Residual stress prediction in laser shock peening based on finite element analysis and mechanical threshold stress model

Tophkhane, Chinmay J.

24 September 2012

No description available.

Mechanics

laser shock peening

mechanical threshold stress

Event Sedimentology and Hydrodynamic Hindcasting of Storm Surge Deposits: Hurricane Sandy, New Jersey

Beal, Irina

January 2014

The impact of Hurricane Sandy (October 2012) on the Atlantic Coast of the United States resulted in massive overtopping (aggradation) of coastal barriers, along with localized overwash and breaching. A combination of high-frequency ground-penetrating radar (800 MHz GPR), low-field magnetic susceptibility (MS), and textural and mineralogical analyses was used to reconstruct the sedimentological and hydrodynamic parameters of the storm surge at two New Jersey sites immediately north of hurricane landfall: 1) Mantoloking and 2) Island Beach State Park (IBSP). Mantoloking represents a developed, scour-channelized backdune area with a 30-60 cm thick deposit consisting of 20-23 event horizons. Geophysical images reveal gently landward-dipping reflections. In contrast, IBSP site is a broad (width: 40 m) vegetated dune swale. GPR transects show landward-dipping tangential-oblique reflections as well as a conformable channel cut-and-fill structure (width: 7 m; depth: 1.5 m), producing a 0.7-1.5-m-thick deposit with 24-30 horizons. Within each sand-dominated event horizon, an upward 5-15% increase in mean grain size and 80-100% decrease in MS highlight the importance of hydrodynamic equivalency in lithological segregation within mixed-density fractions. Basal sub-layers enriched in heavy minerals (magnetite, ilmenite, garnet) yield MS of 100-350 μSI, in contrast to <40 μSI in quartz-rich upper sub-layers and pre-storm deposits. Several peaks in MS values correspond to an up to 65% increase in threshold shear stresses associated with individual unidirectional surge flows, with several most-enriched event horizons likely corresponding to waning-stage storm surge peaks recorded by offshore buoys. The sharp contact with the pre-storm surface produces distinct GPR reflections that allow accurate mapping of the thickness and extent of hurricane deposits. Together with potential correlation between lithological anomalies and high amplitude georadar signal return, the approach used in this study has applications to reconstructing event deposits in Quaternary sedimentary records. The new research findings have potential implications for reconstructing surge dynamics of recent hurricane events as well as quantitative hindcasting of hydrodynamic conditions responsible for lithologically diverse intervals in ancient tempestites. / Geology / Accompanied by two .xls files (Microsoft Excel).

Geomorphology

Geology

Barrier Island

Greyscale Analysis

Magnetic Susceptibility

Threshold Stress

INITIATION OF DELAYED HYDRIDE CRACKING IN Zr-2.5Nb MICRO PRESSURE TUBES

SUNDARAMOORTHY, RAVI KUMAR

25 April 2009

Pressure tubes pick up hydrogen while they are in service within CANDU reactors. Sufficiently high hydrogen concentration can lead to hydride precipitation during reactor shutdown/repair at flaws, resulting in the potential for eventual rupture of the pressure tubes by a process called Delayed Hydride Cracking (DHC). The threshold stress intensity factor (KIH) below which the cracks will not grow by delayed hydride cracking of Zr-2.5Nb micro pressure tubes (MPTs) has been determined using a load increasing mode (LIM) method at different temperatures. MPTs have been used to allow easy study of the impact of properties like texture and grain size on DHC. Previous studies on MPTs have focused on creep and effects of stress on hydride orientation; here the use of MPTs for DHC studies is confirmed for the first time. Micro pressure tube samples were hydrided to a target hydrogen content of 100 ppm using an electrolytic method. For DHC testing, 3 mm thick half ring samples were cut out from the tubes using Electrical Discharge Machining (EDM) with a notch at the center. A sharp notch with a root radius of 15 µm was introduced by broaching to facilitate crack initiation. The direct current potential drop method was used to monitor crack growth during the DHC tests. For the temperature range tested the threshold stress intensity factors for the micro pressure tube used were found to be 6.5-10.5 MPa.m1/2 with the value increasing with increasing temperature. The average DHC velocities obtained for the three different test temperatures 180, 230 and 250oC were 2.64, 10.87 and 8.45 x 10-8 m/s, respectively. The DHC data obtained from the MPTs are comparable to the data published in the literature for full sized CANDU pressure tubes. / Thesis (Master, Mechanical and Materials Engineering) -- Queen's University, 2009-04-24 12:55:36.917

Zr-2.5Nb alloys

Delayed Hydride Cracking (DHC)

Micro Pressure Tubes

Threshold stress intensity factor (K-IH)

Electrolytic hydriding

Corrosão sob tensão de um aço inoxidável austenítico em soluções aquosas contendo cloretos / Stress corrosion cracking of austenitic stainless steel in chlorides environments

Mariano, Neide Aparecida

20 February 1997

No presente trabalho foi estudado o comportamento de um aço inoxidável austenítico do sistema Fe-Cr-Mn-N, nas condições como recebido, solubilizado e sensitizado, quando submetidos à meios contendo cloretos. Para analisar a suscetibilidade à corrosão sob tensão foram utilizados corpos de prova dos tipos DCB (\"Double Cantilever Beam\") e C(T) (\"Compact- Tension\"), pré-trincados em fadiga, com entalhes laterais e carregados com cunhas. Os meios empregados foram as soluções aquosas 45% em peso de MgCl2 na temperatura de ebulição de 154°C, água do mar sintética na temperatura ambiente e de ebulição de 100°C e 3,5% em peso de NaCI na temperatura ambiente. A suscetibilidade à corrosão sob tensão foi avaliada em termos do fator limite de intensidade de tensão, KISCC, e foram caracterizados os aspectos fractográficos dos corpos de prova em que ocorreram propagação de trinca por corrosão sob tensão. Foi verificado que apenas os corpos de prova do aço E3949 nas condições como recebido e sensitizado, foram suscetíveis à corrosão sob tensão em solução aquosa de 45% em peso de MgCl2 na temperatura de ebulição. Também foi determinado o comportamento eletroquímico do material nas condições citadas acima com relação aos meios empregados. Os resultados das curvas de polarização obtidas mostraram que o material apresenta baixa resistência à corrosão, principalmente em meios de MgCl2. / The present work studies the stress corrosion cracking behavior in austenitic Fe-Cr-Mn-N stainless steel, in as received, solubilized and sensitized conditions, when submited to several chlorides environments. To evalued the stress corrosion cracking susceptibility, DCB (\"Double Cantilcver Beam\") and C(T) (\"Compact- Tension\") specimens, fatigue precracked, side grooved and wedge loaded were used. The environments employed were boiling solution of 45 wt% of MgCl2 at 154ºC, synthetic sea water at room and 100°C temperatures, and a solution with 3,5 wt% of NaCI at room temperature. The susceptibility to stress corrosion cracking has been evaluated in terms of the threshold stress intensity factor, KISCC, and the fracture surface appearance of those specimens whose the crack propagation took place was characterized. The results showed that only the specimens in the as received and sensitized conditions, were suceptible to the stress corrosion cracking effect in the solution with 45 wt% of MgCl2 at the boilling temperature. Also, it has been verified the electrochemical behavior of this steel when submited in the above environments. The results of polarization curves showed that the material presents low corrosion strength, mainly in MgCl2 environments.

Aço inoxidável

Austenitic stainless steel

Chloride

Cloretos

Corrosão sob tensão

Fator limite de intensidade de tensão

Stress corrosion cracking

Threshold stress intensity factor

Corrosão sob tensão de um aço inoxidável austenítico em soluções aquosas contendo cloretos / Stress corrosion cracking of austenitic stainless steel in chlorides environments

Neide Aparecida Mariano

20 February 1997

No presente trabalho foi estudado o comportamento de um aço inoxidável austenítico do sistema Fe-Cr-Mn-N, nas condições como recebido, solubilizado e sensitizado, quando submetidos à meios contendo cloretos. Para analisar a suscetibilidade à corrosão sob tensão foram utilizados corpos de prova dos tipos DCB (\"Double Cantilever Beam\") e C(T) (\"Compact- Tension\"), pré-trincados em fadiga, com entalhes laterais e carregados com cunhas. Os meios empregados foram as soluções aquosas 45% em peso de MgCl2 na temperatura de ebulição de 154°C, água do mar sintética na temperatura ambiente e de ebulição de 100°C e 3,5% em peso de NaCI na temperatura ambiente. A suscetibilidade à corrosão sob tensão foi avaliada em termos do fator limite de intensidade de tensão, KISCC, e foram caracterizados os aspectos fractográficos dos corpos de prova em que ocorreram propagação de trinca por corrosão sob tensão. Foi verificado que apenas os corpos de prova do aço E3949 nas condições como recebido e sensitizado, foram suscetíveis à corrosão sob tensão em solução aquosa de 45% em peso de MgCl2 na temperatura de ebulição. Também foi determinado o comportamento eletroquímico do material nas condições citadas acima com relação aos meios empregados. Os resultados das curvas de polarização obtidas mostraram que o material apresenta baixa resistência à corrosão, principalmente em meios de MgCl2. / The present work studies the stress corrosion cracking behavior in austenitic Fe-Cr-Mn-N stainless steel, in as received, solubilized and sensitized conditions, when submited to several chlorides environments. To evalued the stress corrosion cracking susceptibility, DCB (\"Double Cantilcver Beam\") and C(T) (\"Compact- Tension\") specimens, fatigue precracked, side grooved and wedge loaded were used. The environments employed were boiling solution of 45 wt% of MgCl2 at 154ºC, synthetic sea water at room and 100°C temperatures, and a solution with 3,5 wt% of NaCI at room temperature. The susceptibility to stress corrosion cracking has been evaluated in terms of the threshold stress intensity factor, KISCC, and the fracture surface appearance of those specimens whose the crack propagation took place was characterized. The results showed that only the specimens in the as received and sensitized conditions, were suceptible to the stress corrosion cracking effect in the solution with 45 wt% of MgCl2 at the boilling temperature. Also, it has been verified the electrochemical behavior of this steel when submited in the above environments. The results of polarization curves showed that the material presents low corrosion strength, mainly in MgCl2 environments.

Aço inoxidável

Cloretos

Corrosão sob tensão

Fator limite de intensidade de tensão

Austenitic stainless steel

Chloride

Stress corrosion cracking

Threshold stress intensity factor

Rupture fragile des liaisons bimétalliques en acier inoxydable dans le haut de la transition fragile-ductile / Brittle fracture of Stainless Steel dissimilar metal welds in the upper shelf of the brittle-to-ductile transition temperature range

Ben Salem, Ghassen

19 June 2019

Les liaisons bimétalliques en acier inoxydable (LBM inox) permettent, au sein des réacteurs nucléaires français actuels, de connecter les gros composants en acier ferritique faiblement allié (cuve, pressuriseur, générateur de vapeur) à la tuyauterie du circuit primaire en acier austénitique inoxydable. De par leurs microstructure et propriétés mécaniques hétérogènes, ces liaisons sont des zones dites "sensibles" pour l'intégrité des structures et il est donc indispensable de caractériser leur tenue mécanique dans les situations de fonctionnement nominal et accidentelles. Ce travail de thèse a pour objectif d'évaluer le risque d'amorçage fragile de la LBM inox dans le haut de la transition fragile-ductile à l'aide d'un critère adapté. Les microstructures au voisinage de l'interface entre l'acier ferritique et le beurrage austénitique ont tout d’abord été caractérisées, et un liseré martensitique d’épaisseur variable ainsi qu’une couche entièrement austénitique ont été observés. Ces deux couches, qui sont le siège d’une intense précipitation de carbures pendant le traitement thermique de détensionnement, forment ensemble une couche dure de martensite et d’austénite carburées potentiellement fragile. Le comportement mécanique de l’ensemble de la LBM inox a ensuite été étudié à 20°C et à -175°C, et des lois de comportement élasto-plastiques isotropes ont été identifiées pour les différentes couches macroscopiques à partir d’essais de traction sur des éprouvettes multi-matériaux travers-joint à diamètre variable. Le comportement mécanique de la couche dure a, quant à lui, été caractérisé à partir d’essais in-situ sur des micro-éprouvettes usinées au FIB et testées à l’aide d’une micro-machine de traction développée dans cette thèse. Une étude des mécanismes de rupture de la LBM inox dans le domaine de la transition fragile-ductile a par ailleurs été réalisée à partir d’essais sur éprouvettes CT et a mis en évidence une fragilité de l’interface MA (entre martensite et austénite) liée à un mécanisme de rupture intergranulaire amorcée sur les carbures et systématiquement activé pour des fronts de préfissure traversant la couche dure. Une modélisation par éléments finis des essais a permis d’analyser les champs de contrainte sur l’interface MA et d’identifier un modèle de Weibull linéique à 3 paramètres basé sur une contrainte seuil et une distance seuil pour les éprouvettes CT. Finalement, l’effet du vieillissement thermique sur les LBM inox a été étudié à partir d’un traitement thermique de 10 000h à 400°C et un durcissement des couches austénitiques résultant d’un mécanisme de décomposition spinodale de la ferrite résiduelle a été mis en évidence à partir d’essais de traction. L’analyse des mécanismes de rupture à l’état vieilli a également montré que ce durcissement provoque une augmentation d’environ 30°C de la température de transition associée à la rupture intergranulaire de l’interface MA. / Stainless steel dissimilar metal welds (SS DMW) are widely used within the French nuclear power plants where they connect the main components (pressure vessel, pressurisor, steam generator) made of low-alloy ferritic steel to the primary circuit pipes made of austenitic stainless steel. Because of their heterogeneous microstructure and mechanical properties, these junctions are critical components for the structure integrity and their fracture resistance has to be demonstrated for all the nominal or accidental operating conditions. This PhD work aims at building a model to evaluate the risk of brittle fracture of the SS DMW in the upper shelf of the brittle-to-ductile transition range. The observation of the microstructures around the fusion line revealed a martensitic layer and a fully austenitic zone, which undergo an important carbides precipitation during the post-weld heat treatment and form a narrow hard layer of carburized martensite and austenite. The mechanical behavior of the SS DMW was then characterized at 20°C and -175°C and isotropic elastoplastic constitutive laws were determined for each macro/mesoscopic layer of the weld from tensile tests on crossweld specimens with variable diameters. The mechanical behavior of the narrow hard layer was also studied with micro tensile tests on specimens extracted by FIB micro processing and tested using an in-situ tensile testing device developed during the PhD. Furthermore, fracture toughness tests were carried out on CT specimens in the brittle-to-ductile temperature range and helped identify the MA interface (between martensite and austenite) as the weakest region in the SS DMW because of an intergranular fracture mechanism initiated at the carbides-rich interface. This mechanism was consistently observed for specimens with fatigue precrack fronts in the hard layer. The stress distributions on the MA interface calculated from the FE numerical simulation of these tests were then analysed and a 1D 3 parameters Weibull model based on a threshold stress and a threshold length was identified for the CT specimens. Finally, the effect of thermal ageing on the SS DMW was explored with a thermal ageing treatment of 10000h at 400°C and a hardening of the austenitic layers was measured by tensile tests and was associated to a spinodal decomposition mechanism of the residual ferrite. The fracture mechanisms of the SS DMW were also analysed in the aged state and showed that this hardening caused an increase of the transition temperature associated with the intergranular fracture of the MA interface by about 30°C.

Liaisons bi-métalliques

Rupture fragile intergranulaire

Martensite

Austénite carburée

Loi de Weibull

Contrainte seuil

Vieillissement thermique

Dissimilar metal welds

Intergranular brittle fracture

Martensite

Carburized austenite

Weibull law

Threshold stress

Thermal ageing

Fatigue Crack Growth Mechanisms in Al-Si-Mg Alloys

Lados, Diana Aida

04 February 2004

Due to the increasing use of cyclically loaded cast aluminum components in automotive and aerospace applications, fatigue and fatigue crack growth characteristics of aluminum castings are of great interest. Despite the extensive research efforts dedicated to this topic, a fundamental, mechanistic understanding of these alloys' behavior when subjected to dynamic loading is still lacking. This fundamental research investigated the mechanisms active at the microstructure level during dynamic loading and failure of conventionally cast and SSM Al-Si-Mg alloys. Five model alloys were cast to isolate the individual contribution of constituent phases on fatigue resistance. The major constituent phases, alpha-Al dendrites, Al/Si eutectic phase, and Mg-Si strengthening precipitates were mechanistically investigated to relate microstructure to near-threshold crack growth (Delta Kth) and crack propagation regimes (Regions II and III) for alloys of different Si composition/morphology, grain size, secondary dendrite arm spacing, heat treatment. A procedure to evaluate the actual fracture toughness from fatigue crack growth data was successfully developed based on a complex Elastic-Plastic-Fracture-Mechanics (EPFM/J-integral) approach. Residual stress-microstructure interactions, commonly overlooked by researches in the field, were also comprehensively defined and accounted for both experimentally and mathematically, and future revisions of ASTM E647 are expected.

Microstructure

Elastic-Plastic Fracture Mechanics

Crack closure

A356

J-integral

Residual stress

Heat treatment

Fatigue crack growth mechanisms

Threshold stress intensity factor

Plastic zone

Paris law

Fracture toughness

Roughness

Aluminum castings

Cracking

Metals

Fracture

Aluminum alloys

Cracking