Search results for "Failure mode and effects analysis"

showing 10 items of 39 documents

Strengthening of steel-reinforced concrete structural elements by externally bonded FRP sheets and evaluation of their load carrying capacity

2014

Abstract The paper proposes a preliminary design tool for reinforced concrete (RC) elements strengthened by fiber-reinforced-polymer (FRP) sheets to be used in civil engineering applications and in particular in medical buildings. The design strategy is based on limit analysis theory and utilizes a numerical procedure which provides a direct method to determine peak load, failure mode and critical zones of the structural elements of interest.

EngineeringRC slabs limit designbusiness.industryFE-based 3D analysiDesign toolStructural engineeringDesign strategyFibre-reinforced plasticPeak loads and failure modesSettore ING-IND/35 - Ingegneria Economico-GestionaleReinforced concreteLoad carryingLimit analysisPeak loadCeramics and CompositesFE-based 3D analysis; FRP-strengthening systems; Peak loads and failure modes; RC slabs limit design; Ceramics and Composites; Civil and Structural EngineeringFRP-strengthening systemSettore MED/36 - Diagnostica Per Immagini E RadioterapiabusinessFailure mode and effects analysisCivil and Structural EngineeringComposite Structures
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A combined multi-criteria approach to support FMECA analyses: A real-world case

2018

[EN] The paper proposes an approach that combines reliability analyses and multi-criteria decision methods to optimize maintenance activities of complex systems. A failure mode, effects, and criticality analysts (FMECA) is initially performed and the fuzzy TOPSIS (FTOPSIS) method is then applied to rank previously identified failure modes. For prioritization, failure modes are assessed against three evaluation criteria that differ from those traditionally involved in risk priority number (RPN) computation (i.e. severity, occurrence and detection). Two criteria refer to the maintenance management reflecting the operational time taken by the maintenance activity performed after the occurrence…

EngineeringSafety-critical analysisSafety-critical analysiAHP0211 other engineering and technologiesAnalytic hierarchy process02 engineering and technologyFault (power engineering)Industrial and Manufacturing EngineeringSettore ING-IND/17 - Impianti Industriali Meccanici0202 electrical engineering electronic engineering information engineeringFTOPSISSensitivity (control systems)Safety Risk Reliability and QualityReliability (statistics)021103 operations researchbusiness.industryRank (computer programming)Reliability engineeringFailure mode effects and criticality analysisRanking020201 artificial intelligence & image processingMATEMATICA APLICADAbusinessFailure mode and effects analysisFMECAReliability Engineering & System Safety
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Load-carrying capacity of axially-loaded RC members with circular openings

2012

Abstract Core drilling is today one of the most used technique among the group of partially destructive testing methods in reinforced concrete (RC) members. Even if the engineering practice provided to extract cores only in beams, taking samples from columns could be often necessary. In this case, the presence of the hole introduced a geometrical discontinuity in the member, creating a disturbed region. Consequently, compressive stresses will disperse in lateral direction as they have to avoid the drilled area. A bursting tensile force will develop, in orthogonal direction to the column axis, and if no sufficient reinforcement was arranged, a vertical crack will form, leading to the concret…

Engineeringbusiness.industryCircular openingCompressionDrillingStructural engineeringLoad carryingDrilled memberDiscontinuity (geotechnical engineering)Destructive testingUltimate tensile strengthCore-drillingAxial symmetrybusinessReinforcementFailure mode and effects analysisD-regionsCivil and Structural EngineeringEngineering Structures
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Flexural response of external R.C. beam-column joints externally strengthened with steel cages

2015

Abstract An experimental and theoretical research referred to the flexural behavior of external R.C. joints strengthened with steel cages constituted by steel angles and battens is presented. The subassemblage (beam, column and joint) was subjected to a constant vertical load acting on the column and to a monotonically increasing lateral force applied at the tip of the beam. The control specimen is without strengthening system and it was designed with weak column and strong beam and overstrength in the joint region. Strengthening cases here studied refer to steel caging in the column and both in the beam and in the column. Cyclic response in term of load–displacement curves, crack patterns …

Engineeringbusiness.industryColumnShearBeamStructural engineeringShear (sheet metal)Settore ICAR/09 - Tecnica Delle CostruzioniColumn (typography)Flexural strengthJointBattenSteel angleMoment (physics)Beam columnComposite materialbusinessFailure mode and effects analysisJoint (geology)Beam (structure)FlexureCivil and Structural Engineering
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A Robustness Approach to Reliability

2012

Reliability of products is here regarded with respect to failure avoidance rather than probability of failure. To avoid failures, we emphasize variation and suggest some powerful tools for handling failures due to variation. Thus, instead of technical calculation of probabilities from data that usually are too weak for correct results, we emphasize the statistical thinking that puts the designers focus on the critical product functions. Making the design insensitive to unavoidable variation is called robust design and is handled by (i) identification and classification of variation, (ii) design of experiments to find robust solutions, and (iii) statistically based estimations of proper safe…

Engineeringbusiness.industryDesign of experimentsProbabilistic logicManagement Science and Operations ResearchStandard deviationReliability engineeringRobust designStatistical thinkingRobustness (computer science)Partial derivativeSafety Risk Reliability and QualitybusinessFailure mode and effects analysisQuality and Reliability Engineering International
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A Simulation-Based Failure Mode Analysis of SARS-CoV-2 Infection Control and Prevention in Emergency Departments

2020

Background Severe acute respiratory syndrome coronavirus 2 [SARS-CoV-2, the causative agent of coronavirus disease 2019 (COVID-19)] outbreak has been declared a global pandemic by the World Health Organization. The COVID-19 pandemic has highlighted problems of sustainable infection prevention and control measures worldwide, particularly the emerging issues with an insufficient supply of personal protective equipment. The aim of this study was to provide an action plan for mitigation of occupational hazards and nosocomial spread of SARS-CoV-2 through a failure mode analysis based on observations during in situ simulations. Methods A multicenter, cross-sectional, observational, simulation-bas…

EpidemiologyHealth PersonnelMedicine (miscellaneous)EducationModelling and SimulationHealth carePandemicMedicineInfection controlHumansPersonal protective equipmentPandemicsInfection Controlbusiness.industrySARS-CoV-2COVID-19medicine.diseaseCross-Sectional StudiesModeling and SimulationPreparednessAction planObservational studyMedical emergencybusinessEmergency Service HospitalFailure mode and effects analysisSimulation in Healthcare: The Journal of the Society for Simulation in Healthcare
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Risk Assessment and Analysis

2014

Once threats are identified, they must be assessed or evaluated, which is the objective of this chapter. There is usually a large number of threats, making it impossible or unprofitable to analyze them all, meaning selection of the threats that will be addressed is important. It is a decision-making process; an example is proposed and solved by one of the many techniques available. The chapter proposes a very standard requested study, which is the assessment of the economic and financial risks of a project. This is done through a real-life-example, followed by another appraisal, this time devoted to economic issues, as well as another for transportation, introducing the important concept of…

Fault tree analysisRisk analysis (engineering)Probabilistic risk assessmentComputer scienceFinancial riskEntropy (information theory)Conditional probabilityRisk assessmentFailure mode and effects analysis
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Risk assessment of component failure modes and human errors using a new FMECA approach: application in the safety analysis of HDR brachytherapy

2014

Failure mode, effects and criticality analysis (FMECA) is a safety technique extensively used in many different industrial fields to identify and prevent potential failures. In the application of traditional FMECA, the risk priority number (RPN) is determined to rank the failure modes; however, the method has been criticised for having several weaknesses. Moreover, it is unable to adequately deal with human errors or negligence. In this paper, a new versatile fuzzy rule-based assessment model is proposed to evaluate the RPN index to rank both component failure and human error. The proposed methodology is applied to potential radiological over-exposure of patients during high-dose-rate brach…

HDR brachytherapySafety ManagementComputer sciencemedicine.medical_treatmentBrachytherapyHuman errorBrachytherapyRisk AssessmentRadiation ProtectionComponent (UML)medicineHumansComputer SimulationRadiation InjuriesWaste Management and Disposalhuman errorSettore ING-IND/19 - Impianti Nuclearirisk priority numberModels StatisticalFuzzy ruleMedical ErrorsIncidenceRank (computer programming)Public Health Environmental and Occupational HealthGeneral MedicineReliability engineeringEquipment Failure AnalysisSurvival RateFailure mode effects and criticality analysisEquipment FailurePatient Safetyfuzzy logicRadioactive Hazard ReleaseRisk assessmentFailure mode and effects analysisFMECA
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Safety study of an LNG regasification plant using an FMECA and HAZOP integrated methodology

2015

Abstract A safety analysis was performed to determine possible accidental events in the storage system used in the liquefied natural gas regasification plant using the integrated application of failure modes, effects and criticality analysis (FMECA) and hazard and operability analysis (HAZOP) methodologies. The goal of the FMECA technique is the estimation of component failure modes and their major effects, whereas HAZOP is a structured and systematic technique that provides an identification of the hazards and the operability problems using logical sequences of cause-deviation-consequence of process parameters. The proposed FMECA and HAZOP integrated analysis (FHIA) has been designed as a …

Hazard (logic)EngineeringOperabilityHazard and operability studyGeneral Chemical EngineeringEnergy Engineering and Power TechnologyManagement Science and Operations ResearchIndustrial and Manufacturing EngineeringRisk analysiRisk analysis (business)Human errorSettore ING-IND/10 - Fisica Tecnica IndustrialeSafety Risk Reliability and QualitySettore ING-IND/19 - Impianti NucleariRegasificationbusiness.industryReliability engineeringFailure mode effects and criticality analysisControl and Systems EngineeringSystems engineeringLNGHAZOPRisk priority numberbusinessFailure mode and effects analysisRegasification terminalFood ScienceLiquefied natural gasFMECA
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Improved FE model for simulation of friction stir welding of different materials

2010

Abstract One of the most relevant aspects of friction stir welding is the possibility to weld different materials. In the present paper, the authors present an improved continuum finite element model for the simulation of friction stir welding processes aimed to obtain T joints, made of a stringer in AA7175-T73511 and of a skin in AA2024-T4. The model, taking into account the thermomechanical behaviours of the two different materials, is utilised to study the occurring material flow and residual stress state. Numerical results are compared with experimental observations: the model is able to predict the material flow, obtaining important information on the joint failure mode.

Materials scienceMechanical engineeringWeldingCondensed Matter PhysicsFriction stir welding T joints Different materials FEMFinite element methodMaterial flowlaw.inventionStringerResidual stresslawFriction stir weldingGeneral Materials ScienceComposite materialSettore ING-IND/16 - Tecnologie E Sistemi Di LavorazioneFailure mode and effects analysisJoint (geology)Science and Technology of Welding and Joining
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