Global ETD Search

11	Tribological and Mechanical Behaviour of Lamellar and Compacted Graphite Irons in Engine Applications Ghasemi, Rohollah January 2015 (has links) There has been much discussion about the beneficial uses of lamellar graphite iron in piston rings–cylinder liner systems, where a good combinations of both thermal and tribological properties are essential. The excellent tribological performance of lamellar iron under such sliding conditions is principally associated with lubrication behaviour of the graphite particles which are distributed as lamellas throughout the matrix. During sliding, graphite particles are extruded and smeared onto the counterfaces, act as solid lubricating agents and form a thin graphite film between the sliding surfaces. Although this process especially, during the running-in period significantly changes the sliding wear response of the components, the exact mechanism behind of this phenomenon has rarely been discussed in previous studies. It is tribologically beneficial to keep the graphite open, particularly in applications where the scuffing issues do matter. In this thesis, the main causes involved in closing the graphite lamellas are discussed, with a focus on matrix plastic deformation that occurs during sliding. In first step, the relationship between graphite lamellae orientation and plastic deformation was investigated. To do so, two piston rings, belonging to the same two-stroke marine engine operated for different periods of time, were selected and compared to the unworn sample. The worn piston rings displayed a substantial decrease in both frequency and area fraction of the graphite lamellas. Most of the lamellas were closed as a result of plastic deformation of matrix. This happening was caused mainly by the interaction between abrasive particles and metallic matrix. Additionally, it was found that graphite lamellas parallel or near-parallel to the sliding direction exhibited maximum closing tendency under sliding condition. In next step, to have a better understanding of the graphite film formation mechanism and matrix deformation role in closing the graphite lamellas, microindentation and microscratch testing were performed on typical lamellar iron. The qualitative results showed a similar mechanism involving in graphite contribution to lubricate the sliding surfaces. Moreover, microindentations made nearby the graphite lamellas demonstrated that the deformation of the matrix causes the formation of cracks in the centre of the graphite lamellas, compressing and then extruding the graphite from its natural position, irrespective of the lamellas′ size. Furthermore, it was found that subsurface graphite orientation had a large influence on the extrusion behaviour, in that, for graphite lamellas oriented towards the indenter, the effect was observed more pronounced. Furthermore, an improved fully ferritic solution strengthened compacted graphite iron was produced for future wear studies. The effects of different Si levels and section thicknesses on tensile properties and hardness were investigated as well. The influence of Si content and section thickness on mechanical properties was revealed by improving the materials strength and slightly enhancing the hardness through increasing Si content. Besides, Si addition up to 4.5 wt% significantly affected the strength and elongation to failure of cast samples. / Helios / FFI Sliding wear abrasive wear graphite lubricating performance matrix deformation lamellar graphite iron high-Si compacted graphite iron
12	Tribological and Mechanical Behaviour of Lamellar and Compacted Graphite Irons in Engine Applications Ghasemi, Rohollah January 2015 (has links) There has been much discussion about the beneficial uses of lamellar graphite iron in piston rings–cylinder liner systems, where a good combinations of both thermal and tribological properties are essential. The excellent tribological performance of lamellar iron under such sliding conditions is principally associated with lubrication behaviour of the graphite particles which are distributed as lamellas throughout the matrix. During sliding, graphite particles are extruded and smeared onto the counterfaces, act as solid lubricating agents and form a thin graphite film between the sliding surfaces. Although this process especially, during the running-in period significantly changes the sliding wear response of the components, the exact mechanism behind of this phenomenon has rarely been discussed in previous studies. It is tribologically beneficial to keep the graphite open, particularly in applications where the scuffing issues do matter. In this thesis, the main causes involved in closing the graphite lamellas are discussed, with a focus on matrix plastic deformation that occurs during sliding. In first step, the relationship between graphite lamellae orientation and plastic deformation was investigated. To do so, two piston rings, belonging to the same two-stroke marine engine operated for different periods of time, were selected and compared to the unworn sample. The worn piston rings displayed a substantial decrease in both frequency and area fraction of the graphite lamellas. Most of the lamellas were closed as a result of plastic deformation of matrix. This happening was caused mainly by the interaction between abrasive particles and metallic matrix. Additionally, it was found that graphite lamellas parallel or near-parallel to the sliding direction exhibited maximum closing tendency under sliding condition. In next step, to have a better understanding of the graphite film formation mechanism and matrix deformation role in closing the graphite lamellas, microindentation and microscratch testing were performed on typical lamellar iron. The qualitative results showed a similar mechanism involving in graphite contribution to lubricate the sliding surfaces. Moreover, microindentations made nearby the graphite lamellas demonstrated that the deformation of the matrix causes the formation of cracks in the centre of the graphite lamellas, compressing and then extruding the graphite from its natural position, irrespective of the lamellas′ size. Furthermore, it was found that subsurface graphite orientation had a large influence on the extrusion behaviour, in that, for graphite lamellas oriented towards the indenter, the effect was observed more pronounced. Furthermore, an improved fully ferritic solution strengthened compacted graphite iron was produced for future wear studies. The effects of different Si levels and section thicknesses on tensile properties and hardness were investigated as well. The influence of Si content and section thickness on mechanical properties was revealed by improving the materials strength and slightly enhancing the hardness through increasing Si content. Besides, Si addition up to 4.5 wt% significantly affected the strength and elongation to failure of cast samples. / Helios / FFI Sliding wear abrasive wear graphite lubricating performance matrix deformation lamellar graphite iron high-Si compacted graphite iron
13	Usinabilité de la fonte à graphite vermiculaire / No title available Joly, Damien 19 November 2010 (has links) L’étude présentée est consacrée à l’usinabilité de la fonte à graphite vermiculaire. Celle-ci se situe entre la fonte à graphite lamellaire et la fonte à graphite sphéroïdale par rapport à la forme du graphite constituant ce matériau. Elle est utilisée depuis plus de cinq ans dans les blocs moteurs diesel afin d’améliorer les performances et de diminuer les rejets atmosphériques pour respecter les nouvelles normes Européennes. Pour évaluer l’usinabilité d’un matériau, il faut s’étalonner par rapport à un matériau de référence. Dans notre cas, la fonte à graphite vermiculaire a été comparée à la fonte à graphite lamellaire. Des essais de tractions ont permis d’obtenir les propriétés mécaniques du lot de matière utilisé pour la campagne d’essais d’usinage ; ceci, afin de se situer dans la gamme de ce type de fonte. Les plaquettes d’usinage ont été caractérisées par nano-indentation. Les revêtements PVD et CVD ont subit des essais de micro-rayure afin de caractériser leur adhésion sur leurs substrats respectifs. La mise en place d’un plan d’expérience a permis de limiter le nombre de plaquettes d’usinage prototypes à réaliser. Des essais tribologiques de type pion/disque ont révélé des pistes exploitables pour la compréhension des phénomènes de frottement et d’usures mis en jeu lors de l’usinage de la fonte à graphite vermiculaire. / This study deals with machinability of compacted graphite iron. This material is in-between grey cast iron and nodular cast iron due to the graphite particle shape. It is used for manufacturing diesel engine blocks so as to increase performances and reduce carbon emissions to comply with Euro 5 norm. It is necessary to compare one material to a reference material to evalute machinability criterium. In our case, compacted graphite iron has been compared to grey cast iron. Tensile tests have given us mechanical properties of our test pieces batch used for machining tests. It helped us to qualify the material in its own material range. Inserts have been characterized by nanoindentation. PVD and CVD coatings were benchmarked in microscratch way to determine their respective adhesion to theirs substrates A design of experiment has been setted up so as to reduce number of inserts protypes to be manufactured. Pin on disk tribologic tests gave few hints to have a better understanding of friction phenomena and wear during compacted graphite iron machining. Essais pion/disque Compacted graphite iron Cutting tools Nanoindentation Machining Machinability PVD and CVD coatings Pin on disk tests Tribology
14	Desenvolvimento de pastilhas cerâmicas à bases de Si3N4 para aplicações tribológicas Souza, José Vitor Cândido de [UNESP] January 2005 (has links) (PDF) Made available in DSpace on 2014-06-11T19:34:58Z (GMT). No. of bitstreams: 0 Previous issue date: 2005Bitstream added on 2014-06-13T19:04:58Z : No. of bitstreams: 1 souza_jvc_dr_guara.pdf: 3439864 bytes, checksum: 8f665815b08c108458b7f10749c5f6bb (MD5) / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) / Universidade Estadual Paulista (UNESP) / Nesse trabalho foram desenvolvidas três composições à base de Si3N4 com quantidades e tipos de aditivos diferentes, com objetivos de desenvolver cerâmicas densas de altas resistências, para posteriores testes como ferramentas de corte na usinagem de torneamento do ferro fundido cinzento, ferro fundido vermicular e a liga Ti-6Al-4V. As composições utilizaram aditivos Y2O3/Al2O3 (10%) e AlN/Y2O3 (15 e 20%), e foram sinterizadas pelo processo de sinterização normal. Em seguida foram caracterizadas quanto as propriedades físicas e mecânicas, apresentando bons resultados. Posteriormente a composição de melhores propriedades (SNYA20), foi transformada em inserto para usinagem de corte de acordo com a norma ISO 1832. Os testes de torneamento foram realizados no ferro fundido cinzento com variações de parâmentros, onde para Vc=300m/min, f=0,32mm/rot e ap=1,00mm, alcançou um comprimento de corte de 6533m, superior aos encontrados em literatura, com diminuição dos desgastes, para maiores Vc e ap. O torneamento da liga Ti-6Al-4V em alta velocidade (Vc=180m/min, f=0,10mm/rot e ap=0,50mm), alcançou comprimento de corte de Lc=466m, para um desgaste VBmax=2,20mm. No torneamento do ferro fundido vermicular, com variações de parâmetros, alcançou resultados superiores aos encontrados na literatura com ferramentas cerâmicas comercial, utilizando Vc=200mm/min, f=0,20mm/rot e ap= 0,50mm, obteve-se comprimento de corte Lc=1658m. Os resultados de usinagem obtidos nesse trabalho estão relacionados com as propriedades e fases obtidas. Entretanto alem dos resultados obtidos essas ferramentas apresentam custo em torno de 50% das comerciais e redução de 17- 20% de custo no processo, devido ao uso de fluido refrigerante e proteção ao meio ambiente. / In this work three compositions to base Si3N4 with amounts and types of different additives had been developed, with objective to develop dense ceramics of high strength to possible test as cutting tools in turning of gray cast iron, compacted graphite iron and titanium alloy (Ti-6Al-4V). The compositions had used additives Y2O3/Al2O3 (10%) and AlN/Y2O3 (15 and 20%), and were sinterized by process normal sintering. After sintering the physical and mechanical properties had been characterized, showing interesting results. Posterior the composition the best properties (SNYA20), was transformed into cutting tools to machining in the stand norm ISO 1832. The turning tests had been carried in gray cast iron with different parameters, where to Vc=300m/min, f=0,32mm/rev and ap=1,00mm, obtained a cut length of 6533m, achieving value superior at found in literature, with important reduction to larger cutting speed and cut depth. The turning of the Ti-6Al-4V alloy in high cutting speed (Vc=180m/min, f=0,10mm/rev and ap=0,50mm), obtained cutting length of Lc=466m, to VBmax=2,20mm. In turning compacted graphite iron, with different parameters, obtained value superior at found in literature, when utilize cutting tools ceramics of commercial materials, using for this Vc=200mm/min, f=0,20mm/rev and ap = 0,50mm. These condition obtained cut length of Lc=1658m. The results achieved in this work have been associated with the important physical and mechanical proprieties and phase of cutting tools. However the results obtained with these cutting tools present lower cost (50%) when compared with commercial cutting tools of similar material e reduction of cost in around 17-20%, because the do not use coolant, beside of protection at environment. Materiais compostos Usinagem Ferro fundido cinzento Ferro fundido vermicular Fluido de corte Tribologia Gray cast iron Compacted graphite iron Coolant Tribological
15	Avaliação da usinabilidade da liga de ferro fundido vermicular classe 350 para aplicação em cabeçotes de motor através de ensaios de fresamento frontal / Compact graphite irom class 350 machinability evaluation for cilynder head aplication through front milling testing Silva, Elço da 31 January 2014 (has links) Made available in DSpace on 2016-12-08T17:19:21Z (GMT). No. of bitstreams: 1 Elco da Silva.pdf: 3740304 bytes, checksum: b363ccd0dc2bdce0fadf7011311bf319 (MD5) Previous issue date: 2014-01-31 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / On the present days much effort has been given in the improvement of the strength of materials used in the automotive industry. And it is a great challenge to machine these materials due to the high machining time cycles and tools. This motivated several studies mainly for the Compacted Graphite Iron. The objective of this work is to evaluate the machinability of compacted graphite iron class 350 compared to compacted graphite iron class 400 and 450 and the grey iron class 300. The CGI 350 is object of study to be applied in cylinder heads. In the machinability of a cylinder head, one of the most important process is milling, which was chosen to evaluate these materials. To perform the tests two types of tools (inserts) were used: carbide and CBN. There were used two cutting speeds (Vc) for the carbide tools and one for the CBN. The machinability criteria used were: maximum tool wear (VBmax), edge wear, the power consumed by the machine tool and the roughness of the surface. The result show that, with the increase of the cutting speed, there is higher tool wear. Also the compacted graphite iron presented lower machinability compared to the grey iron. It is also noted that, with higher percentage of ferrite in compacted graphite iron, there is a higher tool wear. The compacted graphite iron class 450 presented the higher power consumption during milling. This alloy has the greatest strength and hardness among the materials studied. Regarding the surface finish of the materials, the compacted graphite iron class 450 presented the best results evaluated in the beginning and at the end of tool lives for both cutting speeds. / Atualmente trabalha-se muito na melhoria da resistência mecânica dos materiais utilizados na confecção de peças automotivas. E está sendo um desafio para a usinagem realizar seu processo nesses materiais, devido ao alto tempo de usinagem e alto custo com ferramentas de corte. Esta foi uma dificuldade inicial no desenvolvimento de blocos de motor em ferro fundido vermicular, e que motivou uma série de estudos. O objetivo deste trabalho é avaliar a usinabilidade do ferro fundido vermicular classe 350 comparando com o vermicular classe 400 e 450 e o cinzento classe 300. O ferro fundido vermicular classe 350 está sendo estudado para aplicação em cabeçotes de motores. Na usinagem de um cabeçote de motor o processo de fresamento é um dos principais aplicados a esta peça, foi escolhido este processo para realizar a avaliação da usinabilidade nestes materiais. Para a realização dos testes foram utilizados dois tipos de insertos para a ferramenta (fresa), o inserto de metal duro (MD) e o inserto de nitreto cúbico de Boro (CBN). Adotaram-se duas condições de cortes diferentes para o inserto de MD, com o intuito de avaliar o comportamento da usinabilidade com o aumento da velocidade de corte (Vc) e uma condição de corte para o inserto de CBN. Os testes de usinabilidade foram realizados de três formas: avaliação do desgaste de flanco máximo (VBmáx.) do inserto, a potência consumida de corte pelos eixos da máquina durante a usinagem e a avaliação do acabamento da superfície usinada (rugosidade) do corpo de prova. Os resultados mostram que com o aumento da velocidade de corte para ambos os materiais em estudo, há um aumento do desgaste da ferramenta, e que as ligas em ferro fundido vermicular foram as que apresentaram pior usinabilidade quando comparado com o ferro fundido cinzento. Observa-se também que com o aumento de ferrita na matriz das ligas em vermicular ocorreu um maior desgaste da ferramenta. O ferro fundido vermicular classe 450 foi o que causou a maior potência consumida de corte durante a usinagem, sendo esta liga a que possui o maior limite de resistência e a maior dureza entre os materiais estudados. Com relação ao acabamento da superfície usinada, o ferro fundido vermicular classe 450 foi também o que obteve o melhor resultado, tanto na avaliação de início de vida do inserto quanto no fim de vida para ambos os ensaios realizados. Ferro fundido vermicular Fresamento Desgaste de ferramenta Compacted graphite iron Milling Tool wear
16	Usinabilidade de ligas de ferro fundido para aplicação em cabeçotes de motor através de ensaios de furação / Machinability of cast Iron alloys for application in cylinder heads using drilling tests Massirer Junior, Ercio 30 June 2010 (has links) Made available in DSpace on 2016-12-08T17:19:36Z (GMT). No. of bitstreams: 1 Pre-textuais.pdf: 73538 bytes, checksum: 312651a50c92e3fa74c571281d3cdc0e (MD5) Previous issue date: 2010-06-30 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / During the last years the Compacted Graphite Iron CGI has acquired a growing placein the automobilist industry. It is used to manufacture several automotive parts, such as disk brakes, exhaust manifolds and, mainly, engine cylinder heads and blocks. Its higher strength, compared to grey cast iron, makes possible the manufacturing of cylinder blocks with higher pressure in the combustion chamber, therefore, more efficient and less pollutant. Lighter engines can be manufactured because of the thinner walls required. On the other hand, the Compacted Graphite Iron brings technological challenges for obtaining cast parts and also to machine them, because they normally reduce the tool lives during machining. This work s objective is to research the machinability of different compositions in order to obtain and alloy that can be used as a feasible alternative for manufacturing cylinder heads. The work consists, fundamentally, in the machinability evaluation of three cast iron alloys, Compacted Graphite Iron classes 450 and 350, and Grey Cast Iron class 300, through drilling tests. The machinability criterion used is the tool wear. / Nos últimos anos o ferro fundido vermicular tem conquistado um crescente espaço na indústria automobilística. Destina-se à fabricação de diversas peças automotivas, tais como discos de freio, coletores de escapamento e, principalmente, cabeçotes e blocos para motores. Sua maior resistência mecânica, em relação ao ferro fundido cinzento, possibilita a fabricação de motores com maiores pressões na câmara de combustão, portanto, mais eficientes e menos poluentes. Motores mais leves podem ser fabricados, em função das menores espessuras de parede necessárias. Por outro lado, o ferro fundido vermicular traz consigo desafios tecnológicos tanto para a obtenção da peça fundida quanto para a usinagem, uma vez que, normalmente, provoca redução da vida das ferramentas de usinagem. O presente trabalho objetiva pesquisar a usinabilidade de diferentes composições a fim de obter uma liga que possa ser utilizada como uma alternativa viável para a fabricação de cabeçotes de motor. O trabalho consiste, fundamentalmente, na avaliação da usinabilidade de três ligas de ferro fundido, sendo o vermicular da classe 450, da classe 350 e o cinzento da classe 300, e para tanto foram utilizados ensaios de furação de longa duração. Como critério de usinabilidade considerado foi utilizado o desgaste da ferramenta. Ferro fundido vermicular Furaçã Usinabilidade Desgaste de ferramenta Compacted Graphite Iron Drilling Machinability Tool wear
17	Inoculant measurement with thermal analysis Armstrong, Christopher January 2020 (has links) Over time the level of inoculant will decrease due to fading and this needs to be compensated bymore additions of inoculant. When casting CGI400 at Scania a one-step method is used, and the inoculant additions are based on the last ladle from the previous oven. Longer stops in production will result in the previous oven not being representable and more inoculant should be added. A method to establish the inoculation level of the base iron in the oven would make it easier to control the process. This study was about inoculation measurements with the help of thermo- analysis of the melt in the oven to get a better understanding how it fluctuates between ovens and changes over time. The study is also about how to implement this tool into production in a foundry. With the help of thermo- analytic measurements, the inoculation level of the melt was established, and the method was also used to see how the level of inoculant changed over. To establish the inoculation additions needed, the saturation point of inoculant was investigated. The results from the study shows that the starting level of inoculant is too low in the melt it also shows that the inoculation level fluctuates over time. The conclusions that can be drawn from this study is that thermos analysis can be used in production to establish the inoculation level, but moremeasurements needs to be conducted to determine its accuracy. / Över tid så minskar ympnivån i en smälta på grund av fading och detta måste kompenseras med mertillsatser av ymp. Vid gjutning av CGI400 på Scania används en en-stegs metod där man baserar ymptillsatsen i skänken på vad ympnivån var i sista skänken från den tidigare ugnen. Vid längre produktionsstopp kommer inte ympnivån från ugnen innan vara representativ utan mer ymp måste tillsättas. En metod för att bestämma ympnivån av basjärnet i ugnen skulle göra det lättare att styra processen. Denna studie handlar om ympmätning med hjälp av termisk analys i bas smälta för att få en bättre förståelse för hur den fluktuerar mellan ugnar och ändras över tid. Studien handlar också om hur man ska kunna applicera denna mätmetod i produktionen på ett gjuteri. Med hjälp av termo analytiska mätningar skulle grundnivån av ymp i smältan bestämmas och även för att se hur nivån ändrades över tiden. För att bestämma tillsatsen av ymp som borde tillföras undersöktes mättnadspunkten av ymp och hur den kunde tillsättas i skänk. Resultaten från studien visar att grundnivån av ymp är för låg och resultaten visar också att nivån av ymp fluktuerar både upp och ner ökar tid vilket inte var vad man hade förväntat sig och även det finns flera faktorer som kan påverka nivån. Slutsatsen som kan dras är att termisk analys kan användas i produktion för att bestämma ympnivån, men mer mätningar behövs för att bestämmadess noggrannhet. Thermal Analysis Inoculation Nucleation Compacted Graphite Iron CGI Cast Iron Material Properties Metallurgy and Metallic Materials Metallurgi och metalliska material
18	Ductile and Compacted Graphite Iron Casting Skin - Evaluation, Effect on Fatigue Strength and Elimination Boonmee, Sarum 20 June 2013 (has links) No description available. Materials Science Metallurgy Compacted Graphite Iron Casting Skin Ductile Iron Mechanism of Formation Tensile Strength Fatigue Strength Shot Blasting Mold Coating
19	The Effect of Solidification time and Cooling rate on the Ultimate tensile Strength of Grey Cast Iron. Sundaram, Dinesh January 2018 (has links) Tensile strength modelling is usually done to predict the mechanical properties of lamellargraphite iron considering microstructural features. This work attempts to create a simplifiedmodel incorporating cooling rate and solidification time without considering themicrostructural features. This model will save time and cost in industry with the presence of acommercially available software such as Magmasoft which simulates solidification time andcooling rate. A plate model was designed for this purpose as the test geometry to createvariation in solidification time and cooling rate. By altering fraction solid, thermalconductivity, specific heat capacity in Magmasoft, a good fit was created between simulatedcooling curve and experimental cooling curves. The experimental UTS data of samples fromthree moulds were investigated and a regression model was created using statistics toolMinitab. The effect of solidification time and alloying on the graphite length Lmax was studiedfor twelve samples from each mould. Quantification of the effect of cooling rate and alloyingon the pearlitic properties of grey iron like matrix microhardness, pearlite inter-lamellarspacing was also investigated in this work.The developed model has sixty three percent correlation and explains UTS well in terms ofsolidification time and cooling rate. Microhardness measurements show that there is an almostlinear relationship between the cooling rate and microhardness of the matrix structure.Microhardness data also provides an overview of the pearlite fineness/interlamellar spacing.Analysis of the outliers showed that the presence of free ferrite on a fully pearlitic structurereduces the UTS significantly. Comparison of the regression model obtained from this workwith previous work showed that, there is a reduction in the predicted strength with this model.The effort to identify the reason for this reduction was not successful and needs furtherinvestigation. Pearlite inter-lamellar spacing measurement was not accurate. The relationshipbetween pearlite interlamellar spacing and matrix microhardness needs to be investigated inthe future using a better technique for pearlite spacing measurement. This will be useful tounderstand the effect of cooling rate on pearlite spacing and consequently on the UTS of greycast iron. / Draghållfasthetsmodellering görs vanligtvis för att förutsäga de mekaniska egenskaperna av lamellärt grafitjärn. Detta arbete har försökt att skapa en förenklad modell som innehåller kylhastighet och stelningstid utan att överväga mikrostrukturella egenskaper. Modellen kommer att spara tid och kostnad i industrin tillsammans med kommersiellt tillgänglig mjukvara som Magmasoft som simulerar stelningstiden och kylningshastighet. En plattformig modell utformades för detta ändamål som testgeometrin för att skapa variation i stelningstid och kylningshastighet. Genom att ändra fraktion fast fas, termisk konduktivitet och specifik värmekapacitet i Magmasoft skapades en bra anpassning mellan simulerade och experimentella kylkurvor. Experimentella draghållfasthetsdata (UTS) för prover från tre gjutningar undersöktes och en regressionsmodell skapades med hjälp av statistikverktyg Minitab. Effekten av stelningstid och legeringshalt på grafitlängden Lmax studerades för tolv prover från varje form. Effekten av kylhastighet och legering på de perlitiska egenskaperna hos grått järn som matrismikrohårdhet och perlitlamellavstånd undersöktes också i detta arbete. Den utvecklade modellen har sextiotre procent korrelation och förklarar UTS väl med avseende på stelningstid och kylningshastighet. Mikrohårdhetsmätningar visar att det finns ett nästan linjärt förhållande mellan kylhastigheten och mikrohårdheten hos matrisstrukturen. Mikrohårdhetsdata ger också en översikt över perlitens finhet/interlamellära avstånd. Analys av outliers visade att närvaron av fri ferrit på en fullständigt perlitisk struktur minskar UTS betydligt. Jämförelse av regressionsmodellen erhållen från detta arbete med tidigare arbete visade det att det finns en minskning av den förutsagda styrkan med denna modell. Ansträngningen att identifiera orsaken till denna minskning var inte framgångsrik och behöver ytterligare undersökas. Perlit mellan lamellär avståndsmätning var inte korrekt. Förhållandet mellan perlitens interlamellära avstånd och matrismikrohet måste undersökas i framtiden med hjälp av en bättre teknik för perlit-avståndsmätning. Detta kommer att vara användbart att förstå effekten av kylhastighet på perlitavståndet och följaktligen på UTS av grå gjutjärn Lamellar graphite iron tensile properties pearlitic properties cooling rate solidification time Magmasoft. Metallurgy and Metallic Materials Metallurgi och metalliska material
20	Criteria for Machinability Evaluation of Compacted Graphite Iron Materials : Design and Production Planning Perspective on Cylinder Block Manufacturing Berglund, Anders January 2011 (has links) The Swedish truck industry is looking for new material solutions to achieve lighter engines with increased strength to meet customer demands and to fulfil the new regulations for more environmentally friendly trucks. This could be achieved by increasing the peak pressure in the cylinders. Consequently, a more efficient combustion is obtained and the exhaust lowered. This, however, exposes the engine to higher loads and material physical properties must therefore be enhanced. One material that could meet these demands is Compacted Graphite Iron (CGI). Its mechanical and physical properties make it ideal as cylinder block material, though there are drawbacks concerning its machinability as compared to other materials that are commonly used for the same purpose. Knowledge about machining of the material and its machinability is consequently inadequate. The main goal of this thesis is to identify and investigate the effect of the major factors and their individual contributions on CGI machining process behaviour. When the relationship between the fundamental features; machinability, material microstructure, and material physical properties, are revealed, the CGI material can be optimized, both regarding the manufacturing process and design requirements. The basic understanding of this is developed mainly through experimental analysis as, e.g., machining experiments and material characterization. The machining model presented in this thesis demonstrates the influence of material and process parameters on CGI machinability. It highlights machinability from both design and production planning perspectives. Another important objective of the thesis is an inverse thermo−mechanical FE model for intermittent machining of CGI. Here, experimental results obtained from a developed simulated milling method are used as input data, both to calibrate and validate the model. With these models, a deeper understanding is obtained regarding the way to achieve a stable process, which is the basis for future optimization procedures. The models can therefore be used as a foundation for the optimization of CGI component manufacturing. / <p>QC 20111121</p> / MERA - OPTIMA CGI / FFI - OPTIMA phase two Metal Cutting Compacted Graphite Iron (CGI) Machinability Design of Experiments (DoE) Inverse Finite Element (FE) Modelling Simulated Milling Method

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