the response distribution were sampled with Latin Hypercube models. The probabilistic performance measures were also combined with available collision frequency models from literature for risk computations and to demonstrate the risk tolerance measures. The framework underlines the significance of different risk components, providing valuable guidance for improving risk-based ship designs. Although, a double-hull crude oil carrier is presented as the struck ship, the approach can be readily extended to characterise the performance and risk of other ship structures in collisions.
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Craven, Richard. "Modelling of impact damage in composites." Thesis, Imperial College London, 2009. http://hdl.handle.net/10044/1/6094.

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The work presented in this thesis is a detailed study of impact damage subjected to tensile and compressive loading to determine the stiffness reduction of the damage region and identify the damage mechanisms and important parameters that control the severity of the stiffness reduction. Once the important damage parameters had been indentified a homogenised non-linear soft inclusion model was developed. This represents the mechanical and material behaviour of an impact damage region under tensile and compressive loading in a simple and easy to implement user material format. The influence of different damage parameters was determined by building ply level models of idealised impact damage with delaminations at every ply interface and fibre fracture cracks within the plies. Parametric studies were conducted on the shape and size of delaminations and on crack density and crack distribution under tensile and compressive loading and these models were validated against experimental results. In order to determine the influence of fractured fibres on the residual compressive stiffness the fibres were modelled at the micro scale with individual fibres embedded in an elastic-plastic matrix.
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Bandini, Chiara. "FE-numerical modelling of damage in wood using continuum damage mechanics." Master's thesis, Alma Mater Studiorum - Università di Bologna, 2018.

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In this thesis, the mechanical behavior of a timber joint has been studied. The main task is to model the mechanical behavior of the joint as good as possible. To be able to solve the numerical instabilities of the timber joints, a deeper look needs to be done to the modelling of the wooden material and the steel wood contact. For this thesis a previously developed 3D numerical damage model of wood has been studied. This model has been elaborated by Sandhaas(2012) and it describes crack initiation and propagation of the material based on the concepts of continuum damage mechanics. The basic material model of wood has been implemented as a user material in the UMAT subroutine of ABAQUS. The developed model is giving some numerical instabilities due to the extreme distortion of the elements. During this thesis the model has been enhanced in order to be able to represent the mechanical behavior of wood as good as possible and solve the problem of the model. The modelling outcomes were compared to the results obtained by experimental tests (ref. to Sandaas,2012).The results showed that the first model, a tension test parallel-to grain, had been enhanced. Indeed the results got closer to the experimental value than the original model’s results did. The second model represented a timber joint with slotted-in steel plate with a dowel. The analysis were done with different wood spieces (spruce, beech and azobè). Regarding the spruce, the analysis reached fairly accurate results concerning the capacity load but they were less precise regarding the displacement and the stiffness. The prediction quality was rather poor for the other two species, beech and azobè. It is necessary to find other ways to further enhance the model.Even today a model that is able to represent all three fields (stiffness, capacity load and displacement) accurately doesn’t exist. Good results of one of these lead to bad results of the others. Modelling wood then still represents an evolving challenge.
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Javaherian, Yazdi Abbas. "Damage modelling for performance-based earthquake engineering." Thesis, University of British Columbia, 2015. http://hdl.handle.net/2429/55528.

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The overarching objective in this work is to advance damage modelling for performance-based earthquake engineering. To achieve this objective, this thesis provides a new vision, technique, and software framework for the assessment of seismic damage and loss to building components. The advent of performance-based earthquake engineering placed a renewed emphasis on the assessment of damage and monetary loss in structural engineering. Assessment of seismic damage and loss for decision making entails two ingredients. First, models that predict the detailed damage to building components; second, a probabilistic framework that simulates damage and delivers the monetary loss for the reliability, risk, and optimization analysis. This motivates the contributions in this thesis, which are summarized in the following paragraphs. First, a literature review is conducted on models, techniques and experimental studies that address component damage due to earthquakes. The existing approaches for prediction of the seismic damage, repair actions, and costs are examined. The objective in this part is to establish a knowledge bank that facilitates the subsequent development of probabilistic models for seismic damage. Second, a logistic regression technique is employed for developing multivariate models that predict the probability of sustaining discrete damage states. It is demonstrated that the logistic regression remedies several shortcomings in univariate damage models, such as univariate fragility curves. The multivariate damage models are developed for reinforced concrete shear walls using experimental data. A search algorithm for model selection is included. It is found that inter-story drift and aspect ratio of walls are amongst the most influential parameters on the damage. Third, an object-oriented software framework for detailed simulation of visual damage is developed. The work builds on the existing software Rt. Emphasis is on the software framework, which facilitates detailed simulation of component behaviour, including visual damage. Information about visual damage allows the prediction of repair actions, which in turn improves our ability to predict the time and cost of repair.<br>Applied Science, Faculty of<br>Civil Engineering, Department of<br>Graduate
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Jiranusornkul, Supat. "Molecular modelling studies of DNA damage recognition." Thesis, University of Nottingham, 2008. http://eprints.nottingham.ac.uk/11303/.

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How DNA repair proteins search and recognise the rare sites of damage from the massive numbers of normal DNA remains poorly understood. FapydG (2,6-diamino-4-hydroxy-5-formamidopyrimidine) is one of the most prevalent guanine derived lesions involving opening of the imidazole ring. It is typically repaired by formamidopyrimidine-DNA glycosylase (Fpg) as an initial step in base excision repair; if not repaired, the lesion generates a G: C -+ T: A transversion. Unfortunately, studies on the recognition of FapydG have been hindered by difficulties to synthesise and incorporate the FapydG residue into a DNA duplex. Crystal structures of Fpg-DNA complexes have demonstrated three common recognition events: the protein specifically binding to the extrahelical lesion, bending DNA centred on the damaged base, and flipping the damage into the pocket. Thus, molecular modelling and dynamics simulation have been used to gather dynamical information of those recognition events for damaged and undamaged DNA. The simulations were initially performed when FapydG or G occurs in several dodecamer B-DNA sequences in aqueous solution, then inside the lesion-recognition pocket of Fpg, and during the flipping pathway from the helical stack to an extrahelical position. The influence of the damage on DNA stability and flexibility was first investigated. Energetic analysis revealed that damage to DNA does appear to destabilise the duplex. DNA curvature analysis and a novel combined method of the principal component analysis (PCA) and the Mahalanobis distance (DM) indicated that damaged DNA can adopt the observed protein-bound conformation with lower energetic penalties than its normal counterpart. Results of these studies have provided the validation of DNA bending enhancement by the FapydG lesion. It also suggested that intrinsic DNA bending could be a principal element of how the repair protein locates the lesion from vast expanse of normal bases. Considering the specific recognition of FapydG by Fpg, the aF-/39 loop of the Fpg enzyme may function as a gatekeeping to accommodate the lesion while denying the normal base. Remarkably fluctuating movement of the flipped G residue and the aF-ß9 loop is due to the formation of the non-specific Fpg/G complex with a lower binding energy by 8.4 kcal/mol compared to the specific Fpg/FapydG complex. Free-energy profiles for both damaged and undamaged base flipping were generated from the umbrella sampling simulations and the Weight Histogram Analysis Method (WHAM). An energy barrier for flipping the damage out from the helix is 2.7 kcal/mol higher than its equivalent G and the lesion is highly stabilised inside the pocket. In contrast, G flipping seems to be rapidly rotated out and into the duplex without the formation of a specific complex. These studies could unravel a potentially comprehensive process of the repair protein to find and recognise the lesion through the slow kinetic pathway in which the more deformable damaged DNA is initially located by the protein; the protein subsequently compresses the duplex into an appropriate angle and direction to form a specific protein-DNA complex prior to being flipped and repaired.
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Books on the topic "Damage modelling"

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1955-, Saanouni Khémais, ed. Numerical modelling in damage mechanics. Kogan Page Science, 2003.

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Li, Shuguang. Modelling damage in thin-walled filament wound structures. UMIST, 1993.

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Cheong, Boon Hua. Modelling of microstructural and damage evolution in superplastic forming. University of Birmingham, 2002.

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Race, Christopher. The Modelling of Radiation Damage in Metals Using Ehrenfest Dynamics. Springer Berlin Heidelberg, 2011. http://dx.doi.org/10.1007/978-3-642-15439-3.

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Sadowski, Tomasz, ed. Multiscale Modelling of Damage and Fracture Processes in Composite Materials. Springer Vienna, 2005. http://dx.doi.org/10.1007/3-211-38102-3.

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Oldershaw-Smith, A. D. Continuum damage mechanics modelling of metal matrix composites and components. UMIST, 1996.

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Berkovits, Avraham. Modelling fatigue damage accumulation in nickel base superalloys: Final report. Technion-Israel Institute of Technology, Faculty of Aerospace Engineering, 1992.

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Edmund, Penning-Rowsell, Fordham Maureen, and Middlesex Polytechnic. Flood Hazard Research Centre., eds. Floods across Europe: Hazard assessment, modelling and management. Middlesex University Press, 1994.

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Abdel Wahab, Magd, ed. Proceedings of 1st International Conference on Structural Damage Modelling and Assessment. Springer Singapore, 2021. http://dx.doi.org/10.1007/978-981-15-9121-1.

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Ding, Wei. Modelling and experimental studies of damage in titanium metal matrix composites. University of Birmingham, 1997.

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Book chapters on the topic "Damage modelling"

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Bombardier, Yan, Min Liao, and Guillaume Renaud. "Modelling of Continuing Damage for Damage Tolerance Analysis." In ICAF 2011 Structural Integrity: Influence of Efficiency and Green Imperatives. Springer Netherlands, 2011. http://dx.doi.org/10.1007/978-94-007-1664-3_19.

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Pijaudier-Cabot, Gilles, Ludovic Jason, Antonio Huerta, and Jean-François Dubé. "Continuum damage modelling in geomechanics." In Degradations and Instabilities in Geomaterials. Springer Vienna, 2004. http://dx.doi.org/10.1007/978-3-7091-2768-1_3.

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Weber, William J., and Elke Wendler. "Modelling Effects of Radiation Damage." In Ion Beam Modification of Solids. Springer International Publishing, 2016. http://dx.doi.org/10.1007/978-3-319-33561-2_3.

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Gillman, E., and M. Gillman. "Volcanic gas, environmental damage and statistical models." In Modelling nature: an introduction to mathematical modelling of natural systems. CABI, 2019. http://dx.doi.org/10.1079/9781786393104.0193.

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Menzel, Andreas, and Leon Sprave. "Continuum Damage Mechanics—Modelling and Simulation." In Constitutive Modelling of Solid Continua. Springer International Publishing, 2019. http://dx.doi.org/10.1007/978-3-030-31547-4_8.

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Chen, Zengtao, and Cliff Butcher. "Two-Dimensional (2D) Damage Percolation Modeling." In Micromechanics Modelling of Ductile Fracture. Springer Netherlands, 2013. http://dx.doi.org/10.1007/978-94-007-6098-1_5.

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Fajdiga, Gorazd, Matjaž Šraml, and Janez Kramar. "Modelling of Rolling Contact Fatigue of Rails." In Fracture and Damage Mechanics V. Trans Tech Publications Ltd., 2006. http://dx.doi.org/10.4028/0-87849-413-8.987.

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Řeháčková, L., J. Kalousek, and J. Dobrovská. "On Heterogeneity of Welded Joint by Modelling of Diffusion." In Damage and Fracture Mechanics. Springer Netherlands, 2009. http://dx.doi.org/10.1007/978-90-481-2669-9_32.

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Kachanov, Mark. "On a Continuum Modelling of Damage." In Application of Fracture Mechanics to Cementitious Composites. Springer Netherlands, 1985. http://dx.doi.org/10.1007/978-94-009-5121-1_18.

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Remy, Luc. "Damage Modelling in Thermal Mechanical Fatigue." In Mechanical Behaviour of Materials at High Temperature. Springer Netherlands, 1996. http://dx.doi.org/10.1007/978-94-009-1714-9_21.

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Conference papers on the topic "Damage modelling"

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Wennberg, Kjell Erik, George Batrouni, and Alex Hansen. "Modelling Fines Mobilization, Migration and Clogging." In SPE European Formation Damage Conference. Society of Petroleum Engineers, 1995. http://dx.doi.org/10.2118/30111-ms.

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Mackay, E. J., and M. M. Jordan. "SQUEEZE Modelling: Treatment Design and Case Histories." In SPE European Formation Damage Conference. Society of Petroleum Engineers, 2003. http://dx.doi.org/10.2118/82227-ms.

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Worswick, M. J., A. K. Pilkey, D. Lloyd, and S. Court. "Damage Characterization and Damage Percolation Modelling in Aluminum Alloy Sheet." In SAE 2000 World Congress. SAE International, 2000. http://dx.doi.org/10.4271/2000-01-0773.

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Wei, Haoyang, and Yongming Liu. "Energy-based multiaxial fatigue damage modelling." In 2018 AIAA/ASCE/AHS/ASC Structures, Structural Dynamics, and Materials Conference. American Institute of Aeronautics and Astronautics, 2018. http://dx.doi.org/10.2514/6.2018-0646.

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Dayal, Vinay, David K. Hsu, Adam H. Kite, Donald O. Thompson, and Dale E. Chimenti. "DAMAGE MODELLING IN COMPOSITES FOR NDE." In REVIEW OF PROGRESS IN QUANTITATIVE NONDESTRUCTIVE EVALUATION: 34th Annual Review of Progress in Quantitative Nondestructive Evaluation. AIP, 2008. http://dx.doi.org/10.1063/1.2902764.

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Vaz, Alexandre S. L., Pavel G. Bedrikovetsky, Antonio Luiz Serra de Souza, and Claudio Jose Alves Furtado. "Residual-Oil-Induced Injectivity Impairment During PWRI (Modelling And Laboratory Study)." In European Formation Damage Conference. Society of Petroleum Engineers, 2007. http://dx.doi.org/10.2118/107865-ms.

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Janucki, Jacek, Jan A. Owsik, and Karol Jach. "Computer modelling of a phenomenon of laser pulse interaction with solid body." In Boulder Damage Symposium XXXVI, edited by Gregory J. Exarhos, Arthur H. Guenther, Norbert Kaiser, Keith L. Lewis, M. J. Soileau, and Christopher J. Stolz. SPIE, 2005. http://dx.doi.org/10.1117/12.584991.

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Panigrahi, S. K., S. Chakraverty, and B. K. Mishra. "Damage Assessment of a Non-Homogeneous Uniform Strength Beam using Genetic Algorithm." In Modelling and Simulation. ACTAPRESS, 2010. http://dx.doi.org/10.2316/p.2010.685-031.

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Al-Abduwani, Firas A. H., Gustavo Hime, Amaury Alvarez, and Rouhollah Farajzadeh. "New Experimental and Modelling Approach for the Quantification of Internal Filtration." In SPE European Formation Damage Conference. Society of Petroleum Engineers, 2005. http://dx.doi.org/10.2118/94634-ms.

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Byrne, Michael T., Maria Alejandra Jimenez, Elinor Amelia Rojas, and Edgar Castillo. "Computational Fluid Dynamics for Reservoir and Well Fluid Flow Performance Modelling." In SPE European Formation Damage Conference. Society of Petroleum Engineers, 2011. http://dx.doi.org/10.2118/144130-ms.

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Reports on the topic "Damage modelling"

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Sandhu, Ranbir S., Robert L. Sierakowski, and William E. Wolfe. Cumulative Damage Modelling in Composite Laminates. Defense Technical Information Center, 1988. http://dx.doi.org/10.21236/ada198282.

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Ehst, D. A., and A. Hassanein. Modelling erosion damage from low-energy plasma gun simulations of disruptions. Office of Scientific and Technical Information (OSTI), 1993. http://dx.doi.org/10.2172/10114351.

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Hobbs, T. E., J. M. Journeay, A. S. Rao, et al. Scientific basis of Canada's first public national seismic risk model. Natural Resources Canada/CMSS/Information Management, 2022. http://dx.doi.org/10.4095/330927.

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Abstract:
Natural Resources Canada, in partnership with the Global Earthquake Model Foundation, has prepared a public Canadian Seismic Risk Model to support disaster risk reduction efforts across industry and all levels of government, and to aid in Canada's adoption of the Sendai Framework for Disaster Risk Reduction. Developing this model has involved the creation of a national exposure inventory, Canadian specific fragility and vulnerability curves, and adjustment of the Canadian Seismic Hazard Model which forms the basis for the seismic provisions of the National Building Code of Canada. Using the Global Earthquake Model Foundation's OpenQuake Engine (OQ), risk modelling is completed using both deterministic and probabilistic risk calculations, under baseline and simulated retrofit conditions. Output results are available in all settled regions of Canada, at the scale of a neighbourhood or smaller. We report on expected shaking damage to buildings, financial losses, fatalities, and other impacts such as housing disruption and the generation of debris. This paper documents the technical details of the modelling approach including a description of novel datasets in use, as well as preliminary results for a magnitude 9.0 earthquake on the Cascadia megathrust and nation-wide 500 year expected probabilistic losses. These kinds of results, such as earthquake scenario impacts, loss exceedance curves, and annual average losses, provide a quantitative base of evidence for decision making at local, regional, and national levels.
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