Global ETD Search

71	Desgaste e fadiga térmica de ligas \'aço matriz + NbC\'. / Wear and thermal fatigue of \'matrix steel + NbC\' alloys. Paula Fernanda da Silva 10 November 2006 (has links) Utilizou-se o conceito de ?aço matriz + NbC? para produzir ligas com a matriz do aço rápido M2 ( 0,5%C ? 2%W ? 3%Mo ? 4,6%Cr ? 1%V) e variadas frações volumétricas de carbonetos de nióbio. Adicionou-se 2,5 e 5% de nióbio e carbono estequiométrico para a obtenção de carbonetos NbC e titânio (0,1%) para modificação da morfologia dos carbonetos NbC. Os carbonetos NbC apresentaram-se como carbonetos eutéticos com morfologia de escrita chinesa, como carbonetos primários com a morfologia de cruz de malta e como carbonetos eutéticos e primários com morfologia poligonal, estes últimos modificados com a adição de titânio. Após tratamento térmico de têmpera e revenimento para obtenção da máxima dureza, as ligas foram submetidas a ensaios de fadiga térmica (100 ciclos, 650ºC), de abrasão (roda de borracha ? 130N, 200rpm, 30min, hematita como abrasivo) e de deslizamento alternado (disco contra esfera ? 70,6N, amplitude: 6mm, freqüência, 6 Hz, 2h) para estudar o efeito da fração volumétrica e da morfologia dos carbonetos frente a estas solicitações. As ligas com carbonetos com morfologia poligonal e menor fração volumétrica de carbonetos (comparando-se morfologias iguais) apresentaram o melhor desempenho sob fadiga térmica devido ao baixo valor do parâmetro C/Dm da microestrutura (continuidade de carbonetos/distância livre média entre carbonetos). Os corpos-de-prova foram caracterizados por meio de microscopia ótica e eletrônica de varredura para determinar os sítios de nucleação e caminhos de propagação das trincas. Nos ensaios em roda de borracha as ligas com carbonetos eutéticos divorciados com morfologia poligonal apresentaram maior resistência ao desgaste do que os aços contendo carbonetos eutéticos cooperativos. O aumento da fração volumétrica de carbonetos NbC teve um máximo na resistência a abrasão e depois uma queda devido a presença de carbonetos primários grosseiros que fraturaram na superfície ensaiada e foram arrancados aumentanto a perda de massa. Nos ensaios de deslizamento alternado não foi possível hierarquizar o comportamento das ligas. Os corpos-de-prova de abrasão e de deslizamento foram caracterizados por microscopia ótica e eletrônica de varredura para determinar os mecanismos de desgaste atuantes. Um aço rápido para cilindros de laminação a quente (2%C ? 5%Cr ? 5%Mo ? 5%V) foi ensaiado sob condições idênticas às aplicadas às ligas estudadas, objetivando comparar desempenhos. O aço rápido apresentou desempenho superior nos ensaios de abrasão e de deslizamento alternado (devido a alta fração volumétrica de carbonetos eutéticos) e inferior no ensaio de fadiga térmica (devido ao alto parâmetro C/Dm da microestrutura oriundo da alta fração volumétrica de carbonetos eutéticos). / The concept of ?matrix steel + NbC? was used to cast alloys with the M2 steel matrix (0,5%C ? 2%W ? 3%Mo ? 4,6%Cr ? 1%V) and different volume fractions of niobium carbides. Niobium (2,5 e 5%) and stoichiometric carbon were added to produce NbC carbides and titanium (0,1%) to modify de NbC carbides morphology. NbC presented three basic morphologies: Chinese script (coupled eutectic); primary carbides with cross morphology and polygonal primary and eutectic carbides (divorced eutectics). After heat treatment of quench and temper in order to obtain the maximum hardness, the alloys were submitted to thermal fatigue test (100 cycles, 650ºC), dry rubber wheel abrasive wear test (130N, 200rpm, 30min, hematite as abrasive) and reciprocating sliding wear test (70,6N, amplitude: 6mm, frequency: 6Hz, 2h). The alloys with polygonal NbC carbides and lower volume fractions of carbides (for the same morphology) showed the best behaviour due to their low ?carbide continuity/carbide free path? ratio of the microstructure. The alloys were characterized by optical microscopy and SEM to investigate de cracks nucleation and propagation. In the dry rubber wheel tests, polygonal NbC eutectic carbides (divorced eutectics) showed better behaviour than Chinese script NbC eutectic carbides. High volume fractions of NbC carbides improved the abrasion resistance until a maximum and after that, the presence of big primary NbC carbides, lowered the abrasion resistance due to cracks in those big carbides. The results of the reciprocating sliding tests have not allowed to rank the performance of the alloys. Abrasion and sliding specimens were submitted to optical microscopy and SEM in order to evaluate the prevalent wear mechanisms. One high speed steel for hot rolling mill rolls (2%C ? 5%Cr ? 5%Mo ? 5%V) was tested under the same conditions that the alloys studied were tested in order to compare their performances. The high speed steel showed better performance in abrasion and reciprocating sliding wear due to the high volume fraction of coupled eutectic carbides and lower performance in thermal fatigue due to the high ?carbide continuity/carbide free path? ratio of the microstructure than the alloys studied. Aço matriz + NbC Aço rápido Desgaste abrasivo Desgaste por deslizamento Fadiga térmica Abrasive wear High speed steel Matrix steel + NbC Sliding wear Thermal fatigue
72	Desgaste abrasivo de uma resina composta, através de três diferentes métodos (disco retificado, escovação e nanodurômetro) / Abrasive wear of a composite resin, using three different methods (ground disc, toothbrushing and nanodurometer) Márcia Furtado Antunes de Freitas 16 September 2011 (has links) Neste estudo, foi avaliada a resistência ao desgaste abrasivo de uma resina composta, através de três diferentes métodos: do disco retificado, por escovação e do nanodurômetro. Nos dois primeiros métodos, foram utilizados 20 espécimes da resina Filtek Z250 (10 da cor Incisal e 10 da cor C4, ambos fotopolimerizados por 30 segundos cada) e 10 de polimetilmetacrilato (PMMA), atuando estes últimos como padrão de referência. Para os ensaios com o nanodurômetro, foi utilizado apenas um espécime de cada cor, assim como um único de PMMA, em cujas superfícies planas foram efetuadas sete medições, o que foi considerado equivalente a sete espécimes. No método do disco retificado, cada espécime de resina composta era confeccionado diretamente numa cavidade semicircular, localizada na periferia de um disco-suporte; os espécimes de PMMA consistiam em discos constituídos exclusivamente por este material; o desgaste de cada espécime era promovido por um disco de porcelana e seu conseqüente deslocamento era detectado por um palpador; assim, a taxa de desgaste era estabelecida, expressa em milímetros cúbicos por newton por segundo (mm3/N.s). No método de escovação, cada espécime cilíndrico ficava preso numa placa metálica, a qual era fixada no interior da máquina de escovação; sua perda de massa (em miligramas) era verificada através de uma balança analítica. No método do nanodurômetro, existiu apenas um espécime ci líndrico para cada condição, em cuja face plana superior eram feitos sete sulcos (equivalentes a sete espécimes); o coeficiente de atrito permitia estabelecer a respectiva resistência ao desgaste. Para cada método utilizado, os dados foram tratados estatisticamente, através de análise de variância (ANOVA) e de teste de Tukey. Pôde-se concluir que, através do disco retificado, a taxa de desgaste (em mm3/N.s) dos materiais foi: Incisal (0,6807) > C4 (0,5012) > PMMA (0,1439); que, através da escovação, a taxa de desgaste (em mg) foi de 5,40 para Incisal, de 9,35 para C4 e de 5,88 para PMMA, sem diferença significante apenas entre Incisal e PMMA, os mais resistentes; e que, através do nanodurômtero, a resistência ao desgaste abrasivo (expressa pelo coeficiente de atrito) foi de 0,207 para Incisal, de 0,214 para C4 e de 0,281 para PMMA, sem diferença significante agora apenas entre Incisal e C4, os menos resistentes. / Abrasive wear of a composite resin, using three different methods (ground disc, toothbrushing and nanodurometer). The aim at this study was to evaluate the resistance to abrasive wear of a composite resin, using three different methods: ground disc, toothbrushing and nanodurometer. At the first two methods were employed 20 specimens of Filtek Z250 composite resin (10 of Incisal and 10 of C4, both the colors cured for 30 seconds each one) and 10 of polymethylmethacrylate (PMMA), the latter acting as a reference standard. For the tests with the nanodurometer it was used only one specimen of each color, as well as just one of PMMA, in whose flat surfaces seven measurements were made, what was considered equivalent to seven specimens. At the ground disc method, each composite resin specimen was directly made on a semicircular cavity located on the periphery of a supporting disc; PMMA specimens consisted of discs made up exclusively with this material; the wear of each specimen was promoted by a ceramic disc and its consequent displacement was detected by a sensor; thus, the wear rate was established, expressed in cubic millimeters per newton per second (mm3/N.s). At the toothbrushing method, each cylindrical specimen was trapped in a metal plate, which was fixed inside the machine brushing; its weight loss (in milligrams) was verified by an analytical balance. At the nanodurometer method, there was only one cylindrical specimen for each condition, in whose flat upper face seven grooves were made (what was equivalent to seven specimens); the coefficient of friction was used to establish its wear resistance. For each method, data were statistically analyzed by ANOVA and Tukey\'s test. It could be concluded that, by ground disc method, materials wear rate (in mm3/N.s) was Incisal (0.6807) > C4 (0.5012) > PMMA (0.1439); by brushing method, materials wear rate (in mg) was 5.40 for Incisal, 9.35 for C4 and 5.88 for PMMA, without significant difference only between Incisal and PMMA (the toughest); by nanodurometer method, abrasive wear resistance (expressed by the coefficient of friction) was 0.207 for Incisal, 0.214 for C4 and 0.281 for PMMA, now without significant difference just between Incisal and C4, the least resistant. Desgaste abrasivo Desgaste de restauração dentária Dureza Escovação dentária Resinas compostas Sistema do disco retificado Abrasive wear Composite resins Dental restoration wear Ground disc method Hardness Toothbrushing
73	Vysoce legované litiny Ni-resist a jejich vlastnosti / High-alloyed cast irons Ni-resist and treir properties Matulová, Anna January 2019 (has links) This master’s thesis deals with high-alloyed Ni-Resist cast irons and their properties. The theoretical part describes their chemical composition and individual elements from which are these cast irons composed, their characteristic properties and examples of use in practice. Furthermore, the work focuses on the wear of materials, especially on abrasive wear, because Ni-Resist casts iron exhibit a number of specific properties, such as corrosion resistance, refractoriness and heat resistance and also abrasion resistance, on which is this thesis focused. Attention is also paid to other abrasion resistant materials, because specimens from different materials are compared in the practical part in order to find a more suitable material for the production of plate castings into the shakeouts.
74	Reibmessgerät zur Bestimmung des Gleitreibkoeffizienten von bahnförmigen Packstoffen Kayatz, Fabian, Claus, Ronald January 2014 (has links) No description available. info:eu-repo/classification/ddc/620 ddc:620
75	Experimental investigation and wear simulation of three-body abrasion Doan, Yen The 15 December 2014 (has links) The wear process in three-body contact causes problems of abrasion such as volume loss and changes of geometry of the triboelements. The wear problem leads to increased failure and high costs for repairing or replacing equipment. To understand the nature of the wear behaviour and to predict the wear rate in advance, experimental investigation and numerical simulation of the wear process are required. In this work, the wear process is analysed and the influencing parameters governing the wear behaviour are investigated experimentally to develop a new wear model. Main influential factors are considered such as kinematics of abrasive particles, contact stiffness of the particle layer, friction characteristics, and wear factors. The experiments to study kinematics of particle layers are performed on a new observation tester. To define the contact stiffness of abrasive particles, experiments are conducted by the uniaxial spindle compression tester. Moreover, a tribometer test rig with applied load up to 200 N and velocity up to 1000 mm/s is used to investigate the friction characteristics and the wear behaviour of three-body tribosystem. Analyses of influential factors on the wear behaviour in dependency of predefined process parameter are carried out. Additionally, based on the results of the experimental investigations, approximation equations representing the relation of the influential factors and the process parameters are determined. A three-body wear model is build up to represent the wear behaviour by physical wear laws. Furthermore, these approximation equations and the relevant parameters obtained by experimental investigations are included in the Fleischer’s wear equation to simulate the wear process. With the coupled model the wear process of the sample can be simulated twodimensional over the sliding distance. It is possible to predict the wear depth and the wear intensity, which can be used to estimate the wear rate. Additionally, from the results of the wear simulation the worn surface and the local contact pressure in the contact region are determined which provide a deeper insight into the wear process. With this simulation the understanding of the wear behaviour can be improved which is important to solve wear problems. info:eu-repo/classification/ddc/620 ddc:620 Drei-Körper-Abrasion Abrasive wear, Three-body abrasion
76	Wear testing of high-alloy carbon steel used in mining tools Olsson, Sara, Efsing, Linn January 2013 (has links) Wear is a commonly occurring degradation mechanism for materials and components in the rock drilling industry. The wear can occur by either abrasion or adhesive wear. Further corrosion and presence of water or other lubricating fluids with or without particles may influence the behavior. Which mechanism, or mechanisms, and under which conditions it occurs, as well as the relative wear rate is dependent on the actual operating conditions for the component. In the present study, commonly available and general test methods for wear on high-alloy carbon steel has been analyzed. The project has been carried out through literature reviews and study visits at the tribology laboratory at KTH and at the Angstroms laboratory at Uppsala University. The present study indicates that it is difficult to suggest a feasible test method that is possible to use for all different situations of the wear that may occur. A test adapted to the actual situation is required to achieve a proper wear rate comparable to the wear rate in a real application. According to the requirements from Ovako AB, a test that is general, cost effective and can be used when developing steel with higher wear-resistance, following wear testing methods has been compared: a pin-on-disk apparatus, a dry/wet sand/rubber wheel, a dry/wet sand/steel wheel, a tumbling mill, a particle erosion rig, a solid particle impingement using gas jets and a grinding machine. The tumbling mill, the grinder and the “Standard Test Method for Wear Testing with a Pin-On- Disk Apparatus” correspond to the requirements best. Ovako AB is recommended to continue the work with these testing methods. / Nötning är en vanlig mekanism som orsakar nedbrytning på material i gruvindustrin. Nötningen kan förekomma som abrasiv eller adhesiv nötning. Korrosion och närvaro av vatten eller andra smörjande vätskor med eller utan lösa partiklar kan påverka beteendet. Den eller de mekanismer som styr nötningen såväl som nötningstalet beror på de aktuella förhållanden vilka materialet eller materialen verkar i. I denna studie har en generell testmetod för att utvärdera nötning på höglegerat kolstål har undersökts. Arbetet har genomförts genom litteratursökning samt studiebesök vid tribologiska laboratoriet på KTH samt på Ångströmska i Uppsala. Utifrån arbetet har det visat sig att det inte förekommer några generella nötningstest för alla applikationer, då det krävs ett test som är anpassat efter verkligheten för att få ut korrekt nötningstal. Utifrån Ovako ABs önskemål om ett generellt test som är ekonomiskt hållbart samt kan användas för att utveckla nötningsbeständigheten i de stål där nötning förekommer har följande testmetoder jämförts: pinne/skiva-maskin, blött/torrt sand/gummihjul, blött/torrt sand/stålhjul, roterande trumma, ”Erofugen”, partikelsprutare och en slipmaskin. De test som motsvarar kravprofilen bäst är den roterande trumman, slipmaskinen samt den standardiserade pinne/skiva-maskinen. Utifrån dessa testmetoder rekommenderas Ovako AB att fortsätta arbetet. Wear Wear-testing methods Adhesive wear Abrasive wear Nötning Nötningstester Adhesiv nötning Abrasiv nötning
77	Estudo do desgaste e atrito em ensaios micro-abrasivos por esfera rotativa fixa em condições de força normal constante e pressão constante. / Wear and friction study in micro-abrasive wear testing by rotative fixed ball under conditions of constant normal force and constant pressure. Cozza, Ronaldo Câmara 01 June 2011 (has links) O ensaio de desgaste micro-abrasivo por esfera rotativa vem conquistando elevada aceitação em universidades e centros de pesquisa, sendo amplamente adotado em estudos envolvendo desgaste abrasivo de materiais. Dois modos de desgaste abrasivo podem ser observados neste tipo de ensaio: rolamento resulta quando as partículas abrasivas rolam sobre a superfície do corpo-de-prova, enquanto riscamento é observado quando as partículas abrasivas deslizam sobre o mesmo; o tipo do modo de desgaste abrasivo apresenta uma significante influência sobre o comportamento de um sistema tribológico. Diversos trabalhos envolvendo coeficiente de atrito durante ensaios de desgaste abrasivo estão disponíveis na literatura, mas somente uma pequena parcela dedicaram-se ao estudo do coeficiente de atrito desenvolvido em ensaios de desgaste micro-abrasivo conduzidos por esfera rotativa. Adicionalmente, pesquisas preliminares reportaram que os resultados são dependentes da variação de pressão, ocasionada pela condução de ensaios sob condições de força normal constante. Logo, o propósito desta Tese de Doutorado é pesquisar a relação entre coeficiente de atrito e modos de desgaste abrasivo em ensaios desgaste micro-abrasivo por esfera rotativa, em condições de força normal constante e pressão constante. Ensaios ball-cratering foram conduzidos com esferas de aço AISI 52100 e um corpo-de-prova de aço-ferramenta AISI H10. A pasta abrasiva foi preparada com partículas de carbeto de silício (SiC) preto (tamanho médio de partícula de 3 m) e água destilada. Diferentes valores de força normal constante e pressão constante foram definidos para os experimentos. As forças normal (N) e tangencial (T) foram monitoradas continuamente durante os ensaios e a relação entre T/N foi calculada para fornecer uma indicação do coeficiente de atrito atuante no sistema tribológico esfera / partículas abrasivas / corpo-de-prova. Em todos os casos, análises por Microscopia Óptica das crateras de desgaste revelaram somente a presença de desgaste abrasivo por riscamento. Entretanto, observações mais detalhadas, conduzidas por Microscopia Eletrônica de Varredura, indicaram que diferentes níveis desgaste abrasivo por rolamento atuaram ao longo dos riscos, fenômeno nomeado de micro-rolling abrasion (microrolamento). Além disso, os resultados obtidos mostraram, também, que: i) a distância de deslizamento apresenta significante influência sobre a transição entre os modos de desgaste abrasivo, ii) para os valores de força normal constante e pressão constante adotados, o coeficiente de atrito manteve-se, aproximadamente, na mesma faixa de valores e iii) o coeficiente de atrito é independente da taxa de desgaste. / The micro-scale abrasive wear test by rotative ball has gained large acceptance in universities and research centers, being widely used in studies on the abrasive wear of materials. Two wear modes are usually observed in this type of test: rolling abrasion results when the abrasive particles roll on the surface of the tested specimen, while grooving abrasion is observed when the abrasive particles slide; the type of wear mode has a significant effect on the overall behaviour of a tribological system. Several works on the friction coefficient during abrasive wear tests are available in the literature, but only a few were dedicated to the friction coefficient in micro-abrasive wear tests conducted with rotating ball. Additionally, recent works have identified that results may also be affected by the change in contact pressure that occurs when tests are conducted with constant applied force. Thus, the purpose of this work is to study the relationship between friction coefficient and abrasive wear modes in ball-cratering wear tests conducted at constant normal force and constant pressure. Micro-scale abrasive wear tests were conducted with a ball of AISI 52100 steel and a specimen of AISI H10 tool steel. The abrasive slurry was prepared with black silicon carbide (SiC) particles (average particle size of 3 m) and distilled water. Two constant normal force values and two constant pressure values were selected for the tests. The tangential and normal loads were monitored throughout the tests and their ratio was calculated to provide an indication of the friction coefficient. In all cases, optical microscopy analysis of the worn craters revelated only the presence of grooving abrasion. However, a more detailed analysis conducted by SEM has indicated that different degrees of rolling abrasion have also occurred along the grooves. The results have also shown that: i) the sliding distance presents an important role on the wear mode transition, ii) for the selected values of constant normal force and constant pressure, the friction coefficient presented, approximately, the same range of values and ii) the friction coefficient was independent of the wear rate. Ball-cratering Ball-cratering Coeficiente de atrito Desgaste Desgaste abrasivo por riscamento Desgaste abrasivo por rolamento Desgaste micro-abrasivo Friction coefficient Grooving abrasion Micro-abrasive wear Pressão Pressure Rolling abrasion Wear
78	Estudo do desgaste e atrito em ensaios micro-abrasivos por esfera rotativa fixa em condições de força normal constante e pressão constante. / Wear and friction study in micro-abrasive wear testing by rotative fixed ball under conditions of constant normal force and constant pressure. Ronaldo Câmara Cozza 01 June 2011 (has links) O ensaio de desgaste micro-abrasivo por esfera rotativa vem conquistando elevada aceitação em universidades e centros de pesquisa, sendo amplamente adotado em estudos envolvendo desgaste abrasivo de materiais. Dois modos de desgaste abrasivo podem ser observados neste tipo de ensaio: rolamento resulta quando as partículas abrasivas rolam sobre a superfície do corpo-de-prova, enquanto riscamento é observado quando as partículas abrasivas deslizam sobre o mesmo; o tipo do modo de desgaste abrasivo apresenta uma significante influência sobre o comportamento de um sistema tribológico. Diversos trabalhos envolvendo coeficiente de atrito durante ensaios de desgaste abrasivo estão disponíveis na literatura, mas somente uma pequena parcela dedicaram-se ao estudo do coeficiente de atrito desenvolvido em ensaios de desgaste micro-abrasivo conduzidos por esfera rotativa. Adicionalmente, pesquisas preliminares reportaram que os resultados são dependentes da variação de pressão, ocasionada pela condução de ensaios sob condições de força normal constante. Logo, o propósito desta Tese de Doutorado é pesquisar a relação entre coeficiente de atrito e modos de desgaste abrasivo em ensaios desgaste micro-abrasivo por esfera rotativa, em condições de força normal constante e pressão constante. Ensaios ball-cratering foram conduzidos com esferas de aço AISI 52100 e um corpo-de-prova de aço-ferramenta AISI H10. A pasta abrasiva foi preparada com partículas de carbeto de silício (SiC) preto (tamanho médio de partícula de 3 m) e água destilada. Diferentes valores de força normal constante e pressão constante foram definidos para os experimentos. As forças normal (N) e tangencial (T) foram monitoradas continuamente durante os ensaios e a relação entre T/N foi calculada para fornecer uma indicação do coeficiente de atrito atuante no sistema tribológico esfera / partículas abrasivas / corpo-de-prova. Em todos os casos, análises por Microscopia Óptica das crateras de desgaste revelaram somente a presença de desgaste abrasivo por riscamento. Entretanto, observações mais detalhadas, conduzidas por Microscopia Eletrônica de Varredura, indicaram que diferentes níveis desgaste abrasivo por rolamento atuaram ao longo dos riscos, fenômeno nomeado de micro-rolling abrasion (microrolamento). Além disso, os resultados obtidos mostraram, também, que: i) a distância de deslizamento apresenta significante influência sobre a transição entre os modos de desgaste abrasivo, ii) para os valores de força normal constante e pressão constante adotados, o coeficiente de atrito manteve-se, aproximadamente, na mesma faixa de valores e iii) o coeficiente de atrito é independente da taxa de desgaste. / The micro-scale abrasive wear test by rotative ball has gained large acceptance in universities and research centers, being widely used in studies on the abrasive wear of materials. Two wear modes are usually observed in this type of test: rolling abrasion results when the abrasive particles roll on the surface of the tested specimen, while grooving abrasion is observed when the abrasive particles slide; the type of wear mode has a significant effect on the overall behaviour of a tribological system. Several works on the friction coefficient during abrasive wear tests are available in the literature, but only a few were dedicated to the friction coefficient in micro-abrasive wear tests conducted with rotating ball. Additionally, recent works have identified that results may also be affected by the change in contact pressure that occurs when tests are conducted with constant applied force. Thus, the purpose of this work is to study the relationship between friction coefficient and abrasive wear modes in ball-cratering wear tests conducted at constant normal force and constant pressure. Micro-scale abrasive wear tests were conducted with a ball of AISI 52100 steel and a specimen of AISI H10 tool steel. The abrasive slurry was prepared with black silicon carbide (SiC) particles (average particle size of 3 m) and distilled water. Two constant normal force values and two constant pressure values were selected for the tests. The tangential and normal loads were monitored throughout the tests and their ratio was calculated to provide an indication of the friction coefficient. In all cases, optical microscopy analysis of the worn craters revelated only the presence of grooving abrasion. However, a more detailed analysis conducted by SEM has indicated that different degrees of rolling abrasion have also occurred along the grooves. The results have also shown that: i) the sliding distance presents an important role on the wear mode transition, ii) for the selected values of constant normal force and constant pressure, the friction coefficient presented, approximately, the same range of values and ii) the friction coefficient was independent of the wear rate. Ball-cratering Coeficiente de atrito Desgaste Desgaste abrasivo por riscamento Desgaste abrasivo por rolamento Desgaste micro-abrasivo Pressão Ball-cratering Friction coefficient Grooving abrasion Micro-abrasive wear Pressure Rolling abrasion Wear
79	PREVENTION OF WHEEL WEAR, A CASE STUDY : Developing a functioning wheel profile for rail-mounted transportation trolley. Inglot, Agnieszka, Franzén, Oskar January 2019 (has links) This bachelor’s degree project aimed to improve the wheel profile of a rail mounted trolley and determine the cause of wheel failure. The proceedings of this project where modelled after an approach for solving wear problems with an emphasis on designing for sustainability. A case study and root cause analysis (RCA) was performed and the flanged wheels were deemed insufficient for the given heavy-haul system. Possible areas of wheel profile improvement were identified and further researched with multiple literature reviews. Throughout the projects duration several limitations were introduced that reduced the concept testing to exclusively theoretical prediction models. Archard’s model was implemented to predict wear and operating time for the proposed material and wheel tread profile concepts. The wheel flange dimensions were chosen based on recommendations from wheel and rail interference handbooks among other sources. The final wheel and rail profile suggestion improved operating time by approximately 300% and wear resistance by 50% compared to its predecessor. This result was achieved by applying the same theoretical prediction model to both current and suggested profiles. The findings of this project are meant to aid SCA among others in similar cases and additionally highlight the value of product improvement from a technological, sociological, and environmental perspective. Wear prediction Rail Flanged wheel Archards model Hertzian contact problem Abrasive wear Adhesive wear Theorethical prediction model Övrig annan teknik
80	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

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