Determinação da tenacidade à fratura da região da solda de um tubo de aço ferrítico ASTM A 335 Gr.P22 através do Deslocamento da Abertura da Ponta da Trinca (CTOD) / Determination of fracture toughness in welds in a ferritic ASTM A 335 Gr.P22 steel pipe by Crack Tip Open Displacement (CTOD) method

Carlos Roberto Zampieri Júnior

26 September 2014

Aços ferríticos ligados ao cromo e molibdênio, como o ASTM A335 P22, são largamente utilizados nos geradores de vapor em plantas termoelétricas ao redor do mundo e podem apresentar trincas por fadiga durante sua operação. A montagem dos componentes dos geradores de vapor em campo é realizada através de técnicas manuais de soldagem e tem sido apontada como um fator crítico para a qualidade destes equipamentos quando algum parâmetro de soldagem é negligenciado durante o processo. A região soldada de um aço ligado sofre grande influência do ciclo térmico durante a soldagem, cujos elementos de liga mesmo em pequenas quantidades presentes no aço e metal da solda aumentam a temperabilidade, e que dessa forma favorece a formação de microestruturas bainíticas ou martensíticas na região soldada. Neste estudo, uma solda realizada de acordo com o procedimento qualificado, com pré-aquecimento e alivio de tensões pós-soldagem, foi comparada com uma solda realizada sem os tratamentos de pré-aquecimento e alivio de tensões, e foi comparada ainda com uma solda realizada sem os tratamentos térmicos de pré-aquecimento e alivio de tensões e com aporte de calor acima do determinado pelo procedimento. Para isto, o desempenho de cada solda foi analisado quanto ao desempenho nos ensaios de tração, dobramento lateral (requisitos de qualificação de procedimento pelo código ASME IX), e nos ensaios complementares de resistência ao impacto charpy e tenacidade à fratura de cada região principal da solda (Material base, ZTA e Metal de adição). A tenacidade à fratura de cada uma das regiões foi determinada através da técnica da mecânica da fratura elasto-plástica do Deslocamento da Abertura da ponta da trinca, \"Crack Tip Open Displacement\" (CTOD), aplicada a materiais dúcteis. O resultado deste estudo comparativo mostra que mesmo negligenciando os limites dos parâmetros do procedimento de soldagem especificado para o aço ASTM A335 P22, com espessura de 21mm e 304,8mm de diâmetro, o procedimento teria sido aprovado nos ensaios de qualificação estabelecidos pela norma (tração e dobramento lateral). Contudo, os resultados dos ensaios de Impacto charpy e CTOD realizados nas regiões da solda, mostraram que o metal de adição apresentou tenacidade bem a baixo do que foi observado para a ZTA e para o material base. Desta forma a realização do pré-aquecimento e tratamento de alívio pós-soldagem produziu microestruturas de menor dureza, mas que não refletiu em um aumento da tenacidade do metal de adição. / Ferritic alloy steels with chromium and molybdenum, as ASTM A335 P22, are widely used in steam generators in power plants around the world and may have broken fatigue during operation. The assembly of the components of the steam generators in the field is performed by manual welding techniques and has been identified as a critical factor for the quality of these devices when some parameter is ignored during the welding process. The welded region of an alloy is influenced thermal cycle during welding, alloying elements present in the steel and weld metal increases hardenability, and thus favors the formation of bainíticas or martensitic microstructures in the welded region. In this study, a weld made according to the procedure qualified, pre-heating and post-weld relief of stress was compared with a weld treatments performed without preheating and relieving stress, and was further compared with a solder heat treatments performed without preheating and stress relief heat input and determined by the above procedure. For this, the performance of each weld was analyzed for performance in tensile tests, lateral bending (qualification requirements of ASME IX by procedure code), and testing of Charpy impact resistance and toughness of each major region of the fracture weld (base material, HAZ and weld metal). The fracture toughness of each region was determined by fracture mechanics technique of elastic-plastic fracture Crack Tip Open Displacement (CTOD) applied to ductile materials. The result of this comparative study shows that even neglecting the parameters limits of the welding procedure specified for ASTM A335 P22 with thickness of 21mm and diameter of 304.8 mm, the procedure would have passed in qualification tests established by ASME IX (tensile and lateral bending). However, the results of Charpy impact and the CTOD tests performed in weld regions showed that the weld metal had a very low tenacity than was observed in the HAZ and the base material. Thus the realization of pre-heating and post-weld treatment relief produced microstructures with lower hardness but that was not reflected in an increase in the toughness of weld metal.

Alívio de tensões

CTOD

Juntas soldadas

Pré-aquecimento

Tenacidade à fratura

ZTA

CTOD

Fracture toughness

Pre-heating

Stress relief

Welding

ZTA

Návrh postupu svařování ložiskové konzoly. / Design of bearing bracket welding process.

Houdek, Aleš

January 2009

The thesis deals with a draft production procedure for a specific welded component of a bearing console, including the consideration of the basic material welding quality, the selection of welding method and parameters, thermal processing, if applicable, and the selection of filler material. Draft welding procedure of WPS and weld check. Consideration of the use of a robot.

Construction and Evaluation of a Numerical Model for Heat Transfer in a Ladle During Pre-heating : A Finite Volume Approach to the Diffusion Equation using Julia

Bjurstam, Gustaf

January 2023

Heat transfer is key to understanding many processes in engineering. At a steel mill heat transfer is absolutely crucial to understanding most of the processes. One such a process is the pre-heating of a freshly relined ladle. The goal of this project was to develop code which could solve the diffusion equation, in an arbitrary three-dimensional geometry, subject to Dirichlet, Robin, Neumann, and certain kinds of non-linear boundary conditions. In order to approximate the solution the code uses a cell centred finite volume methodology. In order to verify the computational correctness of the code it was used on three simple cases where analytic solutions are known, a rarity for three-dimensional boundary value problems. A mathematical model for the heat conduction inside a ladle at Ovako’s site in Hofors was developed. The model was evaluated based on measurements on the outside of the ladle as well as from a temperature probe inside the bottom of the ladle. The model was found to adequately agree with the measured temperature. The code can thus be used to find a more optimal heating regiment of the ladle, possibly reducing emissions. / Värmeöverföring är nyckeln till att förstå många processer inom teknik. På ett stålverk är värmeöverföring helt avgörande för att förstå de flesta av processerna. En sådan process är förvärmning av en nymurad skänk. Målet med detta projekt var att utveckla en kod som kunde lösa diffusionsekvationen i en godtycklig tredimensionell geometri under Dirichlet-, Robin-, Neumann- och vissa typer av icke-linjära randvillkor. För att approximera lösningen använder koden en cellcentrerad finita volymmetodik. För att verifiera kodens beräkningsmässiga korrekthet användes den i tre enkla fall där analytiska lösningar är kända, vilket är en sällsynthet för tredimensionella randvärdesproblem. En matematisk modell för värmeledningen i en skänk vid Ovakos anläggning i Hofors utvecklades. Modellen utvärderades utifrån mätningar på utsidan av skänken samt från ett termoelement inuti botten av skänken. Modellen visade sig stämma väl överens med den uppmätta temperaturen. Koden kan därför användas för att hitta ett mer optimalt uppvärmningsschema för skänken, vilket eventuellt kan minska utsläppen från processen.

Finite Volume Method

FVM

Diffusion equation

Ladle

Pre-heating

Baking

Heat equation

Heat transfer

Finita Volymmetoden

FVM

Diffusionsekvationen

Skänk

Förvärmning

Värmeledningsekvationen

Värmeledning

Metallurgy and Metallic Materials

Metallurgi och metalliska material

Towards multi-sensor monitoringand control of Directed Energy Deposition using a Laser Beam

Kisielewicz, Agnieszka

January 2023

Under senare år har omfattande insatser gjorts för att främja mer hållbara flygtransporter i Europa. De konventionella tillverkningsmetoderna som används inom flyg- och rymdindustrin kräver betydande mängder råmaterial, vars utvinning, bearbetning och användning har negativa miljöeffekter. Därför finns det ett starkt incitament att utveckla nya, mer material-effektiva tillverkningsmetoder. Additiv tillverkning (AM), även känd som 3D-printining, har fördelen att direkt komma nära den slutliga formen på strukturer genom att lägga till material endast där det behövs, något som minimerar spill och förbättrar materialanvändningen. Dock utgör införandet av AM komponenter i säkerhetskritiska flyg- och rymdtillämpningar en betydande utmaning på grund av komplexiteten hos processerna. Denna komplexitet kan leda till tillverkningsvariationer som i sin tur kan resultera i defekter i de tillverkade strukturerna. Därför är framsteg inom automation genom utvecklingen av lösningar för övervakning och styrning under processens gång ett nödvändigt steg för att uppnå tillräcklig pålitlighet och repeterbarhet. Denna avhandling presenterar en utveckling av multisensorövervakning och styrning av Directed Energy Deposition (DED) med en laservärmekälla (LB). DED-LB är en avancerad teknik som möjliggör tillverkning av storskaliga metallkomponenter nära den slutliga formen. I detta arbete har lösningar undersökts för övervakning av DED-LB med tillsatspulver och tråd. För fallet med tillsatstråd kan denna kompletteras med resistiv förvärmning (så kallad hotwire), vilket ger möjlighet att ytterligare finjustera värmetillförseln och förbättra smältprocessen. För övervakningsändamål undersöktes tre olika in-situtekniker för processens stabilitet och varians. Maskinseende och elektriska givare användes för DED-LB med tillsatstråd (DED-LB/w), medan optisk spektroskopi användes för övervakning både av processen med tillsatspulver (DEDLB/p) samt med tråd. Ett multisensorsystem baserat på de tre teknologierna testades för DED-LB/w. Det kamerabaserade systemet gav tydliga indikationer på avvikelser från nominella processförhållanden. Spännings-och strömgivarnas signaler korrelerade med förändringar i processparametrar och återspeglade tydligt metallöverföringen. Spektrometersystemet indikerade förändringar relaterade till värmeöverföringen. Dessutom möjliggjorde analysen av erhållna spektra en detektering av förluster av viktiga legeringselement under DED-LB/p. Slutsatsen från resultaten understryker behovet av multisensorövervakning, eftersom det inte bara möjliggör detektering och skattning av processförändringar utan även en bättre förståelse av deras grundorsaker. Den presenterade ansatsen är ett viktigt bidrag i utvecklingen av ett framtida robust och feltolerant automatiskt styrsystem. / In recent years, an extensive effort has been made to leap European aviation towards more sustainable transportation. Conventional manufacturing methods used in aerospace industry require significant amounts of raw materials, whose extraction, processing, and utilization have adverse environmental impacts. Thus, there is a strong motivation to develop novel, more material efficient fabrication methods. Additive Manufacturing (AM), also known as 3D-printing, offers the advantage of manufacturing near-net-shape structures by adding material only where it is needed, minimizing waste, and improving material efficiency. However, introducing AM fabricated structures as components in safety-critical aerospace systems poses a significant challenge due to the inherent complexity of AM processes. This complexity can result in variations that may lead to defects or inconsistencies in the fabricated structures. Thus, increasing automation by developing in-process monitoring, and control solutions is the vital step to reach the necessary reliability and repeatability. This thesis presents development towards multi-sensor monitoring and control of Directed Energy Deposition (DED) using a Laser Beam (LB). DED-LB is an advanced technology that allows to manufacture large-scale, near-net-shape metallic parts. In this work, in-process monitoring solutions for DED-LB with feedstock powder and wire were investigated. The set-up of the latter was complemented by resistive pre-heating of the feedstock wire (hot-wire) which provided means of fine-tuning the heat input and improving metal fusion. Formonitoring purposes, three different in-situ techniques were investigated to monitor process stability and variability. Machine vision and electrical sensing were utilized during DED-LB with feedstock wire (DED-LB/w) depositions,while optical emission spectroscopy was used for monitoring processes with feedstock powder (DED-LB/p) as well as wire. A multi-sensorsystem based on the three sensing technologies was tested during DED-LB/w depositions. The vision system gave clear indications of variations from nominal conditions. Voltage and current sensors indications correlated to changes in process parameters and reflected well the metal transfer (liquid bridge) condition.The spectrometer system indicated well changes related to heat input. In addition, analysis of obtained spectra allowed to detect losses of vital alloying element during DED-LB/p. The main conclusion from the results underlines the need for simultaneous multi-sensor monitoring as it allows not only to detect and estimate process changes but also to better interpret their root causes. Such setup will positively enable a future robust, fault tolerant control system. / <p>Paper 3 is under acception but included in this thesis with CC BY-license.</p>

Directed Energy Deposition

Laser Beam

in-situ monitoring

multisensor

resistive pre-heating

Directed Energy Deposition

laserstråle

in-situ övervakning

multisensor

resistiv förvärmning

Bearbetnings-, yt- och fogningsteknik

Producing Electricity in Power Plant

Khabrana, Ahmed, Ageeli, Jaber

January 2015

Abstract This Bachelor thesis has been written at the Blekinge Institute of Technology. The thesis describes electricity production in Shoaiba Steam Power plant in Saudi Arabia. Shoaiba Power Plant is located 100 km South of Jeddah city in Saudi Arabia. Total power production ability reaches 4400 MW. Shoaiba Power Plant has two stages and is constructed with 11 units, each unit produces 400 MW at line voltage 24 kV and line current 16 kA. Main pieces of equipment and their function in the station are as follows: A Steam Generator (boiler), produces steam by burning natural gas or crude oil in the furnace. The steam is superheated and is passed into a steam turbine, which converts the thermal energy of the steam into mechanical power, in form of rotary motion. The turbine drives a generator, which converts the rotary energy of the turbine into electric power. Steam generator, steam turbine and electrical generator are components that are described in the thesis. When the flow of steam to the turbine is controlled, then the amount of thermal energy that changes to mechanical energy in the steam turbine is controlled. The electrical generator is where the final energy conversion takes place. The mechanical energy from the turbine is converted by the generator into electrical energy, which is transmitted to the service area by help of electrical transmission lines. The plant cycle is an essential part of the energy flow path. Without the plant cycle, the conversion of thermal energy into mechanical energy would not occur, The plant cycle is a closed loop that allows the same water to be used over and over again. Always, the power plants are situated far from residential areas and located outside cities and close to the sea, because the steam is produced from seawater. The advantages of the steam power stations are as follows: They can produce high amounts of electrical energy from small amounts of fuel. They have low initial costs, obstetrics and maintenance costs are not high, and the stations do not need much space to be built and they have usually high capacity. The disadvantages of steam stations are the following: They cause environmental pollution, they have low efficiency, and require very big quantities of cooling water, and the stations must be built away from populated areas. / Conclusion: Converting in steam power plant is one of many ways to produce electrical energy in the world. It can be done in any country because it can be done with different chemical sources. In Saudi Arabia we use oil, because it easier and cheaper than any other chemical source for us. As any country would use what is better for them. The thesis has described circulation system in Shoaiba power plant by converting chemical energy to thermal energy in the boiler, then the turbine converts thermal energy to mechanical energy. Then the mechanical energy is converted to electrical energy in the generator. The advantages of the steam stations are as follows: production of high amounts of electrical energy from small amounts of fuel, low cost of the initial costs, obstetrics and maintenance costs are not high, the station does not need much space to build and they are usually high capacity. The disadvantages of steam stations are the following: environmental pollution, low efficiency, requires very big amounts of cooling water, and these stations must be built away from population areas. / 0706397524

Social Sciences Interdisciplinary

Signal Processing

Signalbehandling

Mechanical Engineering

Maskinteknik