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11	Temperature profiles and hardness estimation of laser welded heat affected zone in low carbon steel Lundberg, Axel January 2014 (has links) Termisk modellring av hårdhet genom beräkning och simulering av den värmepåverkade zonen i en lasersvetsad stålplatta är en omfattande process. Dock är analysen viktig då mikrostrukturella fastransformationer förorsakade av svetsningen kan ge oönskade hårdhetsnivåer av den värmepåverkade zonen jämfört med hårdeheten i basmaterialet. I denna avhandling har analytiska ekvationer implementerats och testats för validitet mot simuleringar gjorda av andra författare och mot experimentella värden.Eftersom termisk modellering av svetsar är ett omfattande område var avhandlingen tvungen att smalnas av för att göra analysen mer fokuserad. Begränsningar gjordes för den matematiska modelleringen genom att endast titta på två-dimensionellt värmeflöde i svetsade plattor där endast den analytiska lösningen är av intresse. Arbetet har också inriktats mot stål då detta material är vida använt över hela världen. Då lasersvetsning är en snabb och kostnadseffektiv process så är hårdhetsanalysen av största vikt. Avhandlingen är uppdelad i tre övergripande delar; den första är att ta fram och förstå arbetet som gjorts inom termisk modellering av svetsar, alltså förstå matematiken bakom problemet. Modelleringen är till för att producera diagram parametrar från en termisk cykel, för att kunna fortgå med korrekt hårdhets analys. För det andra så sätts den matematiska modelleringen på prov i ett antal situationer som var och en simulerar olika förutsättningar. Detta gjordes i ett grafiskt användargränssnitt av ren bekvämlighet. Detta gör att ingenjörer lätt kan implementera olika egenskaper för materialet och få fram diagram och kurvor.Sist, ett liknande grafisk användargränssnitt för att simulera hårdheten i valfri punkt i den värmepåverkade zonen programmerades och därigenom implementerades ekvationerna som denna avhandling handlar om i grund och botten. En teoretisk bakgrund till fasomvandlingen är också inkluderad som förklaring till grundproblemet med oönskad hårdhet i den värmepåverkade zonen i lasersvetsat stål.Huvudslutsatser i avhandlingen:•Matematisk modellering av värmeöverföring i svetsar genomförd av Rosenthal är fortfarande applicerbar på modern lasersvetsningsapparatur. •Den empiriska modellen från Ion et al. (1984) är ej applicerbar med godkänt resultat för hårdhetsuppskattning.•Ekvationerna från Ion (2005) är statistiskt godkända för att simulera hårdhet.•Den analytiska lösningen är överlägsen den numeriska när det gäller snabb och enkel implementering för att simulera termiska cykler och hårdhet, medan den numeriska lösningen kan ta i beaktning mera avancerade egenskaper.•Förvärming av stålet innan svetsning kan vara mycket fördelaktigt för hårdheten i den värme-påverkade zonen, speciellt vid högre kolekvivalent. / Thermal modelling of hardness in the heat-affected zone (HAZ) in a laser welded steel plate is a cumbersome process both in calculation and simulation. The analysis is however important as the microstructural phase transformations induced by welding may cause unwanted hardness levels in the HAZ compared with that of the parent material. In this thesis analytical equations have been implemented and checked for validity against simulations made by other authors and against experimental values.With such a large field as thermal modelling, the thesis had to be narrowed down to make the analysis more subject focused. Limitations made were for mathematical modelling only looking at a two-dimensional heat flow in welded plates; in this thesis only the analytical solution to the heat flow is considered. The work was also directed towards steel; such a material as used largely all over the globe. As laser welding is a fast and cost-effective process, an analysis of hardness is of great importance. Work was divided into three overlapping parts; the first was to derive and understand the work done in the field of thermal modelling of welds, thus understanding the mathematics behind the basic problem. This modelling provides a number of curves and parameters from a thermal cycle, thus enabling one to do the hardness analysis correctly. Secondly, this mathematical modelling was applied to a number of cases, simulating different circumstances. This was done using self-programmed Graphical User Interfaces (GUI) for convenience. This enables engineers to easily plug in the materials and processing properties and thus simulate the required parameters and curves for further analysis.Lastly, a GUI for simulating the hardness of any point in the HAZ was programmed and used, thus implementing and validating the equations. A theoretical introduction of the phases induced in the HAZ is also included, in order of understanding the problems of unwanted hardness in the HAZ of laser-welded steel.Main conclusions of this thesis:•Mathematical modelling of heat transfer in welds by Rosenthal (1946) is still applicable for modern laser welding apparatus.•The empirical model presented by Ion et al. (1984) is not applicable with experimental results of hardness in the HAZ of the steels investigated here.•Equations by Ion (2005) are accurate for simulating the hardness.•The analytical solutions investigated are superior to numerical solutions with regard to quick, simple simulations of thermal cycles and hardness. Numerical solutions allows for more advanced modelling, which can be lengthy.•Preheating the steel prior to welding is favourable in reducing hardness levels, especially with steel of higher carbon equivalent. Laser welding Rosenthal HAZ heat affected zone hardness heat equation thermal modelling Engineering and Technology Teknik och teknologier
12	Avaliação da tenacidade à fratura da zona afetada pelo calor (ZAC) do aço API 5L X80 soldado pelos processos SMAW e FCAW / Evaluation of fracture toughness of the heat affected zone (HAZ) of API 5L X80 steel welded SMAW and FCAW. Fernandes, Paulo Eduardo Alves 12 December 2011 (has links) O presente trabalho investiga a soldabilidade dos aços ARBL (Alta Resistência e Baixa Liga) API 5L X80) e a tenacidade da ZAC (Zona Afetada pelo Calor), assim como a sua correlação com o ensaio CTOD (Crack Tip Opening Displacement) nos processos de soldagem Eletrodo Revestido estudado por Silva [2009] e GMAW-STT® (Gas Metal Arc Welding Surface Tension Transfer®) no passe de raiz com FCAW (Flux Core Arc Welding) para os passes de enchimento e acabamento. Foram utilizados corpos de provas SENB em chapa com espessura de 19 mm e chanfro em ½ V, onde ficaria mais fácil a localização do entalhe na região de grãos grosseiros na zona afetada pelo calor (parte reta do chanfro). Ensaio de tração e impacto Charpy entalhe com 1/2 V foram utilizados para determinar as propriedades mecânicas e de impacto do material testado. Foram comparados os processos SMAW (Eletrodo Revestido), muito utilizado para a soldagem de gasodutos e oleodutos, com os processos GMAW-STT® e FCAW, que têm maior produtividade do que o SMAW. A soldabilidade dos aços ARBL está associada às regiões da ZAC (Zona Afetada pelo Calor) que, por sua vez, encontra-se correlacionado com o processo de soldagem, composição química e com os parâmetros de soldagem utilizados durante o processo de solda, sendo que a qualificação dos procedimentos geralmente não exige o ensaio de tenacidade, como o CTOD. / This work studies HSLA steels (High Strength Low Alloy) API 5L X80 weldability, HAZ (Heat Affected Zone) fracture behavior and their relationship with the CTOD test (Crack Tip Opening Displacement) on the welding processes SMAW (Shielded Metal Arc Welding) studied by Silva [2009] and GMAW-STT® (Gas Metal Arc Welding Surface Tension Transfer®) in the root pass with FCAW (Flux Core Arc Welding) others welding passes. There were used 19 mm width SENB plate samples with a half V groove, where would be easier to locate the crack in the HAZ coarse grain region. Conventional tensile and Charpy V-Notch were performed to determinate mechanical and impact properties of the tested materials. SMAW process, widely used for gas and oil pipelines welding, was compared with GMAW and FCAW processes which have a better productivity than the first one. The HSLA steels weldability is related with HAZ region which also depends on welding process, its parameters and material chemical composition. Normally is not necessary to perform toughness test as CTOD test to evaluate the procedures. Acabamento de superfícies API 5L X80 FCAW Heat affected zone Mecânica da fratura SMAW Soldagem a aço Soldagem a gás Tenacidade dos materiais Toughness
13	A study of laser-arc hybrid weldability of nickel-base INCONEL 738 LC superalloy Ola, Oyedele 08 1900 (has links) Precipitation strengthened nickel-base superalloys, such as IN 738, are very difficult to weld by fusion welding techniques due to their high susceptibility to heat-affected zone (HAZ) intergranular liquation cracking. An improvement in weldability could be realized by the deployment of innovative welding processes and/or the modification of the materials’ microstructural characteristics. Laser-arc hybrid welding is a relatively new welding process that appears to possess great potentials for joining the difficult-to-weld nickel-base superalloys. The research described in this Ph.D. dissertation was initiated to perform a systematic and comprehensive study of the cracking susceptibility of nickel-base IN 738 superalloy welds made by laser-arc hybrid welding process, and how to minimize it by using a combination of pre-weld microstructural modification and the application of various welding filler alloys. Laser-arc hybrid welding produced a desirable weld geometry in IN 738 Superalloy. Cracking did not occur exclusively in the fusion zone. Analysis of the fusion zone material using EPMA, SEM, TEM and EBSD revealed elemental partitioning pattern, the presence of secondary solidification reaction constituents and the grain structure of the fusion zone. Non-equilibrium liquation of various second phases that were present in the alloy prior to welding contributed to intergranular liquation in the HAZ that consequently resulted in extensive HAZ intergranular cracking. A very significant reduction in HAZ intergranular liquation cracking was achieved by the use of an industrially deployable and effective pre-weld thermal processing procedure developed during this research work. This novel procedure, designated as FUMT, was developed on the basis of the control of both boride formation and intergranular boron segregation in the pre-weld material. Propensity for HAZ intergranular liquation cracking in the weldments was also observed to vary depending on the Al+Ti+Nb+Ta concentration of the weld metal produced by different filler alloys, which can be attributed to variation in the extent of precipitation hardening in the weld metals. The newly developed FUMT treatment procedure, coupled with the selection of an appropriate type of filler alloy, is effective in reducing HAZ intergranular cracking both during laser-arc hybrid welding and during post-weld heat treatment (PWHT) of the laser-arc hybrid welded IN 738 superalloy. Laser hybrid Nickel base Heat treatment Filler alloy Liquation cracking Microstructure Heat-affected zone Fusion zone Boride Boron segregation
14	A study of laser-arc hybrid weldability of nickel-base INCONEL 738 LC superalloy Ola, Oyedele 08 1900 (has links) Precipitation strengthened nickel-base superalloys, such as IN 738, are very difficult to weld by fusion welding techniques due to their high susceptibility to heat-affected zone (HAZ) intergranular liquation cracking. An improvement in weldability could be realized by the deployment of innovative welding processes and/or the modification of the materials’ microstructural characteristics. Laser-arc hybrid welding is a relatively new welding process that appears to possess great potentials for joining the difficult-to-weld nickel-base superalloys. The research described in this Ph.D. dissertation was initiated to perform a systematic and comprehensive study of the cracking susceptibility of nickel-base IN 738 superalloy welds made by laser-arc hybrid welding process, and how to minimize it by using a combination of pre-weld microstructural modification and the application of various welding filler alloys. Laser-arc hybrid welding produced a desirable weld geometry in IN 738 Superalloy. Cracking did not occur exclusively in the fusion zone. Analysis of the fusion zone material using EPMA, SEM, TEM and EBSD revealed elemental partitioning pattern, the presence of secondary solidification reaction constituents and the grain structure of the fusion zone. Non-equilibrium liquation of various second phases that were present in the alloy prior to welding contributed to intergranular liquation in the HAZ that consequently resulted in extensive HAZ intergranular cracking. A very significant reduction in HAZ intergranular liquation cracking was achieved by the use of an industrially deployable and effective pre-weld thermal processing procedure developed during this research work. This novel procedure, designated as FUMT, was developed on the basis of the control of both boride formation and intergranular boron segregation in the pre-weld material. Propensity for HAZ intergranular liquation cracking in the weldments was also observed to vary depending on the Al+Ti+Nb+Ta concentration of the weld metal produced by different filler alloys, which can be attributed to variation in the extent of precipitation hardening in the weld metals. The newly developed FUMT treatment procedure, coupled with the selection of an appropriate type of filler alloy, is effective in reducing HAZ intergranular cracking both during laser-arc hybrid welding and during post-weld heat treatment (PWHT) of the laser-arc hybrid welded IN 738 superalloy. Laser hybrid Nickel base Heat treatment Filler alloy Liquation cracking Microstructure Heat-affected zone Fusion zone Boride Boron segregation
15	Investigacao da tensao residual na soldagem laser entre o aco carbono AISI 1010 e o aco inoxidavel AISI 304 / Investigation of residual stress in laser welding between carbon steel AISI 1010 and stainless steel AISI 304 MIRIM, DENILSON de C. 09 October 2014 (has links) Made available in DSpace on 2014-10-09T12:28:54Z (GMT). No. of bitstreams: 0 / Made available in DSpace on 2014-10-09T13:57:01Z (GMT). No. of bitstreams: 0 / Dissertacao (Mestrado) / IPEN/D / Instituto de Pesquisas Energeticas e Nucleares - IPEN-CNEN/SP LASER WELDING RESIDUAL STRESSES HEAT AFFECTED ZONE CARBON STEELS STAINLESS STEELS JOINING NEODYMIUM LASERS X-RAY DIFFRACTION VICKERS HARDNESS
16	Avaliação da tenacidade à fratura da zona afetada pelo calor (ZAC) do aço API 5L X80 soldado pelos processos SMAW e FCAW / Evaluation of fracture toughness of the heat affected zone (HAZ) of API 5L X80 steel welded SMAW and FCAW. Paulo Eduardo Alves Fernandes 12 December 2011 (has links) O presente trabalho investiga a soldabilidade dos aços ARBL (Alta Resistência e Baixa Liga) API 5L X80) e a tenacidade da ZAC (Zona Afetada pelo Calor), assim como a sua correlação com o ensaio CTOD (Crack Tip Opening Displacement) nos processos de soldagem Eletrodo Revestido estudado por Silva [2009] e GMAW-STT® (Gas Metal Arc Welding Surface Tension Transfer®) no passe de raiz com FCAW (Flux Core Arc Welding) para os passes de enchimento e acabamento. Foram utilizados corpos de provas SENB em chapa com espessura de 19 mm e chanfro em ½ V, onde ficaria mais fácil a localização do entalhe na região de grãos grosseiros na zona afetada pelo calor (parte reta do chanfro). Ensaio de tração e impacto Charpy entalhe com 1/2 V foram utilizados para determinar as propriedades mecânicas e de impacto do material testado. Foram comparados os processos SMAW (Eletrodo Revestido), muito utilizado para a soldagem de gasodutos e oleodutos, com os processos GMAW-STT® e FCAW, que têm maior produtividade do que o SMAW. A soldabilidade dos aços ARBL está associada às regiões da ZAC (Zona Afetada pelo Calor) que, por sua vez, encontra-se correlacionado com o processo de soldagem, composição química e com os parâmetros de soldagem utilizados durante o processo de solda, sendo que a qualificação dos procedimentos geralmente não exige o ensaio de tenacidade, como o CTOD. / This work studies HSLA steels (High Strength Low Alloy) API 5L X80 weldability, HAZ (Heat Affected Zone) fracture behavior and their relationship with the CTOD test (Crack Tip Opening Displacement) on the welding processes SMAW (Shielded Metal Arc Welding) studied by Silva [2009] and GMAW-STT® (Gas Metal Arc Welding Surface Tension Transfer®) in the root pass with FCAW (Flux Core Arc Welding) others welding passes. There were used 19 mm width SENB plate samples with a half V groove, where would be easier to locate the crack in the HAZ coarse grain region. Conventional tensile and Charpy V-Notch were performed to determinate mechanical and impact properties of the tested materials. SMAW process, widely used for gas and oil pipelines welding, was compared with GMAW and FCAW processes which have a better productivity than the first one. The HSLA steels weldability is related with HAZ region which also depends on welding process, its parameters and material chemical composition. Normally is not necessary to perform toughness test as CTOD test to evaluate the procedures. Acabamento de superfícies Mecânica da fratura Soldagem a aço Soldagem a gás Tenacidade dos materiais API 5L X80 FCAW Heat affected zone SMAW Toughness
17	Investigacao da tensao residual na soldagem laser entre o aco carbono AISI 1010 e o aco inoxidavel AISI 304 / Investigation of residual stress in laser welding between carbon steel AISI 1010 and stainless steel AISI 304 MIRIM, DENILSON de C. 09 October 2014 (has links) Made available in DSpace on 2014-10-09T12:28:54Z (GMT). No. of bitstreams: 0 / Made available in DSpace on 2014-10-09T13:57:01Z (GMT). No. of bitstreams: 0 / Um dos mais críticos problemas encontrados na união de materiais distintos é a formação de tensões residuais, que ocorre principalmente pelo fato desses materiais possuírem coeficientes de expansão térmica e condutividades térmicas diferentes. Neste trabalho foi estudada a técnica de soldagem laser entre o aço carbono AISI 1010 e o aço inoxidável AISI 304. Os materiais foram unidos por solda autógena de topo com um laser de Nd:YAG contínuo. O principal objetivo do estudo foi a identificação da influência dos parâmetros de soldagem, pela análise das tensões residuais na zona termicamente afetada (ZTA). Foi executado um planejamento fatorial de três fatores a dois níveis com uma réplica, em que foram variadas a potência, a velocidade de soldagem e a posição focal do feixe laser. Na superfície da amostra foram realizadas medidas de tensão residual pela técnica de difração de raios X, para estudar sua variação em função dos parâmetros investigados. O método do furo cego foi também utilizado para avaliar a tensão residual ao longo da profundidade das amostras até a profundidade de 1 mm. Além das medidas de tensão residual, os cordões de solda foram avaliados por microscopia óptica e eletrônica de varredura (MEV), que tiveram como objetivos determinar a geometria do cordão e mudanças na microestrutura, também foram feitas medidas de microdureza Vickers para se avaliar a extensão da ZTA. Para se avaliar as propriedades mecânicas da união foram realizados ensaios de tração e fadiga. O software MINITAB 15 foi utilizado para a análise das tensões residuais nas diferentes profundidades da ZTA obtidas pelo método do furo cego. Foi utilizada também a regressão estatística baseada nas diferentes influências da entrada e combinação dos fatores na tensão residual geradas nessa união. Os resultados indicam que o desenvolvimento de modelos pode prever as respostas satisfatoriamente e fornecer aos usuários um guia para definir os melhores parâmetros de união. / Dissertacao (Mestrado) / IPEN/D / Instituto de Pesquisas Energeticas e Nucleares - IPEN-CNEN/SP laser welding residual stresses heat affected zone carbon steels stainless steels joining neodymium lasers x-ray diffraction vickers hardness
18	PROPELA - procédé de perçage laser pour l'aéronautique / PROPELA - laser drilling process for aerospace industry Nguyen, Minh-Hoang 26 April 2017 (has links) Le perçage est un procédé de fabrication répandu dans le milieu industriel. Le secteur aéronautique a recours à ce procédé pour usiner de nombreuses pièces. Les chambres de combustions en sont un exemple. Exposées à des cycles thermiques sévères, elles sont percées d’une multitude de trous de refroidissement. Chez Safran Helicopter Engines, motoriste spécialisé dans la conception de turbines à gaz pour hélicoptères, ce perçage est réalisé à l’aide d’un procédé d’usinage unique : le perçage par percussion laser à la volée. Ce procédé phare leur permet de réaliser des milliers de trous inclinés dans des tôles en matériaux réfractaires. Safran Helicopter Engines cherche à maintenir son avance dans la production de turbines en s’appuyant sur les innovations constantes du procédé de perçage. Ce travail de thèse s’est articule autour du développement d’un nouveau procédé de perçage laser. De manière à définir un procédé fiable et efficace, plusieurs stratégies de perçage sont étudiées via les possibilités offertes par un laser à fibre milliseconde de haute puissance. Les résultats obtenus laissent entrevoir des perspectives intéressantes en termes d’augmentation de cadence de production à qualité d’usinage équivalente. L’amélioration des performances a été démontrée expérimentalement sur un banc d’essais représentatif des machines de production. Des trous de 400 μm de diamètre incliné à 60o ont pu être réalisés avec un cycle de perçage raccourci au minimum d’un facteur 2. Cette thèse présente également des éléments de compréhension des phénomènes de formation d’un trou. Pour cela, une modélisation des processus thermo hydrodynamiques impliqués dans le procédé de perçage laser a été développée. Ce modèle basé sur une approche par éléments finis repose sur l’étude thermique au cours de l’interaction entre le faisceau laser et la matière. Une partie du modèle inclut les phénomènes de propagation du faisceau dans la cavité en cours de formation afin de traduire de manière plus réaliste le dépôt d’énergie. / Drilling is a well-known manufacturing process. The aeronautic industry uses this process to machine a lot of elements. Among them, we can mention turbine blades, fuel injectors, combustion chambers. The latter are exposed to serious thermal stresses. To limit their impacts, combustion chambers are drilled with multiples cooling holes. At Safran Helicopter Engines, engines manufacturer specialized in engines design for helicopters, drilling is performed with a unique machining process : on the fly laser percussion drilling. This flagship process allows drilling thousands of tilted holes on refractory materials. Safran Helicopter Engines seeks to preserve its leading position in turbo engines manufacturing by looking for steady innovative drilling process. This thesis is structured around the development of a new laser drilling process. To define a reliable and efficient process, several drilling strategies were studied through the possibilities offered by a high-power millisecond fiber laser. The presented results allow catching a glimpse of the possibilities of production improvement. The performance enhancement was established through experimentation with a test bench. Holes of 400 μm diameter with an angle of 60o were drilled with a reduced processing time thanks to this new drilling process. In this thesis, we also propose a theoretical approach describing the hole formation. A mathematical model, accounting for all the physical process taking place during the drilling process is introduced. This model is based on finite elements method and considers the laser beam propagation within the drilled holes by solving Maxwell equations Perçage laser Laser à fibre A la volée Zone affectée thermiquement Conicité Laser drilling Fiber laser On-the-fly Heat affected zone Taper
19	Optimalizace parametrů plazmového řezání. / Optimalization of plasma cutting parameters. Vacula, Jakub January 2009 (has links) VACULA Jakub: Optimization of plasma cutting parameters Diploma thesis of the attendance engineer´s study – Mechanical Engineering, specialization Machinery Technology. Academic year 2008/2009. Faculty of Mechanical Engineering of University of Technology in Brno, Institute of the Manufacturing Technology. The Diploma thesis is concerned with the thermal division of a material, concretely by the plasma cutting. It monitors the operational parameters influence of this process to the result quality of cut and the purpose is to optimize these parameters from the qualitative standpoint. The experiment was executed at the plasma cutting equipment Fine Focus 800 of the company KJELLBERG with the utilization of the material S 690 QL. On the base of the literary study of the thermal division of the materials problems it was also described the comparison of the plasma cutting with the method of the division of materials by the oxygen, both from the point of view of the quality, and from the economical point of view.
20	Weldability Investigations of Advanced High Strength Steels Produced by Flash Processing Hanhold, Brian J. 22 June 2012 (has links) No description available. Engineering Materials Science welding armor steel steel heat-affected zone HAZ laser welding HAZ softening welding engineering welding armor

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