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1	Contribuicao ao estudo da cinetica do envelhecimento de acos 'maraging' VICTOR, OLAVO B. dos S. 09 October 2014 (has links) Made available in DSpace on 2014-10-09T12:36:18Z (GMT). No. of bitstreams: 0 / Made available in DSpace on 2014-10-09T13:59:18Z (GMT). No. of bitstreams: 1 03981.pdf: 3648582 bytes, checksum: 289e3f8da88b110ea883c9749d9e35bc (MD5) / Dissertacao (Mestrado) / IPEN/D / Instituto de Pesquisas Energeticas e Nucleares - IPEN/CNEN-SP maraging steels aging kinetics
2	Contribuicao ao estudo da cinetica do envelhecimento de acos 'maraging' VICTOR, OLAVO B. dos S. 09 October 2014 (has links) Made available in DSpace on 2014-10-09T12:36:18Z (GMT). No. of bitstreams: 0 / Made available in DSpace on 2014-10-09T13:59:18Z (GMT). No. of bitstreams: 1 03981.pdf: 3648582 bytes, checksum: 289e3f8da88b110ea883c9749d9e35bc (MD5) / Dissertacao (Mestrado) / IPEN/D / Instituto de Pesquisas Energeticas e Nucleares - IPEN/CNEN-SP maraging steels aging kinetics
3	Transformacoes de fase e propriedades mecanicas de um aco maraging sem cobalto PADIAL, ARMANDO G.F. 09 October 2014 (has links) Made available in DSpace on 2014-10-09T12:38:01Z (GMT). No. of bitstreams: 0 / Made available in DSpace on 2014-10-09T14:04:39Z (GMT). No. of bitstreams: 1 05580.pdf: 5974833 bytes, checksum: 186f4c952bed8c2c1e8b6f248587bbfc (MD5) / Dissertacao (Mestrado) / IPEN/D / Instituto de Pesquisas Energeticas e Nucleares - IPEN/CNEN-SP maraging steels phase transformations mechanical properties scanning electron microscopy
4	Transformacoes de fase e propriedades mecanicas de um aco maraging sem cobalto PADIAL, ARMANDO G.F. 09 October 2014 (has links) Made available in DSpace on 2014-10-09T12:38:01Z (GMT). No. of bitstreams: 0 / Made available in DSpace on 2014-10-09T14:04:39Z (GMT). No. of bitstreams: 1 05580.pdf: 5974833 bytes, checksum: 186f4c952bed8c2c1e8b6f248587bbfc (MD5) / Dissertacao (Mestrado) / IPEN/D / Instituto de Pesquisas Energeticas e Nucleares - IPEN/CNEN-SP maraging steels phase transformations mechanical properties scanning electron microscopy
5	Ion-Nitriding Of Maraging Steel (MDN 250A Grade) For Light Combat Aircraft Applications Shetty, Kishora 07 1900 (has links) Maraging steels have got high strength and good toughness. Maraging steel MDN 250A grade is used for slat tracks on the leading edge of the wing of Light Combat Aircraft (LCA). This application requires high strength and good wear resistance. Required wear resistance for this application can be achieved by ion-nitriding (also called as Plasma nitriding or Glow discharge nitriding) process of case hardening. In conventional gas nitriding process the nitriding temperature is 500 – 550 0C, which is above the aging temperature of maraging steel. Ion-nitriding at temperatures lower than 480 0C is thought to be suitable for surface hardening for application of this material in slat tracks of the leading edge of the wing of LCA. Besides this ion-nitriding is stated to improve fatigue & wear resistance properties without significantly affecting other properties. Also this is a process where the thickness requirement is minimum for the wear properties accomplished. Further, no distortion, warpage and such other dimensional inhomogeneity problems are encountered. In ion-nitriding method glow discharge technology is used to introduce nascent (elemental) nitrogen to the surface of a metal part for subsequent diffusion into the material. The plasma assisted surface modification techniques offer a great flexibility and are capable in tailoring desirable chemical and structural surface properties independent of the bulk properties. It has other advantages like nil or very thin white layer after nitriding and there is no machining or grinding involved for complex parts after the process. The hardened surface layers become an integral part of the basic material without any significant reduction in the properties of base material. Aim of the present work is to study ion-nitriding process on Maraging steels, to carry out ion nitriding of Maraging steel MDN 250A grade at different temperatures and evaluation of properties. Presently, the ion-nitrided slat tracks have been cleared for limited usage instead of full expected life. Studies are also needed to understand the fatigue behavior upon nitriding. The main aspects considered in this study are, optimization of thickness of the ion-nitrided layer and properties required for aircraft applications like slat tracks on the leading edge of the wing where wear resistance, corrosion resistance, mechanical properties like tensile strength, impact strength and fatigue strength are important. To establish the variation in the basic properties of maraging steel (MDN 250A Grade) because of ion nitriding. Aging of Maraging steel is done at 480 ± 5 0C with very close temperature control. In industrial ion-nitriding furnaces the temperature control is of the order of ± 10 0C. As a part of this research work ion-nitriding at three different temperatures which are well below 480 0C were chosen. These temperatures are 435 0C, 450 0C and 465 0C and soaking time i.e., ion-nitriding duration is 10 hours. Microstructure is characterized using optical microscope, scanning electron microscope and X-ray Diffraction. Properties evaluated include Hardness, Case depth, Tensile, Low Cycle Fatigue, Impact and Corrosion by Salt Spray. Optical microscopy and SEM examination don’t show change in core microstructure of the material after ion-nitriding. The iron compound formed in the hardened layer is Fe4N for all the three nitriding temperatures. Ion-nitrided specimens exhibit higher surface hardness and good case depth. Salt spray test results shows that there is animprovement in corrosion resistance after nitriding. The nitrided samples shown higher UTS and 0.2 % PS values than un nitrided ones, where as % Elongation and % Reduction in Area are lower for nitrided samples as compared to un nitrided samples. This can be attributed to the surface layer getting hardened because of ion nitriding. Impact strength of nitrided samples is lower compared to un nitrided samples. This is again due to the surface layer getting hardened because of ion nitriding. Low cycle fatigue properties obtained on ion-nitrided samples show improvement in the fatigue strength due to introduction of the residual compressive stresses. The mechanical properties satisfy the design requirements. Thus ion-nitriding of this Maraging steel (MDN 250A Grade) is suitable for parts which are subjected to constant wear and are complex in shape. Steel Light Combat Aircraft Ion Nitriding Maraging Steels - Physical Metallurgy Ion-Nitrided Steels Maraging Steels - Properties Nitrided Samples Materials Science
6	AvaliaÃÃo da fragilizaÃÃo por hidrogÃnio no aÃo maraging 300 / Evaluation of hydrogen embrittlement of 300 maraging steel Luis Paulo MourÃo dos Santos 23 May 2014 (has links) CoordenaÃÃo de AperfeiÃoamento de NÃvel Superior / Os aÃos maraging sÃo ligas de ultra-alta resistÃncia com vasta aplicaÃÃo na engenharia, desde vasos de alta pressÃo de operaÃÃo em processos crÃticos, componentes aeronÃuticos, aplicaÃÃes militares atÃ equipamentos esportivos. O presente trabalho buscou avaliar os efeitos da fragilizaÃÃo por hidrogÃnio no aÃo maraging 18% Ni da classe 300, nas condiÃÃes solubilizada e envelhecida. As amostras foram solubilizadas a 1093 Â10K por 3,6 ks, seguido de um resfriamento ao ar e envelhecidas a 753 e 843 Â10K por 10,8 ks, respectivamente e resfriadas ao ar. Foi realizada uma caracterizaÃÃo microestrutural por difraÃÃo de raios-X, correntes parasitas, medidas de dureza Rockwell e microscopia eletrÃnica e Ãptica. Para avaliar os efeitos do ingresso de hidrogÃnio nas propriedades mecÃnicas do aÃo maraging 18% Ni da classe 300 foram realizados ensaios de traÃÃo com baixa taxa de deformaÃÃo (BTD). A taxa de deformaÃÃo aplicada foi 1,0 x 10-6 s-1. Os ensaios foram realizados ao ar (meio inerte) e em soluÃÃo de 3,5% NaCl sob o potencial catÃdico de -1,2 VECS. Foi observada uma reduÃÃo de 11,06 para 3,89% no alongamento e de 61,28 para 10% na reduÃÃo de Ãrea para as amostras solubilizadas. As amostras envelhecidas a 753 Â10K por 10.8 ks apresentaram maior reduÃÃo nessas propriedades. Nesta condiÃÃo a reduÃÃo observada foi de 1929,26 MPa para amostras ensaiadas ao ar para 447,64 MPa para amostras ensaiadas em soluÃÃo de 3,5% NaCl sob potencial catÃdico no limite de resistÃncia e de 7,30 para 1,62 % no alongamento. As amostras envelhecidas a 843 Â10K, as quais apresentaram de cerca de 10% de austenita sofreram fragilizaÃÃo similar as amostras envelhecidas a 753 Â10K. Trincas secundÃrias perpendiculares a carga aplicada foram observadas nas amostras solubilizadas e ensaiadas em soluÃÃo de 3,5% NaCl sob potencial catÃdico. Os resultados indicam que a presenÃa de precipitados e de austenita revertida impedem a propagaÃÃo de trincas secundÃrias na seÃÃo longitudinal nas condiÃÃes envelhecidas. A anÃlise da superfÃcie de fratura revelou caracterÃstica de uma fratura dÃctil nas amostras ensaiadas ao ar com dimples de diferentes tamanhos e profundidades, enquanto que nas amostras ensaiadas em soluÃÃo de 3,5% NaCl sob potencial catÃdico foram observadas trincas induzidas pelo hidrogÃnio e microcavidades e regiÃes de quase-clivagem para todas as condiÃÃes estudadas. / Maraging steels are ultra high strength alloys widely used in engineering applications from high pressure vessels operating in critical processes, aircraft components, military applications to sports equipment. This work assessed the effects of hydrogen embrittlement in 18% Ni maraging grade 300 steel in the solution annealed and aged conditions. Samples were solution annealed at 1093 Â10K for 3.6 ks, followed by air cooling and aging at 753 and 843 Â10K for 10.8 ks, respectively, and cooled by air. The microstructure was characterized by X-ray diffraction, eddy current, hardness measurement and optical and electron microscopy. To assess the effects of hydrogen ingress on the mechanical properties of 18% Ni maraging grade 300 steel, slow strain rate tests (SSRT) were performed. A strain rate of 1.0x10-6 s-1 was applied. The tests were carried out in air (middle inert) and the samples immersed in the electrolyte at a simultaneous potential of -1.2 VSEC. The results showed the reduction elongation from 11.06 to 3.89% and from 61,28 to 10% in reduction of area for samples in the solution annealed condition. The greatest reductions were observed in the samples aged at 753 Â10K for 10.8 ks. In this condition the reduction from 1929.26 MPa in air tests to 447.64 MPa in ultimate tensile strength and from 7.30 to 1.62% in elongation under cathodic polarization in the 3,5% NaCl solution was observed. The samples aged at 843 Â10K for 10.8 ks, where about 10% of reverted austenite was identified, showed evidence of hydrogen embrittlement as seen in the samples treated at different conditions. Secondary cracks, perpendicular to the loading direction at the longitudinal surface of the solution annealed fractured samples immersed in 3,5% NaCl solution under cathodic potential were seen. The results evidence that the precipitates and reverted austenite difficult secondary crack propagation in longitudinal section on aged samples. Scanning electron examination showed a change in fractografic features from ductile dimples to quasi-cleavage and microvoid modes when comparing samples without (air tested) and with hydrogen ingress. FragilizaÃÃo por hidrogÃnio Maraging steels Hydrogen embrittlement (HE) Slow strain rate testing (SSRT). METALURGIA FISICA
7	Process and microstructure development of a LPBF produced maraging steel / Process- och mikrostrukturutveckling av ett pulverbäddproducerat maråldringsstål Johansson, Kenny January 2020 (has links) Additive manufacturing (AM) has the possibility of producing complex-shaped components which can not be produced by conventional manufacturing methods. This gives the opportunity for designers to freely think outside the design spectra which is otherwise limited by conventional manufacturing methods. AM of metal has rapidly been developed for the last three decades, and they now are reaching industrial acceptance levels, metal feedstock for use in AM is also rapidly growing. AM of metals is especially of interest for the tooling industry. The design freedom which AM offers the tooling manufacturer can design complex cooling channels within moulds, which could reduce cycle time and enhance the quality of components produced with the moulds. Maraging steels have been proven to both be able to be processed with AM but also have comparable performance to traditionally carbon-based used tool steels. Laser Powder Bed Fusion (LPBF) is one of the most promising AM systems today, by using powder as a feedstock it can produce high-resolution parts without needing to process them after they have been produced. However, there is a need to better understand processing within the LPBF system. This master thesis is aimed to process a newly developed maraging steel from Uddeholm, and conduct process parameter experiment and study their correlation to be able to produce samples with as few defects possible. It is crucial to conform to a good methodology for how to find those correlations and see how they influence the printed material. LPBF process has a multi-complex variable system, and by narrowing down the complexity by focus on the most influencing parameters as has been proven by many researchers. Even with a reduced focus, it is still a multi-variable problem. In this study a methodology of finding process parameters relations, a Design Of Experiment software was used, namely, MODDE. By screening of process parameter ranges, within the software, a statistical evaluation of operational process window can be found with fewer conducted experiment. Development of process parameter can traditionally be time-consuming and result in an unnecessary large number of experiments to find the operational window. The experiment showed that laser power and point distance had the most influencing effect on relative density, followed by exposure time and hatch distance. The experiment was firstly conducted with a layer thickness of 50 µm, the achieved relative density resulted in over 99.8 percent. However, a large lack of fusion defects was observed inside the specimens. Even though a high relative density was measured, a pore analysis has to be conducted to fully understand the size and shape of defects since they can have a severe impact on mechanical properties. It was believed that the layer thickness was too high and that the defects could be reduced by printing a set with same process parameters but with a lower layer thickness of 40 µm instead. The reduction of layer thickness did result in a significant decrease of the defects observed. However, future work after this thesis must be continued to further optimize and to increase the solidity of printed material to reach closer to its conventional produced relatives / Additiv tillverkning har möjligheten att producera komplext konstruerade komponenter som inte kan produceras med konventionella tillverkningsmetoder. Detta ger konstruktörer möjligheten att fritt tänka utanför designspektra som annars begränsas av konventionella tillverkningsmetoder. Additiv tillverkning av metall har snabbt utvecklats under de senaste tre decennierna och har nu nått industriella acceptansnivåer. Metallråvara för användning i additiv tillverkning växer snabbt. Additiv tillverkning av metaller är särskilt intressant för verktygsindustrin, designfriheten som additiv tillverkning kan erbjuda verktygstillverkaren för att kunna utforma komplexa kylkanaler inuti formar. Det kan således reducera cykeltiden och förbättra kvaliteten på komponenter som produceras med formarna. Maråldringsststål har visat sig att både kunna processas i additiv tillverkning och har jämförbara egenskaper med traditionellt kolbaserade verktygsstål. Pulverbäddsystemet är ett av de mest lovande systemen idag, genom att använda pulver som råmaterial kan systemet producera komponenter med hög noggranhet utan att behöva bearbeta dem efter att processen är klar. Det finns emellertid ett behov av att bättre förstå själva processen inom pulverbädds teknologin. Den här masteruppsatsen syftar till att additivt tillverka ett nyutvecklat maråldringsstål från Uddeholm. Samt att genomföra processparameterexperiment och studera deras korrelation för att kunna producera prover med så få defekter som möjligt. Det är avgörande att hitta en metod för hur man hittar korrelationerna och se hur de påverkar det tillverkade materialet. Pulverbäddsystemet har ett multikomplext variabelsystem. För att minska komplexiteten kan fokus läggas på de mest inflytelserika processparametrarna, vilket har bevisats av många forskare. Även med ett reducerat fokus är det fortfarande ett flervariabelsproblem. I denna studie användes en metod för att hitta relationer mellan processparametrar och en Design Of Experiment-programvara, nämligen MODDE. Genom screening av processparametrar, inom programvaran, kan en statistisk utvärdering av operativt processfönster hittas med färre genomförda experiment. Utvecklingen av processparametrar kan traditionellt vara tidskrävande och resultera i ett onödigt stort antal experiment för att hitta det operativa fönstret av processparametrar. Experimentet visade att lasereffekt och punktavstånd påverkande den relativa densiteten mest, följt av exponeringstiden och spåravståndet. Experimentet genomfördes först med en lagertjocklek av 50 mikrometer, lagertjockleken resulterade i en relativ densitet på över 99,8 procent. Emellertid observerades stora fusionsdefekter inuti proverna. Även om en hög relativ densitet mättes, måste en poranalys genomföras för att fullt ut förstå storleken och formen på defekter eftersom de kan ha en avgörande inverkan på mekaniska egenskaperna. Det misstänktes att lagertjockleken var för hög och att defekterna kunde minskas genom att tillverka en ytterligare uppsättning av samma processparametrar men med en lägre lagertjocklek på 40 mikrometer istället. Minskningen av lagertjockleken resulterade i en signifikant minskning av de observerade defekterna. Framgent efter den här avhandlingen måste dock arbetet fortsätta att ytterligare optimera och öka soliditeten i det additivt tillverkade materialet. Det för att uppnå bättre prover och komma ännu närmre det konventionellt tillverkade materialets egenskaper. Maraging steels additive manufacturing Laser Powder Bed Fusion LPBF additiv tillverkning maråldringsstål pulverbädd Mechanical Engineering Maskinteknik
8	Mechanical and tribological characterization of additive manufactured Co-alloyed tool steels aimed for cutting tool bodies Rajan, Jijesh January 2022 (has links) A drill tool body operates under tough cutting conditions where it is subjected to severe rubbing at the drill flute margin by the sliding chips. The tool wear caused by the contact stresses of the high-speed sliding chips is one of the common damage mechanisms observed in drill tool bodies. The present investigation is aimed at evaluating the wear properties, mechanical properties and tribological characteristics of the selective laser melting (SLM) produced drill bodies of Co-alloyed tool steels. Two different maraging steel powders, Modified 18Ni300 and Osprey MAR were the materials of interest in this work. A ranking was obtained after a detailed examination to select the most suitable cutting tool body material for drilling application. The microstructures of SLM-produced materials after aging were carefully characterized and analyzed. The result shows that both the materials are composed of fine dendritic cellular structures and even exhibit melt pool boundaries. The microhardness values taken on the as-polished samples indicate that Modified 18Ni300 is marginally harder than Osprey MAR. The material pick-up tendency, friction characteristics and wear properties of the two material samples at room temperature were also evaluated using a scratch tester and a pin-on-disc tribometer. The wear volume for the scratch test and the pin-on-disc test was quantified by a 3D optical profilometer. The overall coefficient of friction (COF) and the wear volume was considerably higher for Osprey MAR than Modified 18Ni300 in scratch testing. The increase in COF for Osprey MAR can be attributed to the build-up edge adhered to the moving stylus. Wear characterization of the scratched surface shows secondary plowing which validates the adhesion tendency of Osprey MAR. The results from the pin-on-disc test conform to the scratch results displaying marginally lower COF and wear volume for the Modified 18Ni300 disc specimen. The higher volume loss of pin manufactured from workpiece material SS2541 used against Modified 18Ni300 disc substantiates the better wear characteristics of this material. Characterization of wear on the surface and cross-section of disc samples suggests that the total wear is the result of adhesion by delamination and build-up edge, abrasion, and cellular fracture at the interacting interface. Machining application tests were also conducted to study the chip wear characteristics and facilitate the ranking of the materials concerning wear resistance. Chip breaker wear test was performed with chip breakers of two different surface topography, milled and ground, to evaluate the effect of surface texture and roughness on the wear behavior. The result shows adhesion on the chip breaker surface for both the materials of interest. The wear is higher in Osprey MAR than Modified 18Ni300 in both milled and ground conditions. A series of actual drill tests from SLM-produced drill bodies indicates wear at the drill flute margin. The drill body material at the chip flute margin is abraded by the sliding chips for Osprey MAR exhibiting greater wear than Modified 18Ni300 in which case the flute margin is intact. Adhesion is also seen at the flute surface for both materials. EDS analysis undertaken at the site of wear confirms the adhered material is of the workpiece SS2541. The results from all the aforementioned tests suggest that Modified 18Ni300 has better wear resistance than Osprey MAR. It also indicates that the cellular microstructure of SLM-produced maraging steels is not suitable for sliding wear resistance. Maraging steels Selective laser melting microstructure wear Modified 18Ni300 Osprey MAR Materials Engineering Materialteknik
9	Estudo dilatométrico das transformações de fase em aços maraging M300 e M350. / Study dilatometric of the phase transformations on maraging steels M300 and M350. Carvalho, Leandro Gomes de 09 December 2011 (has links) Os aços maraging são aços de baixo teor de carbono com estrutura martensítica (CCC), que são endurecidos pela precipitação de fases intermetálicas. O objetivo deste trabalho é estudar as transformações de fases desses aços: precipitação, reversão da martensita para a austenita e transformação martensítica. Nesse trabalho, foram caracterizadas uma corrida de aço maraging da série 300 e três corridas da série 350, usando diversas técnicas complementares: microscopia ótica, microscopia eletrônica de varredura com análise dispersiva de energia, microdurômetro, difração de raios-X, ferritoscópio e dilatometria. Os resultados obtidos mostraram que as corridas com maiores teores de cobalto e titânio apresentaram maiores valores de microdureza nos estados solubilizado e envelhecido. Por outro lado, medidas dilatométricas mostraram que há uma influência significativa tanto da composição química, quanto da taxa de aquecimento nas reações de precipitação e reversão da martensita para a austenita. No entanto, a transformação martensítica mostrou-se dependente apenas da taxa de aquecimento. / Maraging steels are steels with a low carbon martensitic structure (BCC), which are hardened by precipitation of intermetallic phases. The aim of this work is to study the phase transformations of these steels: precipitation, martensite to austenite reversion and martensitic transformation. In this study, one cast of 300 grade and three casts of 350 grade were characterized using several complementary techniques: optical microscopy, scanning el ectron microscopy with energy dispersive analysis, microhardness, X-ray diffraction, ferritoscope and dilatometry. The results showed that the casts with higher concentrations of cobalt and titanium showed higher microhardness in the solution annealed and aged states. On the other hand, dilatometry measurements showed that there is a significant influence of both the chemical composition and the heating rate on the reactions of precipitation and reversion of martensite to austenite. However, the martensitic transformation was dependent solely on the heating rate. Aços maraging Aging Austenite reversion Dilatometria Dilatometry Envelhecimento Maraging steels Martensite to austenite reversion Reversão da martensita para a austenita
10	Estudo dilatométrico das transformações de fase em aços maraging M300 e M350. / Study dilatometric of the phase transformations on maraging steels M300 and M350. Leandro Gomes de Carvalho 09 December 2011 (has links) Os aços maraging são aços de baixo teor de carbono com estrutura martensítica (CCC), que são endurecidos pela precipitação de fases intermetálicas. O objetivo deste trabalho é estudar as transformações de fases desses aços: precipitação, reversão da martensita para a austenita e transformação martensítica. Nesse trabalho, foram caracterizadas uma corrida de aço maraging da série 300 e três corridas da série 350, usando diversas técnicas complementares: microscopia ótica, microscopia eletrônica de varredura com análise dispersiva de energia, microdurômetro, difração de raios-X, ferritoscópio e dilatometria. Os resultados obtidos mostraram que as corridas com maiores teores de cobalto e titânio apresentaram maiores valores de microdureza nos estados solubilizado e envelhecido. Por outro lado, medidas dilatométricas mostraram que há uma influência significativa tanto da composição química, quanto da taxa de aquecimento nas reações de precipitação e reversão da martensita para a austenita. No entanto, a transformação martensítica mostrou-se dependente apenas da taxa de aquecimento. / Maraging steels are steels with a low carbon martensitic structure (BCC), which are hardened by precipitation of intermetallic phases. The aim of this work is to study the phase transformations of these steels: precipitation, martensite to austenite reversion and martensitic transformation. In this study, one cast of 300 grade and three casts of 350 grade were characterized using several complementary techniques: optical microscopy, scanning el ectron microscopy with energy dispersive analysis, microhardness, X-ray diffraction, ferritoscope and dilatometry. The results showed that the casts with higher concentrations of cobalt and titanium showed higher microhardness in the solution annealed and aged states. On the other hand, dilatometry measurements showed that there is a significant influence of both the chemical composition and the heating rate on the reactions of precipitation and reversion of martensite to austenite. However, the martensitic transformation was dependent solely on the heating rate. Aços maraging Dilatometria Envelhecimento Reversão da martensita para a austenita Aging Austenite reversion Dilatometry Maraging steels Martensite to austenite reversion

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