Relevant bibliographies by topics / Die casting process

Contents

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

Academic literature on the topic 'Die casting process'

Author: Grafiati
Published: 4 June 2021
Last updated: 1 February 2022

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Journal articles on the topic "Die casting process"

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Chen, Yi, Gang Yang, Yi Yang, Kang Sheng Wang, and Chen Guang Lu. "Casting Process and Simulation of K19 Cylinder Block." Applied Mechanics and Materials 602-605 (August 2014): 311–15. http://dx.doi.org/10.4028/www.scientific.net/amm.602-605.311.

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Cylinder blocks are the most important parts of engine, and their qualities will fundamentally determine the efficiency of engine. In this work, the casting process of K19 engine cylinder block was studied. A casting process was designed and assessed by the numerical software MAGMA to produce cylinder block castings. An actual experiment of casting was carried out and the mechanical properties of the casting were examined. The simulation results show the liquid metal smoothly fills the casting mold and no shrinkage cavity and porosity are formed in the castings. The cylinder block produced by the actual experiment exhibits superior mechanical properties to common ones, which proves the casting process designed is suitable for producing high quality cylinder block castings. The research shows that numerical simulation can provide very useful guidance for the production of castings
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Chang, Qing Ming, Yin Kai Yang, Jing Yuan, and Xia Chen. "Numerical Simulation of Mold Filling and Solidification Behavior in Permanente Casting Process." Applied Mechanics and Materials 313-314 (March 2013): 179–83. http://dx.doi.org/10.4028/www.scientific.net/amm.313-314.179.

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Melt flow and casting solidification are essential parts of the permanent mold casting process and affect significantly the quality of castings.For this reason, accurate prediction of mold filling pattern and temperature field in permanent mold castings plays on an important role in producing sound castings. In this paper, the model filling and solidification of a box casting produced from an aluminum alloy is studied. Different casting processes are employed, simulated and optimized to obtain sound castings. Simulation results reveal that with appropriate gating system, pouring rate, cooling line, a smooth mold filling, reduced shrinkages and other defects are available and desired sound castings can be produced.
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Kabdullinov, A. M., B. R. Nussupbekov, A. K. Khassennov, M. Stoev, and M. B. Karagaeva. "Automated control system for casting process." Bulletin of the Karaganda University. "Physics" Series 87, no. 3 (September 29, 2017): 65–70. http://dx.doi.org/10.31489/2017phys3/65-70.

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Suranuntchai, Surasak, and Ekkachai Kittikhewtraweeserd. "Analysis of Horizontal Squeeze Casting Process for Pipe Oil Part." Advanced Materials Research 482-484 (February 2012): 154–58. http://dx.doi.org/10.4028/www.scientific.net/amr.482-484.154.

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To achieve the laminar flow filling pattern in squeeze casting processes, many literatures [1-4] have reported that ideal velocity of liquid metal passing through the ingate should be between 0.1 – 0.5 m/sec. John Campbell [1] reported that liquid metal front speed velocity should be 0.4 m/sec in order to eliminate the gas porosity inside the casting. However, such slow speed requires the higher temperature of liquid metal and die. This results in not only the longer cycle time but also a coarser microstructure of the casting. In addition, the sample castings used in the literature are simple form castings which do not reflect the real castings used in daily life. In this study, the indirect squeeze casting processes is adopted to cast a motorcycle’s component originally produced by a high pressure die casting process. Based on shape and dimensions of the casting to get the real casting out for the mass production, melt’s speed must be higher than the level reported by the literatures (around 1 m/sec). As a result, a fully laminar flow may not be achievable. This is confirmed by the primary study of the process parameters and tooling design using the casting process simulation. However, by clinging on the two principles of the squeeze casting processes; (1) minimizing the amount of entrapped air by slowly fill the cavity and (2) reducing the amount of solidification shrinkage by pressurized solidification; the casting from two processes will be casted in order to compared the micro-structure and mechanical properties.
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Yu, Hai Liang, Jin Wu Kang, Shi Xiong Huang, and Tian You Huang. "Integrated Simulation of Castings Deformation during Casting and Heat Treatment Processes." Advanced Materials Research 148-149 (October 2010): 103–7. http://dx.doi.org/10.4028/www.scientific.net/amr.148-149.103.

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Deformation often appears in castings during casting and heat treatment processes, which determines the machining allowance setting and the machining size distribution of product. The paper presents a novel method for integrated simulation of the deformation behavior of castings during casting and heat treatment processes with a unified finite element model. Firstly, analyze the deformation of castings during casting process with the model containing mold and casting, and update the geometry of casting after casting process, then analyze the deformation of castings during heat treatment process and the final geometry shape of casting before machining could be obtained. By the method, investigation on the deformation behavior of a hydro turbine blade casting during casting and heat treatment processes was carried out, and the residual stress distribution and geometry shape of the casting were obtained.
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Gai, Deng Yu, Yu Zhao Chu, Qing Fen Li, and Qun Xia Li. "Process Optimization of Large Turbine Blade Casting Base on Numerical Simulation." Applied Mechanics and Materials 16-19 (October 2009): 535–39. http://dx.doi.org/10.4028/www.scientific.net/amm.16-19.535.

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3-D velocity and temperature fields of mold filling and solidification processes of large turbine blade casting were simulated. It indicated that the velocity field of upright casting is faster and steadier than lying casting. The deformation was predicted and the rule of deformation was reflected by analyzing stress field during solidification of upright casting. The casting processes were optimized, and then applied to produce castings.
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Semanco, Pavol, Marcel Fedák, Miroslav Rimár, Peter Skok, and Emil Ragan. "Equation Model of the Cooling Process in High Pressure Die-Casting Technology." Advanced Materials Research 505 (April 2012): 165–69. http://dx.doi.org/10.4028/www.scientific.net/amr.505.165.

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In the die-casting technology there is very necessary to determine cooling process of castings in metallic mold especially in the case of castings with great weight to achieve quality surface and properties of the casting without any defects. To regulate cooling in the time course, it is desirable to develop equation of regulation system that determining mold temperature dependence on casting temperature. In the paper we proposed model of regulatory system in the cooling process of casting in a mold that is based on an analysis of amplitude, phase and transition characteristics. The result is presented as proposal for regulatory circuit to control cooling process of casting in the mold.
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Chang, Qing Ming, Jing Yuan, Yin Kai Yang, and Xia Chen. "Modeling Analysis and Optimization of Sand Casting Process." Advanced Materials Research 479-481 (February 2012): 226–29. http://dx.doi.org/10.4028/www.scientific.net/amr.479-481.226.

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In this research paper, the sand casting process of a cover-type part for wind turbine was investigated with ProCAST software . The cover-type casting part is big in two dimensions and it is heavy in some local positions where shrinkage cavity and porosity are very likely to from. A non-uniform mesh is used corresponding to the non-uniform wall thickness. Different casting processes are employed, simulated and optimized to obtain sound castings. Simulation results reveal that with appropriate pouring temperature, correct number, size and location of chills and risers, a smooth mold filling, reduced shrinkage and other defects are available and desired sound castings can be produced
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Chirita, G., I. Stefanescu, Delfim Soares, and F. S. Silva. "Effect of Gravity/ Vibration/ Centrifugal Process on Mechanical Properties of an Al-Si Alloy." Materials Science Forum 587-588 (June 2008): 395–99. http://dx.doi.org/10.4028/www.scientific.net/msf.587-588.395.

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On this paper, a study that evaluates the influence of some variables on the mechanical properties of the vertical centrifugal casting is made. It is emphasized the fact that the centrifugal effect from vertical centrifugal casting brings special features on mechanical properties. It has been observed that the centrifugal effect may substantially increase, in some alloys, the rupture strength, rupture strain, and Young modulus, as compared to the gravity casting technique. When compared to gravity casting, the centrifugal casting process, besides the centrifugal force (pressure effect), always has an inherent associated vibration during the casting. In this study, as an attempt to isolate the vibration effect from the overall centrifugal effect, tests on castings obtained by vibrating gravity casting process are made. A comparison between castings obtained by centrifugal casting technique, vibrating casting technique and gravity casting technique is made in order to fully understand the features that allow the improvement on mechanical properties during the vertical centrifugal casting technique. An analysis of the most important effects, on both mechanical properties and on some metallurgical features is made.
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MIZUNO, Shinya. "New technologies of aluminum castings. New casting process." Journal of Japan Institute of Light Metals 47, no. 11 (1997): 580–86. http://dx.doi.org/10.2464/jilm.47.580.

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Dissertations / Theses on the topic "Die casting process"

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Ziolkowski, Joseph Edmund. "Modeling of an aerospace sand casting process." Link to electronic thesis, 2002. http://www.wpi.edu/Pubs/ETD/Available/etd-1223102-102625.

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Hock, Kuah Teng. "Numerical simulation of sand casting process." Ohio : Ohio University, 1987. http://www.ohiolink.edu/etd/view.cgi?ohiou1183046313.

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Yin, Jun. "Numerical modelling of centrifugal casting process." Thesis, KTH, Materialvetenskap, 2016. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-195650.

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The centrifugal casting process is a common method for manufacturing the tubes, etc. Due to its high temperature and invisible mold, it is really difficult to know the mechanism of molten steel inside the mold. It is important to know the mechanism of the molten steel inside mold, since it will help the manufacturer to know more accuracy of the flow of the molten steel so that it can work for improving the productivity and quality of the products. Casting funnel design is the designed by Åkers for their funnel which will result in different flow behavior. In thesis work, casting funnel design will be investigated so that it can make sure that the casting funnel design can affect the flow behavior of molten steel or not. Another method of changing the diameter of nozzle was also carried out and investigated with both simulation and experiment to changing flow behavior of molten steel. It will give Åkers alternative method for changing the flow behavior to liquid steel. The mechanism of solidification in centrifugal casting is also really important since it can give manufacturer the general view of solidification process. So solidification of centrifugal casting is also investigated in the thesis work.
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Osborne, Mark Albert. "Analysis of the effects of die casting process control on casting dimensional variability /." The Ohio State University, 1995. http://rave.ohiolink.edu/etdc/view?acc_num=osu1487862399449976.

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Marcos, Rebal, and Endrias Teklu. "ANALYSIS OF CASTING PROCESS FORCOMPLEX ELECTRONIC UNIT." Thesis, Jönköping University, JTH, Mechanical Engineering, 2009. http://urn.kb.se/resolve?urn=urn:nbn:se:hj:diva-11545.

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Most aircraft component are currently being manufactured by machining, forging, welding and also assembling such parts. However, the possibilities of cutting cost from a single component has brought about a growing trend towards looking into casting as a possible option for manufacturing aircraft parts.

This thesis was done at the request of Saab Avitronics. It evaluates the possibilities of one aircraft part, a chassis for an electronic unit that was first designed to be machined from a blank, to be cast. The thesis goes through the multifaceted tasks of product development. Casting process selection, cast alloy selection as well as geometry modification were some of these tasks that were performed in this thesis. It also evaluates the performances of chosen casting processes, the design of gating systems as well as various process parameters set, by simulating the casting processes.

The alloy chosen was A356.0 with a T6 temper and the casting processes chosen were plaster mold casting and rheocasting. The geometry of the original chassis, which had very thin sections and undercuts which were complex to cast, was modified and made easier to cast with an acceptable slight increase of mass and size. The modification done on the geometry as well as the gating systems used had proven to be worthwhile, as the simulation of both process showed that such a part can be casted with no crucial defects foreseen. However, probable cavities might occur at the very tip of the chassis’s thin-fins – that it has for carrying away heat. Minor subsurface porosities might also be formed, which would not impair the function of the chassis. The modified chassis was made as close to as finished piece as possible, for the purpose of reducing machining costs. The cost of producing such a part by casting was also seen to be much less than machining it from blank. This could be taken as rationale for casting the chassis with thicker sections, to avoid problems that may arise in casting, and to subsequently machine these faces later, as it would still be cheaper than machining the chassis from a blank.

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Capps, Johnathon. "Advancements in vacuum process molding and casting." Auburn, Ala., 2005. http://repo.lib.auburn.edu/2005%20Summer/master's/CAPPS_JOHNATHON_6.pdf.

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Ali, Amer F. "Computer aided analysis of the casting process." Ohio : Ohio University, 1993. http://www.ohiolink.edu/etd/view.cgi?ohiou1174931475.

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Laurie, Joyce. "Freeze casting : a modified sol-gel process." Thesis, University of Bath, 1994. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.260248.

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CIPRIANO, LUIZ CARLOS. "NUMERICAL SIMULATION OF THE CONTINUOUS CASTING PROCESS." PONTIFÍCIA UNIVERSIDADE CATÓLICA DO RIO DE JANEIRO, 1988. http://www.maxwell.vrac.puc-rio.br/Busca_etds.php?strSecao=resultado&nrSeq=33279@1.

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O processo de lingotamento contínua de metais é simulado numericamente. Placas ou tarugos metálicos são produzidos continuamente, mantendo-se o escoamento do material através do molde. A frente de solidificação depende da velocidade de retirada de material e da refrigeração imposta na superfície do lingote. A posição da interface líquido-sólido e o campo de temperaturas na região sólida são determinados, e consideram-se os efeitos da velocidade na curvatura da interface. É analisado um modelo retangular bi-dimensional e a equação da energia é resolvida utilizando-se o método numérica de diferenças finitas das volumes de controle. Os resultados são comparados com soluções analíticas simplificadas onde a termo de transporte não foi considerado e mostram que o calar transportado pelo movimento de lingote tem influência significativa na forma da interface e em sua localização dentro do molde durante o processo.
This work deals with a numerical simulation of the continuous casting process. This process is employed in the fabrication of metallic inguts. The position of the solid-liquid interface is determined together with the temperature field in the solid region. The research is facused on studying the effect of the withdrawal velocity on the interface position, aiming at accidental leakage preventien during the process. In this analysis, the sensible heat is taken into acceunt, in contrast to previous marks reported in the open literature. The present work employed a two-dimensional model. The energy equation was integrated in the rectangular domain by means of the finite-volume method. The liquid regions was at the fusion temperatures, whereas one of the side boundaries was strogly cooled to promote solidification. An algorithm was developed to determine the interface pesition and the domain length. Comparisons of this results obtained with the available solutions obtained excluding sensible heat showed that, depending upon the value of the withdrawal velocity, the sensible heat may or may not be negleted. The simulations was performed with the aid of a microcomputer of the IBM-PC/XT type, employing the Fortran language.
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Karni, Yiftah. "Selection of process variables for die casting /." The Ohio State University, 1991. http://rave.ohiolink.edu/etdc/view?acc_num=osu1487688507504379.

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Books on the topic "Die casting process"

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Die casting engineering: A hydraulic, thermal, and mechanical process. New York, NY: Marcel Dekker, 2005.

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Hansen, J. S. Casting P-900 armorplate by the expendable pattern casting process. Washington, DC: U.S. Dept. of the Interior, Bureau of Mines, 1992.

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Hansen, J. S. Casting P-900 armorplate by the expendable pattern casting process. Washington, DC: U.S. Dept. of the Interior, Bureau of Mines, 1992.

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Hansen, J. S. Casting P-900 armorplate by the expendable pattern casting process. Washington, DC: U.S. Dept. of the Interior, Bureau of Mines, 1992.

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Herman, E. A. Die casting process, engineering and control. Rosemont, Ill: North American Die Casting Association, 1991.

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Process Technology Conference (13th 1995 Nashville, TN). 13th Process Technology Conference proceedings: Continuous casting. Warrendale, Pa: Iron and Steel Society, 1995.

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Process Technology Conference (9th 1990 Detroit, Mich.). Use of instrumentation to optimize the continuous casting process: Proceedings of the 9th Process Technology Conference. Warrendale, PA: Iron and Steel Society, 1990.

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Ludlow, V. Pilot plant process development for horizontal continuous casting of thin slab. Luxembourg: Commission of the European Communities, 1987.

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Process Technology Conference (15th Pittsburgh, PA 1996). 15th Process Technology Conference proceedings: Effect of residuals on steel products and processing. Warrendale, PA: Iron and Steel Society, 1997.

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Chabchoub, Ferid. Mathematical modelling and experimental measurements on the horizontal Ohno continuous casting process. Ottawa: National Library of Canada = Bibliothèque nationale du Canada, 1993.

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Book chapters on the topic "Die casting process"

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Bolton, William, and R. A. Higgins. "Casting process." In Materials for Engineers and Technicians, 61–72. Seventh edition. | Abingdon, Oxon ; New York, NY : Routledge, 2021.: Routledge, 2020. http://dx.doi.org/10.1201/9781003082446-5.

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Sommerhofer, H., and P. Sommerhofer. "A New Continuous Casting Process." In Continuous Casting, 368–76. Weinheim, Germany: Wiley-VCH Verlag GmbH & Co. KGaA, 2006. http://dx.doi.org/10.1002/9783527607969.ch49.

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Robles Hernandez, Francisco C., Jose Martin Herrera Ramírez, and Robert Mackay. "Metal Casting Process." In Al-Si Alloys, 49–81. Cham: Springer International Publishing, 2017. http://dx.doi.org/10.1007/978-3-319-58380-8_3.

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Heisser, Christof, Erwin Flender, and Jörg C. Sturm. "The History of Casting Process Simulation." In Shape Casting, 1–12. Hoboken, NJ, USA: John Wiley & Sons, Inc., 2011. http://dx.doi.org/10.1002/9781118062050.ch1.

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Byczynski, Glenn, and Robert Mackay. "The Nemak Cosworth Casting Process Latest Generation." In Shape Casting, 179–85. Cham: Springer International Publishing, 2019. http://dx.doi.org/10.1007/978-3-030-06034-3_18.

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Bach, Fr W., M. Hepke, and A. Rossberg. "New Strip Casting Process for Magnesium Alloys." In Continuous Casting, 81–86. Weinheim, Germany: Wiley-VCH Verlag GmbH & Co. KGaA, 2006. http://dx.doi.org/10.1002/9783527607969.ch9.

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Hurst, Steve. "6. The ceramic shell process; Die casting." In Metal Casting, 85–106. Rugby, Warwickshire, United Kingdom: Practical Action Publishing, 1996. http://dx.doi.org/10.3362/9781780442792.006.

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Griskey, Richard G. "Calendering, Thermoforming, and Casting." In Polymer Process Engineering, 372–92. Dordrecht: Springer Netherlands, 1995. http://dx.doi.org/10.1007/978-94-011-0581-1_10.

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Schliefer, H., A. Khoury, M. Porten, P. Wolber, K. H. Boller, W. Dürrschnabel, H. R. Müller, et al. "Remarks about Process and Technology of Continuous Casting." In Continuous Casting, 49–69. Weinheim, Germany: Wiley-VCH Verlag GmbH & Co. KGaA, 2006. http://dx.doi.org/10.1002/9783527607969.ch6.

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Stuczyński, Tomasz, and Marzena Lech-Grega. "Grain Refinement Process in Aluminium Alloys Type AlZnMgZr." In Continuous Casting, 224–32. Weinheim, FRG: Wiley-VCH Verlag GmbH & Co. KGaA, 2006. http://dx.doi.org/10.1002/3527607331.ch33.

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Conference papers on the topic "Die casting process"

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J, Stiernstedt, Cristea M, Grönqvist H, and Carlström E. "Tape Casting Process Integration — Casting on a Structured Carrier Film." In 9th International Conference on Multi-Material Micro Manufacture. Singapore: Research Publishing Services, 2012. http://dx.doi.org/10.3850/978-981-07-3353-7_311.

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Sowden, Ike, and George Currier. "Simulating the Effects of Initial Condition Variance in the Investment Casting Process." In 2013 Joint Rail Conference. American Society of Mechanical Engineers, 2013. http://dx.doi.org/10.1115/jrc2013-2431.

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A consistent casting process can sometimes be a challenge to achieve due to the wide array of initial conditions that can affect the process. Variation in these initial conditions during the casting process can generate an array of unexpected results, which sometimes have a negative effect on the structural integrity of the castings. Cold shuts, shrinkage formation, and hot tears are just a few examples of the defects that can arise. Throughout the history of the railroad, castings found with these types of defects have plagued the industry. Since castings are considered a leading method for manufacturing metal components, it is important to have a consistent and repeatable process. Without this, defects can drive the quality of the product down and cause castings to fail while in service. Studying the effects of initial condition variance can teach us which parameters can positively or negatively affect the overall casting process. Improvements in a foundry’s process can then be implemented resulting in a more consistent, reliable final product. Computer simulation software has proven to assist in predicting defects before a single casting has even been poured. As with any simulation, care must be taken when setting up the input parameters. Without careful consideration of the initial conditions, the results may not reflect the actual process. Because of this fact, Strato, Inc. continues researching and sharing its findings regarding the effectiveness of these simulations. This research helps to ensure that a higher quality product with a lower fall-out rate is delivered promptly to the customer. Specific initial conditions are explored in this paper. Variance in the soundness of the casting process is examined through the use of material density plots. These density plots, which provide a visual indication of internal shrinkage, have been obtained using simulation software. These predictions of shrinkage are then compared to actual castings that were poured using the same initial conditions. Results from the following three case studies present evidence to further the belief that using this software, which allows for a deeper understanding of the thermal and fluid dynamics of the casting process, has a direct impact on both quality, as well as the time it takes to develop a sound process. With the knowledge gained by simulating variance in initial casting conditions, a more robust rigging design and overall casting process can be achieved. This paper is a continuation of Strato’s investigation into the effects of varying initial conditions with simulation software and comparison with real world results. The first part was presented at the 2012 ASME JRC and can be found within its proceedings. Although some concepts and terms are explained in both papers, it is suggested that part one of this paper be reviewed by those who would like more insight into the framework of this paper.
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Bakhtiyarov, Sayavur I., Ruel A. Overfelt, and Manuel Eduardo Palomar Pardave. "Magnesium V-Process Casting: Part I — CFD Simulations and Experimental Casting." In ASME 2004 International Mechanical Engineering Congress and Exposition. ASMEDC, 2004. http://dx.doi.org/10.1115/imece2004-60447.

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Given the rapid projected growth of magnesium casting usage in the automotive parts marketplace, there is a critical need to develop casting technologies applicable for a wide variety of part shapes, sizes, and production rates. The application of magnesium components will allow reduction in vehicle weight, improvement of parts-consolidation and minimization of noise/vibration characteristics. Magnesium is considered the fastest-growing metal in cars. Many of the earliest applications are instrument panel components, valve covers, etc. These are produced by a reasonably mature diecasting technology. Many potential structural components for automobiles could be converted to magnesium if a high volume, cost effective manufacturing process were developed. In this paper we propose a modified vacuum-sealed molding process for magnesium casting. Some results of computer modeling and design of experimental research are presented.
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Watkins, Megan F., Mahesh Mani, Kevin W. Lyons, and S. K. Gupta. "Sustainability Characterization for Die Casting Process." In ASME 2013 International Design Engineering Technical Conferences and Computers and Information in Engineering Conference. American Society of Mechanical Engineers, 2013. http://dx.doi.org/10.1115/detc2013-12634.

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The manufacturing sector accounts for approximately one-third of the total energy consumption in the United States. Today, sustainable manufacturing has become an area of increasing interest, as companies look to reduce their manufacturing footprint and become more environmentally friendly. A science-based methodology, known as sustainability characterization, has the potential for providing companies a way to measure the sustainability of their manufacturing processes. In this paper, the sustainability characterization methodology was used to evaluate the sustainability of die casting unit manufacturing process. More specifically, a way to theoretically model sustainability, based on energy use, was investigated. Using the fundamentals of die casting processes, corresponding input-outputs were first mapped in terms of sustainability parameters and later equations to theoretically calculate the energy used in a die casting machine were identified/formulated. The theoretical energy equations provide a baseline for creating an information model that will eventually lead to creating a science-based methodology standard for sustainability characterization of unit manufacturing processes.
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Oberaigner, Wolfgang, and Reinhold Leitner. "HIGHLIGHTS IN CONTINUOUS CASTING PROCESS AUTOMATION." In 46º Seminário de Aciaria - Internacional. São Paulo: Editora Blucher, 2017. http://dx.doi.org/10.5151/1982-9345-27396.

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Shah, Jiten V. "Concurrent Product and Process Development Using Casting Process Simulation." In SAE 2000 World Congress. 400 Commonwealth Drive, Warrendale, PA, United States: SAE International, 2000. http://dx.doi.org/10.4271/2000-01-0754.

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Santana, Helder, and Erb Lins. "Simulation of casting process of marine propellers." In 24th ABCM International Congress of Mechanical Engineering. ABCM, 2017. http://dx.doi.org/10.26678/abcm.cobem2017.cob17-2657.

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Verma, Suresh K., and John L. Dorcic. "Squeeze Casting Process for Metal-Ceramic Composites." In SAE International Congress and Exposition. 400 Commonwealth Drive, Warrendale, PA, United States: SAE International, 1987. http://dx.doi.org/10.4271/870405.

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Rosbrook, Christopher, and Ralf Kind. "Ensuring Castable Designs with Casting Process Simulation." In SAE 2000 World Congress. 400 Commonwealth Drive, Warrendale, PA, United States: SAE International, 2000. http://dx.doi.org/10.4271/2000-01-0756.

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Xia, Yun, and TingXu Hou. "Automotive Casting Defect Reduction by Process Simulation." In SAE 2000 World Congress. 400 Commonwealth Drive, Warrendale, PA, United States: SAE International, 2000. http://dx.doi.org/10.4271/2000-01-0757.

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Reports on the topic "Die casting process"

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Ranjan, Rakesh, Jack D. Galloway, Cetin Unal, and Randall Fielding. Casting Process Modeling and Validation. Office of Scientific and Technical Information (OSTI), April 2015. http://dx.doi.org/10.2172/1178316.

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Sussman, R. C., and R. S. Williams. Process development of thin strip steel casting. Office of Scientific and Technical Information (OSTI), December 1990. http://dx.doi.org/10.2172/6336681.

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Chen, Karen, Gabrielle Anne Kral, Seth D. Imhoff, Matthew Allen Goodyear, Paul Jacob Gibbs, Eunice Martinez Solis, and Neil N. Carlson. Convert Triple Plate: Casting Process Upset Simulations. Office of Scientific and Technical Information (OSTI), December 2019. http://dx.doi.org/10.2172/1578009.

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Shapiro, A. B. Casting process modeling using CAST2D: The part mold interface. Office of Scientific and Technical Information (OSTI), October 1991. http://dx.doi.org/10.2172/6005389.

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Tanihata, Akito, Naoko Sato, Koji Katsumata, Takashi Shiraishi, Kazuhiro Oda, and Osamu Endo. Strength Enhancement of Piston Material With Die Casting Process. Warrendale, PA: SAE International, September 2005. http://dx.doi.org/10.4271/2005-08-0598.

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Okuno, Tomokazu, Ikuo Ihara, and Tetsuya Yamaguchi. The Analysis of Solidification Process for Aluminum Die Casting. Warrendale, PA: SAE International, September 2005. http://dx.doi.org/10.4271/2005-08-0600.

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Shapiro, Arthur, Thomas Tom, and Harold Gegel. Casting Process Modeling Final Report CRADA No. TC-0180-91. Office of Scientific and Technical Information (OSTI), March 2018. http://dx.doi.org/10.2172/1430961.

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Williams, R. S. Development of a thin steel strip casting process. Final report. Office of Scientific and Technical Information (OSTI), April 1994. http://dx.doi.org/10.2172/467131.

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Shapiro, A. B., and J. O. Hallquist. CAST2D: A finite element computer code for casting process modeling. Office of Scientific and Technical Information (OSTI), October 1991. http://dx.doi.org/10.2172/10178228.

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Nyberg, Eric, Vineet Joshi, Curt Lavender, Dean Paxton, and Douglas Burkes. The Influence of Casting Conditions on the Microstructure of As-Cast U-10Mo Alloys: Characterization of the Casting Process Baseline. Office of Scientific and Technical Information (OSTI), December 2013. http://dx.doi.org/10.2172/1163444.

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