NUMERICAL INVESTIGATION AND PARALLEL COMPUTING FOR THERMAL TRANSPORT MECHANISM DURING NANOMACHINING

Kumar, Ravi R.

01 January 2007

Nano-scale machining, or Nanomachining is a hybrid process in which the total thermal energy necessary to remove atoms from a work-piece surface is applied from external sources. In the current study, the total thermal energy necessary to remove atoms from a work-piece surface is applied from two sources: (1) localized energy from a laser beam focused to a micron-scale spot to preheat the work-piece, and (2) a high-precision electron-beam emitted from the tips of carbon nano-tubes to remove material via evaporation/sublimation. Macro-to-nano scale heat transfer models are discussed for understanding their capability to capture and its application to predict the transient heat transfer mechanism required for nano-machining. In this case, thermal transport mechanism during nano-scale machining involves both phonons (lattice vibrations) and electrons; it is modeled using a parabolic two-step (PTS) model, which accounts for the time lag between these energy carriers. A numerical algorithm is developed for the solution of the PTS model based on explicit and implicit finite-difference methods. Since numerical solution for simulation of nanomachining involves high computational cost in terms of wall clock time consumed, performance comparison over a wide range of numerical techniques has been done to devise an efficient numerical solution procedure. Gauss-Seidel (GS), successive over relaxation (SOR), conjugate gradient (CG), d -form Douglas-Gunn time splitting, and other methods have been used to compare the computational cost involved in these methods. Use of the Douglas-Gunn time splitting in the solution of 3D time-dependent heat transport equations appears to be optimal especially as problem size (number of spatial grid points and/or required number of time steps) becomes large. Parallel computing is implemented to further reduce the wall clock time required for the complete simulation of nanomachining process. Domain decomposition with inter-processor communication using Message Passing Interface (MPI) libraries is adapted for parallel computing. Performance tuning has been implemented for efficient parallelization by overlapping communication with computation. Numerical solution for laser source and electron-beam source with different Gaussian distribution are presented. Performance of the parallel code is tested on four distinct computer cluster architecture. Results obtained for laser source agree well with available experimental data in the literature. The results for electron-beam source are self-consistent; nevertheless, they need to be validated experimentally.

Influência do tratamento térmico sobre a tenacidade de um aço com AISI SAE 1045 com médio teor de carbono, avaliada por ensaios de impacto /

Gallo, Giulliano Batelochi.

January 2006

Orientador: Marcelo dos Santos Pereira / Banca: Humberto Lopes Rodrigues / Banca: Pedro Paulo de Campos / Resumo: Estudos de novos materiais, mais resistentes, econômicos e de menor densidade, são de grande interesse para aplicações estruturais em projetos de Engenharias. Propriedades mecânicas antes obtidas principalmente por meio de adição de elementos de ligas, como por exemplo elevada dureza, tenacidade e resistência mecânica, podem ser atingidas atualmente com variações no processamento térmico e termomecânico. Estas alterações têm proporcionado a formação de estruturas multifásicas nos aços, e como elemento deste estudo, os aços bifásicos. Neste trabalho, buscou-se entender os efeitos que processamentos térmicos possuem sobre as microestruturas dos aços de médio teor de carbono (SAE 1045), assim como a sua influência sobre as propriedades mecânicas, especialmente sobre a tenacidade, evidenciada por meio de ensaios de impacto. O material tratado termicamente obteve, sua estrutura transformada, visando à formação de estrutura bifásica (ferrita e martensita) e de estrutura formada por martensita revenida, sendo comparadas com a condição do material como fornecido (ferrita e perlita). A caracterização microestrutural foi realizada para determinação das fases presentes, assim como das frações volumétricas respectivas. Ensaios de tração e de impacto foram realizados visando a determinação das propriedades mecânicas do aço. Os resultados mostraram que a interação entre ferrita e martensita, gerada na condição bifásica, possue forte influência nos resultados referentes à tenacidade, assim como a temperatura em que o material foi ensaiado. Comparando-se três estruturas, comprova-se que a estrutura bifásica possui resistência mecânica e tenacidade mais elevadas que os aços temperados e revenidos, e tenacidade proxima a do aço com médio teor de carbono, sem tratamento térmico. / Abstract: Studies of new materials, more resistance, cheaper costs and lower density, have high interest for structural use in engineering projects. Mechanical properties adquired in the past by alloyes adition, for example igher hardness, toughness and mechanical strenght, nowadays can be reached using controlled thermo mechanical process. These changes have provided the multiphase structures formation in steels, for example the dual phase steel, subject of the present study. In this work it was researched the effects of heat process in microestructure of medium carbon steels (SAE 1045) and the influence over mechanical properties, specially in toughers, realized by impact analysis. The heat treatment material has its structure transformed in dual-phase structure (ferrite and martensite) and compared with supplied material (ferrite and perlite). The microestructural characterization was done to determine the present phase, and the respective volumetric fraction of martensite. Tension and impact analysis were done to determine the steel mechanical properties. Results have shown that the interaction between ferrite and martensite generated in dual-phase condition, has higher influence, related the materials toughness, so the temperature that material was analysed comparing the three structures, verifies that the dual-phase struture has level of mechanical resistence and toughness, higher than quenched and tempered steels, and toughness near of medium carbon steel that has not received heat treatment in higher or lower temperatures. / Mestre

Aço - Tratamento termico.

Aço bifásico

Dual-phase steel. eng

Steel SAE 1045. eng

Martensite. eng

Toughness impact analysis. eng

Mechanical Properties of Dual Phase Alloys Composed of Soft and Hard Phases / 軟質相と硬質相から成る二相組織合金の力学特性

Li, Hongxing

23 May 2016

京都大学 / 0048 / 新制・課程博士 / 博士(工学) / 甲第19893号 / 工博第4209号 / 新制||工||1651(附属図書館) / 32970 / 京都大学大学院工学研究科材料工学専攻 / (主査)教授 辻 伸泰, 教授 白井 泰治, 教授 松原 英一郎 / 学位規則第4条第1項該当 / Doctor of Philosophy (Engineering) / Kyoto University / DFAM

Dual phase steel

Martensite

Hardness ratio

Nanoindentation

Work hardening ability

Digital image correlation (DIC)

In-situ neutron diffraction

500

Does it matter who was where? Learning identity-to-location binding from faces

Wan, Michael

06 1900

People unconsciously learn spatial information about places they encounter frequently, leading them to search through familiar scenes faster than for unfamiliar scenes. We explored this phenomenon—the contextual cueing effect—in scenes containing images of different human faces. Participants searched through a series of scenes for a target among distractors, characterized as a letter T among letter L’s with each letter positioned on top of a face image (Experiment 1) or as a female face among male faces (Experiment 2). Experiment 1 showed that when the binding of identity and location was manipulated during learning, slightly greater (but not statistically significant) contextual cueing effects were found for repeated scenes with constant identity-to-location binding than those repeated scenes with constant spatial configurations but shuffled identity-to-location binding. Experiment 2 showed that if the binding of identity-to-location changed after the learning of a set of identity-to-location binding, small (but not statistically significant) costs of contextual cueing were found. The results suggest that in the contextual cueing paradigm, repeated identity-to-location binding might be learned but the learning of repeated spatial configurations alone account for a major portion of the learning. / Thesis / Master of Science (MSc)

contextual cueing

implicit learning

location-based learning

identity-to-location binding

repeated-bound

repeated-unbound

single-phase

dual-phase

The theory and significance of retained austenite in steels

Bhadeshia, Harshad Kumar Dharamshi Hansraj

January 1980

The processes leading to the retention of small quantities of austenite following the bainite and martensite phase transformations have been examined, together with the influence of retained austenite on the properties of low alloy steels. It was found that the upper and lower bainite transformations are separate reactions, although both involve a displacive transformation mode, Growth seems to occur by the repeated nucleation of martensitic sub-units, and this leads to an apparently slow growth rate, The partitioning of carbon from bainitic ferrite into residual austenite was thermodynamically proven to occur subsequent to transformation, and was shown to be directly responsible for the 'incomplete reaction phenomenon'. The nature of sympathetic nucleation and of the limited size of bainitic sub-units was rationalised in terms of the relatively low driving force available for bainite transformations. It was shown that the retention, stability and morphology of austenite could be directly derived from the basic transformation mechanism. Under certain circumstances, the bainitic retained austenite conferred exceptional strength/toughness properties to silicon steels; these were· shown to be superior to the properties associated with tempered martensite microstructures, Using thermodynamics, a model was established which could predict the toughness behaviour of silicon steel bainites simply from a knowledge of the composition. The tempered martensite embrittlement phenomenon was not found to be directly linked to the decomposition of retained austenite films, but to the coarsening of inter- or intra-lath carbides. In dislocated martensites, it was found that the distribution and quantity of retained austenite could be rationalised in terms of the degree of accommodation between adjacent martensite variants. The incipient twins generally observed in lath martensites were shown to be accommodation defects such that the extent of twinning was the greatest when adjacent martensite units had twin-related lattices. The thermodynamics of dislocated martensites have been briefly examined, The inhomogeneous deformation behaviour of dual-phase steels has been analysed in terms of available models.

669

Estudo de viabilidade de produção de um vergalhão de aço dual-phase com alto teor de silício via termodinâmica computacional

Beltrami, Júlia

January 2016

Com o envelhecimento das estruturas de concreto armado, ficou evidente sua deterioração num período de tempo muito menor do que o previsto, pois sempre foram consideradas construções de elevada vida útil. Entre os fenômenos de maior gravidade para a sua estabilidade estrutural está a corrosão das armaduras de aço. Visando melhorar o desempenho das construções, aumentando a vida útil e diminuindo custos com manutenção, esta dissertação propõe o desenvolvimento de um vergalhão com melhor resistência à corrosão, de microestrutura dual-phase. O objetivo principal foi propor uma rota de produção viável, agregando o mínimo de custo possível, de forma a se obter um produto competitivo. A simulação da produção do vergalhão, desde o refino na aciaria, passando por tratamento térmico e propriedades mecânicas, foi realizada com auxílio da termodinâmica computacional, através do software FactSage. A simulação consistiu de três etapas: 1) determinação das temperaturas A1 e A3 e janelas de tratamento térmico; 2) cálculo das propriedades mecânicas a partir de modelos empíricos; 3) comportamento das inclusões durante o refino, durante a solidificação e durante a laminação. O estudo das inclusões é importante porque os aços simulados possuem alto teor de silício (de 1% a 2,5% em massa), podendo precipitar óxidos sólidos nos moldes de lingotamento contínuo. O estudo termodinâmico apontou que a produção de vergalhões com aços dual-phase com alto teor de silício é possível e sugere-se a fabricação pela seguinte rota: aciaria elétrica convencional, com ajuste final do teor de silício após a desoxidação e adição de alumínio controlada para obter inclusões com 15% a 25% de Al2O3, ajuste da escória, rica em CaO, de maneira a obter inclusões favoráveis ao lingotamento contínuo e laminação, e após o último passe de laminação, têmpera por resfriamento em água online (Thermex/Tempcore). / With the aging of reinforced concrete structures, their premature wearing became evident. Among the phenomena of greater severity to the structural stability of buildings is the corrosion of the steel rebar. To improve the performance of these structures, increase their service life and reduce maintenance costs, this work proposes the development of a rebar with better corrosion resistance, with a dual-phase microstructure. The main objective was to propose a viable production route, which adds the least possible cost, so as to obtain a competitive product. The thermodynamic simulation of the rebar manufacturing, from steelmaking to heat treatment and mechanical properties was carried out with the aid of computational thermodynamics using the FactSage software. The simulation consisted of three steps: 1) determining the temperatures A1 and A3 and the heat treatment windows; 2) calculating the mechanical properties from empirical models; 3) analyzing the behavior of inclusions during refining, solidification and hot-rolling. The study of the inclusion system is important because the simulated steels have high silicon content (from 1% to 2.5% by weight) and solid oxides may precipitate in the continuous casting molds. As a result of the study, it was found that the production of rebars with dual-phase microstructure and high silicon content is possible and the manufacturing route proposed is as follows: conventional electric steelmaking, with final adjustment of the silicon content after deoxidation and controlled addition of aluminum to obtain inclusions with 15% to 25% of Al2O3, refining slag rich in CaO, in order to obtain inclusions favorable to continuous casting and hot-rolling, and direct water quenching after the final rolling step (Thermex / Tempcore processes).

Aço

Corrosão

Concreto armado

Inclusão não-metálica

Termodinâmica computacional

Computational thermodynamics

Rebar

Corrosion

Reinforced concrete

Dual-phase steels

Non-metallic inclusions

Intercritical treatment

Soldagem a laser e caracterização microestrutural do aço avançado de alta resistência DP1000 / Laser beam welding and microstructural characterization of advanced high strength steel DP1000

Alves, Paulo Henrique de Oliveira Monteiro

12 April 2018

O desenvolvimento dos veículos atuais vem sendo impulsionado pela necessidade de redução de massa associada com o aumento da segurança para os passageiros. Na procura de novos materiais e processos para atender estas exigências, os aços bifásicos ferrítico-martensíticos ou DP vêm se destacando entre os aços avançados de alta resistência (AHSS), por apresentar elevada resistência mecânica e boa ductilidade. Da mesma forma, a soldagem a laser vem se mostrando promissora para junção desta classe de materiais. Este processo permite unir os aços DP com boa qualidade metalúrgica sem significativas distorções dimensionais. Embora os aços DP apresentem boa soldabilidade, um amolecimento localizado na zona afetada pelo calor (ZAC) também é observado, especialmente no aço DP1000, que apresenta elevada fração de martensita. Desta forma, esta Tese propõe a soldagem a laser do aço DP1000 de espessura 1,80 mm, seguida de uma sistemática caracterização microestrutural, visando a produção de juntas soldadas suficientemente resistentes. Para isto, foram produzidos cordões numa chapa de aço DP1000, variando a potência nominal de soldagem entre 0,4 e 2,0 kW e a velocidade de soldagem entre 20 e 150 mm/s. A caracterização microestrutural foi conduzida com o auxílio das técnicas de microscopia óptica (MO), microscopia eletrônica de varredura (MEV), difração de raios X (DRX) e difração de elétrons retroespalhados (EBSD). As juntas soldadas mais representativas foram submetidas a ensaios de dureza Vickers e tração uniaxial. Os resultados mostram que é possível produzir juntas soldadas resistentes no aço DP1000. Todavia, é fundamental que a combinação de parâmetros gere soldas com penetração total e mínima largura de ZAC, limitando a quantidade de amolecimento da martensita prévia e a fração volumétrica de austenita retida. Na presente Tese, os melhores resultados foram obtidos para uma potência de 2,0 kW e velocidade de 150 mm/s. / The development of modern vehicles has been driven by the need of mass reduction associated with the increase of the safety of passengers. In the search for new materials and processes to meet these requirements, ferritic-martensitic dual-phase (DP) steels are potential candidates among advanced high-strength steels (AHSS), because of their high mechanical strength and good ductility. In that sense, laser beam welding has been shown promising for joining this class of materials. This process allows joining DP steels with good metallurgical quality without large dimensional distortions. Although DP steels show good weldability, a localized softening in the heat affected zone (HAZ) is also observed, especially in DP1000 steel which contains large amounts of martensite. Thus, laser beam welding has been performed in DP1000 steel with thickness of 1.80 mm, followed by a systematic microstructural characterization, aiming at the production of resistant welded joints. For this, bead-on-plate welds were carried out in DP1000 steel, varying the welding power between 0.4 and 2.0 kW and the welding speed between 20 and 150 mm/s. The microstructural characterization was conducted with the aid of light optical microscopy (LOM), scanning electron microscopy (SEM), X-ray diffraction (XRD), and electron backscattered diffraction (EBSD). The most representative welded joints were tested for Vickers hardness and uniaxial tensile test. Results show that it is possible to produce sound and resistant welded joints in DP1000 steel. However, it is critical that the combination of parameters allows the obtainment of welds with full penetration and minimum HAZ width, limiting the amount of softening of prior martensite and the volume fraction of retained austenite. In the present Thesis, this was achieved using a power of 2.0 kW and a welding speed of 150 mm/s.

Aços bifásicos

Caracterização microestrutural

Difração de elétrons retroespalhados

Dual-phase steels

Electron backscattered diffraction

Laser beam welding

Microstructural characterization

Phase transformation

Soldagem a laser

Transformação de fase

Comparação do efeito da fragilização por hidrogênio em aços com resistência à tração acima de 1000 MPa

Rosado, Diego Belato

January 2011

Este trabalho tem por objetivo avaliar os efeitos do hidrogênio em três diferentes tipos de aços de alta resistência mecânica. São descritos os fenômenos de introdução, difusão e aprisionamento de hidrogênio (H) dentro dos metais, em conjunto com os diferentes tipos de danos provocados devido à presença do hidrogênio. Os materiais de estudo são aços da família Advanced High Strength Steels (AHSS): aços Dual Phase (DP 1000 e DP 1200) e aço Martensítico (M 190). A introdução de hidrogênio nos materiais foi realizada através de carregamento catódico, o qual é representativo para as condições industriais a que se destinam. De modo a avaliar a influência do H nas propriedades mecânicas dos aços, os seguintes ensaios foram propostos: ensaio de carregamento com H, para determinar o conteúdo total de H (saturação) e conteúdo de H difusível (suscetibilidade a fragilização); ensaio de tração ao ar, para determinar a tensão no final da região elástica e resistência à tração na região do entalhe e ensaio de tração com carga constante em ambiente hidrogenado, para avaliar os efeitos provocados pela presença do H e determinar o patamar abaixo do qual o H não apresenta efeito crítico sobre o material. Os efeitos provocados pela aplicação de diferentes densidades de correntes (0,2 – 1,0 mA/cm²) foram avaliados nos ensaios de quantificação de H difusível. Conforme os resultados obtidos todos os aços apresentaram perdas na resistência mecânica à tração quando em ambiente hidrogenado, ou seja, sofreram fragilização por H. Os aços DP 1200 e M 190 (de microestrutura predominantemente martensítica) foram fortemente afetados, conforme evidenciado pela notável queda nos valores de tensão necessários para provocar a falha. Por outro lado, o aço DP 1000, de menor resistência mecânica, demonstrou menor suscetibilidade à fragilização, o que é atribuído a menor permeabilidade do H na microestrutura austenítica. / This work aims to evaluate the effects of hydrogen in three high- strength steel grades. The phenomena of hydrogen (H) entry, transport and trapping inside the metals, together with the different types of damages due to the presence of hydrogen are presented. The study materials are a range of AHSS steel grades: Dual Phase Steel (DP 1000 and DP 1200) and Martensitic Steel (M 190). The hydrogen entry was performed by cathodic charging, which is suitable for industrial applications. In order to evaluate the influence of H on the steel mechanical properties, the following tests were done: H charging, to measure total H content (saturation point) and diffusible H content (embrittlement susceptibility); uniaxial tensile test of uncharged samples to determine notched tensile strength values and the strength levels at the end of elastic region and constant load tensile testing carried out in hydrogen environment, to determine the threshold values where hydrogen has an effect on the material. DP 1200 and M 190 were strongly affected by H pre-charging, as shown by the significant drop in stress required to break them. On the other hand, DP 1000 showed a lower embrittlement susceptibility, which is attributed to its lower mechanical strength. The current densities effects (0.2 up to 1.0 mA/cm²) were evaluated during H charging to measure diffusible H content. All steels showed a drop in the tensile strength i.e. experienced hydrogen embrittlement. Steels with higher tensile strength, as DP 1200 and M 190, showed a much bigger drop that is related to the favorable characteristics of martensitic microstructure regarding to the hydrogen permeability and diffusivity.

Aço

Fragilização por hidrogênio

Resistência à tração

Propriedades mecânicas dos materiais

Hydrogen embrittlement

Cathodic charging

Mechanical properties

AHSS

Dual phase (DP) steel

Martensitic (M) steel

EXPERIMENTALLY VALIDATED CRYSTAL PLASTICITY MODELING OF TITANIUM ALLOYS AT MULTIPLE LENGTH-SCALES BASED ON MATERIAL CHARACTERIZATION, ACCOUNTING FOR RESIDUAL STRESSES

Kartik Kapoor (7543412)

30 October 2019

<p>There is a growing need to understand the deformation mechanisms in titanium alloys due to their widespread use in the aerospace industry (especially within gas turbine engines), variation in their properties and performance based on their microstructure, and their tendency to undergo premature failure due to dwell and high cycle fatigue well below their yield strength. Crystal plasticity finite element (CPFE) modeling is a popular computational tool used to understand deformation in these polycrystalline alloys. With the advancement in experimental techniques such as electron backscatter diffraction, digital image correlation (DIC) and high-energy x-ray diffraction, more insights into the microstructure of the material and its deformation process can be attained. This research leverages data from a number of experimental techniques to develop well-informed and calibrated CPFE models for titanium alloys at multiple length-scales and use them to further understand the deformation in these alloys.</p> <p>The first part of the research utilizes experimental data from high-energy x-ray diffraction microscopy to initialize grain-level residual stresses and capture the correct grain morphology within CPFE simulations. Further, another method to incorporate the effect of grain-level residual stresses via geometrically necessary dislocations obtained from 2D material characterization is developed and implemented within the CPFE framework. Using this approach, grain level information about residual stresses obtained spatially over the region of interest, directly from the EBSD and high-energy x-ray diffraction microscopy, is utilized as an input to the model.</p> <p>The second part of this research involves calibrating the CPFE model based upon a systematic and detailed optimization routine utilizing experimental data in the form of macroscopic stress-strain curves coupled with lattice strains on different crystallographic planes for the α and β phases, obtained from high energy X-ray diffraction experiments for multiple material pedigrees with varying β volume fractions. This fully calibrated CPFE model is then used to gain a comprehensive understanding of deformation behavior of Ti-6Al-4V, specifically the effect of the relative orientation of the α and β phases within the microstructure.</p> <p>In the final part of this work, large and highly textured regions, referred to as macrozones or microtextured regions (MTRs), with sizes up to several orders of magnitude larger than that of the individual grains, found in dual phase Titanium alloys are modeled using a reduced order simulation strategy. This is done to overcome the computational challenges associated with modeling macrozones. The reduced order model is then used to investigate the strain localization within the microstructure and the effect of varying the misorientation tolerance on the localization of plastic strain within the macrozones.</p>

Aerospace Engineering

Dual-phase Ti alloy

Burgers Orientation Relationship (BOR)

Dwell Fatigue

Parameter Optimization

model calibration process

Macrozones

Microtextured Regions

Reduced order modeling

Structure and mechanical properties of dual phase steels : An experimental and theoretical analysis

Granbom, Ylva

January 2010

The key to the understanding of the mechanical behavior of dual phase (DP) steels is to a large extent to be found in the microstructure. The microstructure is in its turn a result of the chemical composition and the process parameters during its production. In this thesis the connection between microstructure and mechanical properties is studied, with focus on the microstructure development during annealing in a continuous annealing line. In-line trials as well as the lab simulations have been carried out in order to investigate the impact of alloying elements and process parameters on the microstructure. Further, a dislocation model has been developed in order to analyze the work hardening behavior of DP steels during plastic deformation. From the in-line trials it was concluded that there is an inheritance from the hot rolling process both on the microstructure and properties of the cold rolled and annealed product. Despite large cold rolling reductions, recrystallization and phase transformations, the final dual phase steel is still effected by process parameters far back in the production chain, such as the coiling temperature following the hot rolling. Lab simulations showed that the microstructure and consequently the mechanical properties are impacted not only by the chemical composition of the steel but also by a large number of process parameters such as soaking temperature, cooling rate prior to quenching, quench and temper annealing temperature. / QC 20101004

Dual phase steels

continuous annealing

dilatometry

microstructure

mechanical properties

process parameters

dislocation model

plastic deformation