Relevant bibliographies by topics / Iron cast

Contents

  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers
  6. Reports

Academic literature on the topic 'Iron cast'

Author: Grafiati
Published: 4 June 2021
Last updated: 12 February 2022

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Journal articles on the topic "Iron cast"

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Zhiguts, Y., and B. Hom'ak. "WEARFIRMNESS THERMITE CAST IRON." International scientific journal «Education and Science», no. 24(1) (2018): 22–26. http://dx.doi.org/10.31339/2617-0833-2018-24(1)-22-26.

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Kiss, Imre. "Cast iron rolls." Tehnički glasnik 13, no. 2 (June 17, 2019): 92–99. http://dx.doi.org/10.31803/tg-20180516131304.

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The manufacturing process of the rolling rolls, as well as the quality of materials used in casting them, can have an important influence upon the quality and the safety of the exploitation. Our approaches to the issue of quality assurance of the rolling rolls, from the viewpoint of the quality of materials that are featured, can cause duration and safety in the rolling exploitation. This research is required because of the numerous flaws that cause rejection, since the phase of melting of these irons is intended to cast rolls. According to the industrial analysis in the cast iron rolls foundries, the results show that one of the main rejection categories is due to the inadequate hardness of the rolls. One of the parameters that will determine the cast iron’s structure is the chemical composition, and this factor could assure the exploitation properties of each roll in all the stands of rolling mill. In this sense, the paper presents an overview of industrial and laboratory research regarding the assurance of the chemical composition of the irons (with nodular graphite) destined for the half–hard rolls casting, and tries to draw some remarks upon the proper correlations of these irons. This study analyses iron rolls cast in combined moulds (iron chill, for the barrel and moulding sand, for the necks of rolls) and includes charges of rolls from half–hard classes, with definite structure and nodular graphite, obtained in simplex cast processes. It presents, in graphical form, the influence of the chemical composition of these irons on the hardness, measured on the barrel. The proper solution is determined through some mathematical restrictions to the input data that the mathematical modelling is initiated with. It will be determined through regression equations, which describe the mathematical dependency between the hardness and the elements of chemical composition – the basic elements (Carbon [C], Manganese [Mn] and Silicon [Si]), the particulate elements (Sulphur [S], Phosphorus [P] and Magnesium [Mg]) and the main alloying elements (Nickel [Ni], Molybdenum [Mo] and Chrome [Cr]). The main results and the graphical addenda are presented.
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Radzikowska, Janina M. "A New Look at Cast Iron Microstructure." Microscopy Today 11, no. 5 (October 2003): 42–45. http://dx.doi.org/10.1017/s1551929500053244.

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Cast irons belong to a family of iron-carbon (Fe - C) alloys with free carbon in the form of graphite, a very soft constituent of iron microstructures, that improves machinability and damping properties of castings, or combined carbon, in the form of cementite, that improves wear resistance. Graphitic cast irons include grey iron, compacted iron, malleable iron, and ductile iron, Cementite irons include white cast iron and alloy cast irons. Solidification of graphite directly from molten metal takes place between 1145°C (2093 °F) and 1152 °C (2105 °F), according to the Fe-C equilibrium diagram. The above considerations regard only pure Fe - C alloys.
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Williams, Derek J. G. "Cast Iron." Prairie Schooner 89, no. 1 (2015): 151–52. http://dx.doi.org/10.1353/psg.2015.0093.

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Agarwrwal, Dhirendra, Neeraj Kumar, and A. K. Bansal. "Development of Low Cost Corrosion Resistant Fe-Cr-Mn-Mo White Cast Irons." Material Science Research India 14, no. 2 (December 25, 2017): 176–84. http://dx.doi.org/10.13005/msri/140215.

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Cast irons are basically binary alloys of iron and carbon having carbon exceeding its maximum solid solubility in austenite but less than the carbon content of iron carbide. However, like steels, cast irons have varying quantities of silicon, manganese, phosphorus and sulphur. Silicon plays an important role in controlling the properties of cast irons and for this reason, the term cast iron is usually applied to a series of iron, carbon and silicon alloys. Special purpose cast irons include white and alloy cast irons which are mainly used for applications demanding enhanced abrasion, corrosion or heat resistance. In present study, corrosion resistant cast irons are of our interest.
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Jin, Zhanming, Yanfei Liang, Yuansheng Jin, Kaihe Ju, Shijian Wang, and Zhao Wang. "Sliding wear of cast-iron coatings and cast-iron-cast-iron pairs in lubricated contact." Wear 152, no. 2 (January 1992): 253–61. http://dx.doi.org/10.1016/0043-1648(92)90124-q.

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Жижкина, Наталья, Natalya Zhizhkina, Сергей Ипатов, and Sergey Ipatov. "The Study of Qualities’ Specialties of Cast Iron’s with Different Composition." Bulletin of Bryansk state technical university 2015, no. 1 (March 31, 2015): 20–24. http://dx.doi.org/10.12737/22738.

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The paper has been devoted to study of white, chilled and gray cast iron. It has been showed that white cast irons’ ingots are characterized by high level of properties. What is why such materials are used at high temperature and wear condition. Carbides’ and granites existence in the structure increase properties of chilled cast iron. Such cast irons are used for details of metallurgical and other branches of industry. Flake graphite in structure of cast iron decreases level of analyzed properties. But ingots of such cast iron showed high values of tensile strength on compression.
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Stawarz, M., W. Kajzer, A. Kajzer, and M. Dojka. "Physicochemical Properties of Silicon Cast Iron." Archives of Foundry Engineering 17, no. 2 (June 27, 2017): 101–6. http://dx.doi.org/10.1515/afe-2017-0059.

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Abstract The article presents results of pitting corrosion studies of selected silicon cast irons. The range of studies included low, medium and high silicon cast iron. The amount of alloying addition (Si) in examined cast irons was between 5 to 25 %. Experimental melts of silicon cast irons [1-3] were conducted in Department of Foundry of Silesian University of Technology in Gliwice and pitting corrosion resistance tests were performed in Faculty of Biomedical Engineering in Department of Biomaterials and Medical Devices Engineering of Silesian University of Technology in Zabrze. In tests of corrosion resistance the potentiostat VoltaLab PGP201 was used. Results obtained in those research complement the knowledge about the corrosion resistance of iron alloys with carbon containing Si alloying addition above 17 % [4-6]. Obtained results were supplemented with metallographic examinations using scanning electron microscopy. The analysis of chemical composition for cast irons using Leco spectrometer was done and the content of alloying element (silicon) was also determined using the gravimetric method in the laboratory of the Institute of Welding in Gliwice. The compounds of microstructure were identify by X-ray diffraction.
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Perkins, Sid. "Cast-Iron Foot." Science News 164, no. 19 (November 8, 2003): 291. http://dx.doi.org/10.2307/4018819.

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Hawker, Andrew. "Cast iron promises." Journal of Innovation in Health Informatics 15, no. 3 (September 1, 2007): 137–41. http://dx.doi.org/10.14236/jhi.v15i3.651.

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Dissertations / Theses on the topic "Iron cast"

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Westphal, Mark Emil. "Fracture toughness of coral graphite cast iron." Thesis, Georgia Institute of Technology, 1988. http://hdl.handle.net/1853/16892.

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Boeri, Roberto Enrique. "The solidification of ductile cast iron." Thesis, University of British Columbia, 1989. http://hdl.handle.net/2429/30598.

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The microsegregation of Mn, Cu, Cr, Mo, Ni and Si has been measured in cast ductile iron and in ductile iron which has been quenched when partially solidified. Effective segregation coefficients have been determined for each of the elements, and used to calculate the segregation on the basis of the Scheil equation. The calculated values agree reasonably well with the values of the solute concentration as a function of the solid fraction measured in quenched samples. The microstructure of the solid phases during the solidification of ductile iron has been observed. Solidification of eutectic ductile iron begins with the independent nucleation of austenite and graphite in the melt. Later the graphite nodules are enveloped by austenite, and further solidification takes place by the thickening of the austenite layers enveloping the graphite. Isolated pockets of interdendritic melt are the last material to solidify. On the basis of the measured segregation of the different alloying elements, the mechanisms by which the segregation affects the microstructure are considered, and an explanation for the effect of segregation on the hardenability of ductile iron is proposed. A mathematical model of the solidification of eutectic ductile iron is formulated which includes heat flow, nucleation and growth of graphite nodules, and the segregation of Si. The model uses equilibrium temperatures given by the ternary Fe-C-Si equilibrium diagram. Using the mathematical model, cooling curves, nodule count and nodular size distribution are determined as a function of position in the casting sample. The results are compared to measured temperatures, nodule count and nodule size in rod castings of 12.5, 20 and 43mm radius. There is good agreement between the calculated and measured values for the 43mm radius rod, and not quite good agreement for the rods of smaller radii. The changes in solidification predicted by the model when some solidification parameters are varied are consistent with experimental observations with the same variation in the parameters.
Applied Science, Faculty of
Materials Engineering, Department of
Graduate
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Shah, Nishant Mayur. "Watson's Hotel: Celebrating the cast iron frame." Thesis, Virginia Tech, 2008. http://hdl.handle.net/10919/31360.

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It is in human nature to preserve things and objects from the past, study, enjoy and cherish our history. This need to learn from and cherish the objects from the past has resulted in the development and evolution of spaces such as museums where people can come and see these objects, either to know or learn something or out of personal interest and curiosity. Somewhere in all this, is architecture from the past taken for granted? A lot of the prominent historic buildings have been well preserved and are known to people. But at the same time there are numerous historic structures, story tellers from the past, being ignored and even trampled upon. Should we not look at these also as valuable objects that have to say so much about our social, cultural and technological past? Do they need a museum space as well? Can architecture be housed and preserved in a museum? Or maybe become a museum, displaying itself, allowing people to experience it from outside and within. Watsonâ s Hotel is one such historical building that lies today unnoticed, uncared for, decaying and falling apart. My thesis is an intervention into this urban situation. The goal of the design has not been just preservation but rather an elevation or celebration of the structure, bringing forth its true nature that lies in its structural framework, a cast iron grid of columns and beams. It aims to highlight this essential core of the building by revealing the grid in different spatial conditions. There is also a constant wish to tie the structure back to its surroundings, to bring back the dialogue that the building shared with its surroundings in the past. The structural framework is revealed and experienced in different spatial conditions achieved with the help of geometry, light and material, surfaces added in and around it, and the grid runs through all these elements bold, undisturbed and uninterrupted.
Master of Architecture
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Gieseke, Brian G. "Observations on the fracture of hypoeutectic, high chromium white cast irons." Thesis, Georgia Institute of Technology, 1986. http://hdl.handle.net/1853/19967.

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Anish, Thottathil Viswanathan. "Age strengthening of gray cast iron: alloying effects and kinetics study." Diss., Rolla, Mo. : University of Missouri-Rolla, 2007. http://scholarsmine.mst.edu/thesis/pdf/Anish_09007dcc805b9ca9.pdf.

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Thesis (M.S.)--University of Missouri--Rolla, 2007.
Vita. The entire thesis text is included in file. Title from title screen of thesis/dissertation PDF file (viewed October 25, 2007) Includes bibliographical references (p. 82-83).
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Franklin, Steven E. "A study of graphite morphology control in cast iron." Thesis, Loughborough University, 1986. https://dspace.lboro.ac.uk/2134/32998.

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The objectives of the research project were to gain a deeper understanding of the factors influencing the graphite morphology in cast iron; particularly the role of different solute elements in relation to the industrial manufacture of compacted graphite iron. A number of melt treatment processes were assessed for their abilities to produce low nodularity compacted graphite microstructures over a range of casting section thicknesses. In this respect, the magnesium-titanium method was found to be superior to treatment using cerium Mischmetall and calcium additives; and very promising results were obtained with methods using zirconium as a major constituent of the treatment alloy. Scanning electron microscopy, secondary ion mass spectrometry and X-ray microanalysis were used to study the structural characteristics of different cast iron microstructures and the elemental distributions of important solutes between the phases. This information was used to clarify the role of the main solute elements in graphite morphology control and to assess current graphite growth theories.
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Vazehrad, Sadaf. "Shrinkage Porosity Characterization in Compacted Cast Iron Components." Thesis, KTH, Materialvetenskap, 2012. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-127261.

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Crepeau, Paul Noles. "Crack propagation in high chromium white cast iron." Thesis, Georgia Institute of Technology, 1985. http://hdl.handle.net/1853/11182.

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Wetter, Pernilla, and Martin Kulig. "Hållfasthetsegenskaper i gjutjärn : tensile properties of cast iron." Thesis, Jönköping University, JTH, Mechanical Engineering, 2007. http://urn.kb.se/resolve?urn=urn:nbn:se:hj:diva-931.

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In the last few years people have become more and more aware of how humanity is affecting the climate. In the direction of reducing the greenhouse gases is to design engines with higher tensile properties and reduced weight, in order to achieve lower fuel consumption and cleaner fuel incineration in today's truck engines.

In order to achieve these requirements it’s necessary to increase the combustion pressure in the engine. This requires higher tensile properties and high thermal conductivity of the engine material. The department of Component Technology at the University of Jönköping in collaboration with Volvo Powertrain AB, Scania CV AB and DAROS Piston Rings AB has been commissioned to develop this material and to find knowledge of material properties used in truck engines and piston rings used for marine applications.

The purpose with this work is to analyze the tensile properties of a series of cast iron, cast under different metallurgical conditions.

Four different series of cast irons have been analyzed from four points of view, carbon concentration, nodularity, amount inoculation and cooling rate.

After the tensile test all specimen data was analyzed in a mathematic calculation program called Matlab 2006a. These results were plotted in different diagrams to show the relations between the variables.

A low carbon contents and high cooling rate result in high tensile properties and vice versa. Also, a high nodularity gives the same result, i.e. high ultimate tensile strength, yield strength and young’s modulus. The experiment which cover different amount of inoculation, shows that Superseed is the most efficient element to increased tensile properties followed by Fe-powder and Fe-C-powder.

Lamellar graphite iron has the highest thermal conductivity and vibration damping properties compared to compact graphite iron followed by nodular graphite iron. Researches show that the thermal conductivity increases with slow cooling rate, irrespective of graphite structure. When designing new diesel engines, high tensile properties as well as high thermal conductivity are wanted. Compact cast iron has a compromised quality of these requirements. Higher tensile properties are a higher priority than thermal conductivity when the casting cooling rate is chosen.


Mänskligheten har idag blivit allt mer medveten om vilken påverkan människan har på klimatet. Ett steg i att reducera växthusgaserna är att konstruera motorer med högre hållfasthet och reducerad vikt, detta för att uppnå lägre bränsleförbrukning och renare förbränning i dagens lastbilsmotorer.

För att uppnå dessa krav är en lösning att öka kompressionen i motorn. Detta medför högre hållfasthetskrav samt hög värmeledningsförmåga hos materialet i motorerna. Avdelningen för komponentteknologi på Tekniska högskolan i Jönköping har i samarbete med Volvo Powertrain AB, Scania CV AB och DAROS Piston Rings AB fått uppdraget att utveckla ett material med rätt mekaniska egenskaper för att passa i lastbilsmotorer och kolvringar i marina applikationer.

Målet med detta examensarbete är att analysera de mekaniska egenskaperna i en serie där gjutjärn gjutets under olika metallurgiska förhållanden.

Fyra olika serier av gjutjärn har analyserats med utgångspunkt av variation av kolhalt, nodularitet, mängd ympningsmedel samt svalningshastighet.

Efter dragning av samtliga prover analyserades mätdata i Matlab 2006a och resulterade i olika sambandsdiagram.

Låg kolhalt samt snabb avsvalning av gjutgodset ger höga hållfasthetsegenskaper och vice versa. En hög nodularitet ger höga hållfasthetsegenskaper gällande brottgrans, sträckgräns och elasticitetsmodulmodul. Från experimenten där olika ympningsmedels påverkan av hållfastheten, har kunnat konstateras att ympningsmedlet Superseed ger de högsta hållfasthetsegenskaperna följt av Fe-pulver och Fe-C-pulver.

Värmeledningsförmågan och dämpningsförmågan för vibrationer är bäst i lamellartad grafit följt av kompakt och nodulär grafit. Studier visar att värmeledningsförmågan ökar med långsam svalning, oavsett grafitstruktur. I dagens dieselmotorer eftersträvas både god hållfasthet och god värmeledningsförmåga. En kompromiss av dessa krav är gjutjärn med en kompakt grafitstruktur. Högre hållfasthet bör prioriteras före bättre värmeledningsförmåga när val av svalningshastighet för gjutgodset görs.

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Solem, Benjamin. "Dilatometry Study of a High-Chromium Cast Iron." Thesis, KTH, Hållfasthetslära (Avd.), 2018. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-232528.

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High-chromium cast irons are used in certain applications where the demand on abrasion resistance is high. Such applications can be found in the milling industry and in pumps for transport of abrasive particles in liquid suspension. Soft annealed high-chromium cast iron containing 2.6 % C and 24.7 % Cr was supplied by Xylem Water Solutions, Sundbyberg, and investigated by dilatometry. The heat treatments were inspired by induction hardening procedures. The purpose of the investigation was to evaluate the effect of maximum temperature reached during heat treatment on the final length of the test specimen. The aim with this was to find the treatment yielding the maximum possible length which should be profitable to create desirable compressive stresses in the surface hardened area. The experimental results were used to create a finite element model in COMSOL Multiphysics accommodating for the maximum temperature, simulating the phase changes occurring in a geometry based on the experimental test specimen. The experimental results did not reveal any clear correlation between the maximum temperature and the final length change. The hardness, however, increased with the increasing temperature in the treatment interval 900-1150 °C. The, by light optical microscopy, observed amount of secondary precipitated carbides decreased with increasing temperature. Martensite transformation was also affected; the transformation temperature decreased for increased treatment temperatures. From dilatometry it was also seen that the thermal strains were greatly affected by the direction of which the material was cut from the original cast material. Samples taken perpendicular to the mainly investigated direction showed lower coefficients of thermal expansion and the final strain was clearly positive compared to the slightly negative values found for the main direction. This phenomenon could possibly be explained by different macrostructures created during solidification of the melt causing anisotropy in the eutectic. The implementation in COMSOL by describing the phase transformation as ordinary differential equations did show partially good results in the simulation of thermal expansion. The difference in original material is noticeable in the dilatometry and the simulated martensite transformation deviates from the experimental results. The model needs to be validated against new intermediate test temperatures and the martensite transformation kinetics must be investigated further to yield better results to be able to combine the phase transformations with mechanical calculations.
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Books on the topic "Iron cast"

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Cast iron technology. London: Butterworths, 1988.

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Elliott, Roy. Cast iron technology. London: Butterworths, 1988.

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Ames, Alex. Collecting cast iron. Ashbourne: Mooorland, 1989.

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Peirce, Shirley. Cast iron building banks. [S.l.]: Still Bank Collectors Club of America, 2009.

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Grant, Linda. The cast iron shore. London: Picador, 1996.

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Jourdan, Pat. The cast-iron shore. Liverpool: erbacce-press, 2008.

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Pelton, Matt. The cast iron chef. Springville, Utah: CFI, 2008.

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The cast iron shore. London: Granta, 1998.

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Graeme, Robertson E. Decorative cast iron in Australia. Ringwood, Vic: Viking O'Neil, 1990.

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Friedly, John D. Cast iron implement seats IV. [Ionia, Mo.] (Box 14, Ionia 65335): J.D. Friedly, Jr., 1985.

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Book chapters on the topic "Iron cast"

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Meetham, Geoffrey W., and Marcel H. Van de Voorde. "Cast Iron." In Materials for High Temperature Engineering Applications, 64–67. Berlin, Heidelberg: Springer Berlin Heidelberg, 2000. http://dx.doi.org/10.1007/978-3-642-56938-8_6.

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Bolton, William, and R. A. Higgins. "Cast iron." In Materials for Engineers and Technicians, 199–210. Seventh edition. | Abingdon, Oxon ; New York, NY : Routledge, 2021.: Routledge, 2020. http://dx.doi.org/10.1201/9781003082446-15.

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Kobayashi, Toshiro. "Ductile Cast Iron." In Strength and Toughness of Materials, 89–110. Tokyo: Springer Japan, 2004. http://dx.doi.org/10.1007/978-4-431-53973-5_5.

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Pero-Sanz Elorz, José Antonio, Daniel Fernández González, and Luis Felipe Verdeja. "Spheroidal Graphite Cast Irons (or Ductile Cast Iron)." In Physical Metallurgy of Cast Irons, 105–40. Cham: Springer International Publishing, 2018. http://dx.doi.org/10.1007/978-3-319-97313-5_7.

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Wallis, Geoff, and Michael Bussell. "Cast Iron, Wrought Iron and Steel." In Materials & Skills for Historic Building Conservation, 123–59. Oxford, UK: Blackwell Publishing Ltd, 2008. http://dx.doi.org/10.1002/9780470697696.ch7.

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O'Byrne, Liam, and Rick Rush. "Cast Iron Blasting Machine." In 64th Porcelain Enamel Institute Technical Forum: Ceramic Engineering and Science Proceedings, Volume 23, Issue 5, 131. Hoboken, NJ, USA: John Wiley & Sons, Inc., 2008. http://dx.doi.org/10.1002/9780470294765.ch17.

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Myszka, Dawid. "Cast Iron–Based Alloys." In High-Performance Ferrous Alloys, 153–210. Cham: Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-53825-5_5.

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Durand-Charre, Madeleine. "From iron to steel." In Microstructure of Steels and Cast Irons, 3–12. Berlin, Heidelberg: Springer Berlin Heidelberg, 2004. http://dx.doi.org/10.1007/978-3-662-08729-9_1.

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"Cast Iron." In Construction Materials Reference Book, 53–72. Routledge, 2013. http://dx.doi.org/10.4324/9780080940380-10.

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"Cast iron." In Materials for Engineers and Technicians, 201–11. Routledge, 2010. http://dx.doi.org/10.4324/9780080962146-19.

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Conference papers on the topic "Iron cast"

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Purwadi, Wiwik, Beny Bandanadjaja, Ari Siswanto, and Dewi Idamayanti. "Spot welding of bimetallic white cast iron-nodular cast iron." In HUMAN-DEDICATED SUSTAINABLE PRODUCT AND PROCESS DESIGN: MATERIALS, RESOURCES, AND ENERGY: Proceedings of the 4th International Conference on Engineering, Technology, and Industrial Application (ICETIA) 2017. Author(s), 2018. http://dx.doi.org/10.1063/1.5042857.

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Nasution, Abdul Haris. "Cast Iron Green Machining." In 8th International Conference on Multidisciplinary Research 2019. European Publisher, 2020. http://dx.doi.org/10.15405/epsbs.2020.03.03.74.

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Warnke, E. P., W. Steinwarz, W. Sowa, and R. Hu¨ggenberg. "Ductile Cast Iron for Transportation Cask Bodies." In ASME 2003 9th International Conference on Radioactive Waste Management and Environmental Remediation. ASMEDC, 2003. http://dx.doi.org/10.1115/icem2003-4528.

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Casks for transportation and storage are necessary for the handling of spent fuel elements and other radioactive waste. These casks must provide sufficient shielding against nuclear radiation, safe confinement even under severe hypothetical mechanical and thermal accident conditions and assurance of the subcriticality of the content under these conditions. Since more than 20 years ductile cast iron is established as a well qualified and proven material for the fabrication of the cask body of the CASTOR and MOSAIK type casks.
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Neyhouse, Jeffrey R., Jose M. Aurrecoechea, J. Preston Montague, and John D. Lilley. "Cast Iron-Nickel Alloy for Industrial Gas Turbine Engine Applications." In ASME Turbo Expo 2005: Power for Land, Sea, and Air. ASMEDC, 2005. http://dx.doi.org/10.1115/gt2005-68837.

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Austenitic ductile iron castings have traditionally been used for gas turbine exhaust components that require castability, good machinability, low thermal expansion, and high strength at elevated temperatures. The achievement of optimum properties in austenitic ductile irons hinges on the ability of the foundry to produce nodular graphite in the microstructure throughout the component. In large, complex components, consistently producing nodular graphite is challenging. A high-nickel steel alloy that is suitable for sand castings has been recently developed for industrial gas turbine engine applications. The alloy exhibits similar mechanical and physical properties to austenitic ductile irons, but with improved processability and ductility. This alloy is weldable and exhibits no secondary graphite phase. This paper presents the results of a characterization program conducted on a 35% nickel, high-alloy steel. The results are compared with an austenitic ductile iron of similar composition. Tensile and creep properties from ambient temperature to 760°C (1400°F) are included, along with fabrication experience gained during the manufacture of several sand cast components at Solar Turbines Incorporated. The alloy has been successfully adopted for gas turbine exhaust system components and other applications where austenitic ductile irons have traditionally been utilized. The low carbon content of austenitic steels permits improved weldabilty and processing characteristics over austenitic ductile irons. The enhancements provided by the alloy indicate that additional applications, as both austenitic ductile iron replacements and new components, will arise in the future.
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Nurminen, Janne, Jonne Näkki, and Petri Vuoristo. "Laser cladding on cast iron substrates." In ICALEO® 2005: 24th International Congress on Laser Materials Processing and Laser Microfabrication. Laser Institute of America, 2005. http://dx.doi.org/10.2351/1.5060593.

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Peppler, P. L. "Chilled Cast Iron Engine Valvetrain Components." In SAE International Congress and Exposition. 400 Commonwealth Drive, Warrendale, PA, United States: SAE International, 1988. http://dx.doi.org/10.4271/880667.

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Demarchi, Valmir, and Jan Vatavuk. "Nittred Gray Cast Iron Piston Rings." In SAE Brasil '94. 400 Commonwealth Drive, Warrendale, PA, United States: SAE International, 1994. http://dx.doi.org/10.4271/942393.

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Chuvilkina, Yulia Victorovna. "Review of Ural cast iron exhibitions." In XI International Students' research-to-practice conference, chair Alexey Vyacheslavovich Luchkin. TSNS Interaktiv Plus, 2016. http://dx.doi.org/10.21661/r-112675.

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Wan, J., M. Xu, and J. Qing. "Developing a Graphitic White Cast Iron." In MS&T18. MS&T18, 2018. http://dx.doi.org/10.7449/2018mst/2018/mst_2018_430_437.

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Blokker, Mirjam, and Nellie Slaats. "PAHs in Coated Cast Iron Mains." In World Environmental and Water Resources Congress 2013. Reston, VA: American Society of Civil Engineers, 2013. http://dx.doi.org/10.1061/9780784412947.084.

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Reports on the topic "Iron cast"

1

Doru M. Stefanescu. Thin Wall Cast Iron: Phase II. Office of Scientific and Technical Information (OSTI), July 2005. http://dx.doi.org/10.2172/841620.

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Casad, Charles, Ivery Chambliss, William Thomas, and Bill Twomey. Cast Ductile Iron 155mm M804 Bodies. Fort Belvoir, VA: Defense Technical Information Center, July 1990. http://dx.doi.org/10.21236/ada224196.

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Salzbrenner, R. J. Tensile behavior of ferritic ductile cast iron. Office of Scientific and Technical Information (OSTI), April 1986. http://dx.doi.org/10.2172/5760712.

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Von L. Richards and Wayne Nicola. Age Strengthening of Gray Cast Iron Phase III. Office of Scientific and Technical Information (OSTI), June 2003. http://dx.doi.org/10.2172/812004.

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Cooper, C., D. Anton, F. Lemkey, H. Nowotny, R. Bailey, L. Favrow, J. Smeggil, and D. Snow. Identification of a cast iron alloy containing nonstrategic elements. Office of Scientific and Technical Information (OSTI), June 1989. http://dx.doi.org/10.2172/7259300.

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Kiran M. Kothari and Gerard T. PIttard. Sealing Large-Diameter Cast-Iron Pipe Joints Under Live Conditions. Office of Scientific and Technical Information (OSTI), December 2005. http://dx.doi.org/10.2172/887329.

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Kiran M. Kothari and Gerard T. Pittard. SEALING LARGE-DIAMETER CAST-IRON PIPE JOINTS UNDER LIVE CONDITIONS. Office of Scientific and Technical Information (OSTI), January 2003. http://dx.doi.org/10.2172/812015.

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Sridharan, Niyanth, Ryan R. Dehoff, Brian H. Jordan, and Suresh S. Babu. Development of volume deposition on cast iron by additive manufacturing. Office of Scientific and Technical Information (OSTI), November 2016. http://dx.doi.org/10.2172/1343534.

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Kiran M. Kothari, Gerard T. Pittard. SEALING LARGE-DIAMETER CAST-IRON PIPE JOINTS UNDER LIVE CONDITIONS. Office of Scientific and Technical Information (OSTI), January 2004. http://dx.doi.org/10.2172/825238.

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Kiran M. Kothari and Gerard T. Pittard. SEALING LARGE-DIAMETER CAST-IRON PIPE JOINTS UNDER LIVE CONDITIONS. Office of Scientific and Technical Information (OSTI), April 2004. http://dx.doi.org/10.2172/825559.

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