SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W644714803> ?p ?o ?g. }

Showing items 1 to 100 of ±120 with 100 items per page.

W644714803 abstract "In-service inspections of high temperature pressureequipment show that weldments are prone to creep and fatiguedamage. It is not uncommon that severely damaged weldments arefound even before the design life of the component has beenreached. In order to improve this situation action has beentaken during the last decades, both from industry, universitiesand research institutes, aiming at an enhanced understanding ofthe weldment response.The work presented in this thesis focuses on numericalsimulation of weldment creep response. For a more profoundunderstanding of the evolution of creep damage in mismatchedlow alloy weldments, simulations are performed using thecontinuum damage mechanics, CDM, concept. Both design and lifeassessment aspects are addressed. The possibility to assessseam welded pipes using results from tests of cross-weldspecimens taken out from the seam is investigated. It is foundthat the larger the cross-weld specimen the better thecorrelation. The advantage to use the CDM concept prior to aregular creep analysis is also pointed out. In order to developthe CDM analysis, a modified Kachanov-Rabotnov constitutivemodel is implemented into ABAQUS. Using this model, a secondredistribution of stresses is revealed as the tertiary creepstage is reached in the mismatched weldment.Creep crack growth, CCG, in cross-weld compact tension, CT,specimens is investigated numerically where a fracturemechanics concept is developed in two steps. In the first one,the C*value and an averaged constraint parameter areused for characterising the fields in the process zone, whilein the second step, the creep deformation rate perpendicular tothe crack plane and a constraint parameter ahead of the cracktip, are used as characterising parameters. The influence oftype and degree of mismatch, location of starter notch as wellas size of CT specimen, is investigated. Results show that notonly the material properties of the weldment constituentcontaining the crack, but also the deformation properties ofthe adjacent constituents, influence the CCG behaviour.Furthermore, the effect of size is influenced by the mismatchof the weldment constituents.A circumferentially cracked girth weld with differentmismatch is assessed numerically by use of the fracturemechanics concept developed. The results show that type anddegree of mismatch have a great influence on the CCG behaviourand that C*alone cannot characterise crack tip fields.Corresponding R5 assessments are also performed. Comparisonwith the numerical investigation shows that the assumption ofplane stress or plane strain conditions in the R5 analysis isessential for the agreement of the results. Assuming the formerresults in a relatively good agreement for the axial stressdominated cases while for the hoop stress dominated cases, R5predicts higher CCG rates by an order of magnitude.Keywords:ABAQUS, constraint effect, continuum damagemechanics, creep, creep crack growth, design, design code,finite element method, fracture mechanics, life assessment,mismatch, numerical simulation, weldment" @default.
W644714803 created "2016-06-24" @default.
W644714803 creator A5083499882 @default.
W644714803 date "2002-01-01" @default.
W644714803 modified "2023-09-23" @default.
W644714803 title "Numerical simulation of weldment creep response" @default.
W644714803 cites W1503229561 @default.
W644714803 cites W1544285592 @default.
W644714803 cites W1553342884 @default.
W644714803 cites W1590252322 @default.
W644714803 cites W17576823 @default.
W644714803 cites W1970871528 @default.
W644714803 cites W1971632394 @default.
W644714803 cites W1972274821 @default.
W644714803 cites W1972408761 @default.
W644714803 cites W1973961084 @default.
W644714803 cites W1975123725 @default.
W644714803 cites W1980181300 @default.
W644714803 cites W1987530449 @default.
W644714803 cites W1988663638 @default.
W644714803 cites W1990095256 @default.
W644714803 cites W1991482455 @default.
W644714803 cites W2005709222 @default.
W644714803 cites W2005853067 @default.
W644714803 cites W2006245983 @default.
W644714803 cites W2016463190 @default.
W644714803 cites W2023567753 @default.
W644714803 cites W2025007510 @default.
W644714803 cites W2029679319 @default.
W644714803 cites W2031605731 @default.
W644714803 cites W2043327970 @default.
W644714803 cites W2048517252 @default.
W644714803 cites W2050819235 @default.
W644714803 cites W2053766042 @default.
W644714803 cites W2055396963 @default.
W644714803 cites W2056287563 @default.
W644714803 cites W2064928328 @default.
W644714803 cites W2072959045 @default.
W644714803 cites W2077291270 @default.
W644714803 cites W2088370880 @default.
W644714803 cites W2089092903 @default.
W644714803 cites W2094333172 @default.
W644714803 cites W2120450310 @default.
W644714803 cites W2127393945 @default.
W644714803 cites W2134408057 @default.
W644714803 cites W2136418735 @default.
W644714803 cites W214624637 @default.
W644714803 cites W2157213149 @default.
W644714803 cites W2160078216 @default.
W644714803 cites W2168792272 @default.
W644714803 cites W2210941312 @default.
W644714803 cites W2264703407 @default.
W644714803 cites W2312255385 @default.
W644714803 cites W2313527995 @default.
W644714803 cites W2319133784 @default.
W644714803 cites W2321753514 @default.
W644714803 cites W2504165518 @default.
W644714803 cites W3023951117 @default.
W644714803 cites W3152675 @default.
W644714803 cites W3205055328 @default.
W644714803 cites W360641341 @default.
W644714803 cites W3933411 @default.
W644714803 cites W616595092 @default.
W644714803 cites W621359261 @default.
W644714803 cites W74680780 @default.
W644714803 cites W2485518299 @default.
W644714803 hasPublicationYear "2002" @default.
W644714803 type Work @default.
W644714803 sameAs 644714803 @default.
W644714803 citedByCount "2" @default.
W644714803 countsByYear W6447148032013 @default.
W644714803 crossrefType "journal-article" @default.
W644714803 hasAuthorship W644714803A5083499882 @default.
W644714803 hasConcept C112950240 @default.
W644714803 hasConcept C127413603 @default.
W644714803 hasConcept C149912024 @default.
W644714803 hasConcept C186068551 @default.
W644714803 hasConcept C191897082 @default.
W644714803 hasConcept C192562407 @default.
W644714803 hasConcept C19474535 @default.
W644714803 hasConcept C2776036281 @default.
W644714803 hasConcept C66938386 @default.
W644714803 hasConcept C78519656 @default.
W644714803 hasConceptScore W644714803C112950240 @default.
W644714803 hasConceptScore W644714803C127413603 @default.
W644714803 hasConceptScore W644714803C149912024 @default.
W644714803 hasConceptScore W644714803C186068551 @default.
W644714803 hasConceptScore W644714803C191897082 @default.
W644714803 hasConceptScore W644714803C192562407 @default.
W644714803 hasConceptScore W644714803C19474535 @default.
W644714803 hasConceptScore W644714803C2776036281 @default.
W644714803 hasConceptScore W644714803C66938386 @default.
W644714803 hasConceptScore W644714803C78519656 @default.
W644714803 hasLocation W6447148031 @default.
W644714803 hasOpenAccess W644714803 @default.
W644714803 hasPrimaryLocation W6447148031 @default.
W644714803 hasRelatedWork W158199181 @default.
W644714803 hasRelatedWork W1972071941 @default.
W644714803 hasRelatedWork W1991617083 @default.
W644714803 hasRelatedWork W1996345780 @default.