Relevant bibliographies by topics / Casting technology

Contents

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

Academic literature on the topic 'Casting technology'

Author: Grafiati
Published: 4 June 2021
Last updated: 10 February 2022

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Journal articles on the topic "Casting technology"

1

Odilov, Furkat, and Farrukhjon Abdullaev. "Improving The Technology Of Continuous Casting Of Steel Castings." American Journal of Engineering And Techonology 03, no. 04 (April 30, 2021): 108–17. http://dx.doi.org/10.37547/tajet/volume03issue04-17.

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This article describes the quality and cost-effectiveness of converting steels by melting them in electric arc furnaces. In addition, the technology of continuous casting of cast products in the furnace with the help of ferroalloys, followed by various equipment.
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Shopina, E., and M. Markova. "KASLI ART CASTING TECHNOLOGY." Technical Aesthetics and Design Research 2, no. 2 (December 16, 2020): 29–36. http://dx.doi.org/10.34031/2687-0878-2020-2-2-29-36.

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The Kasli art casting technology is characterized by its uniqueness; the products are distinguished by precision of execution and uniqueness of style. The Kasli Casting Plant occupies a well-deserved first place in Russia in terms of quality and quantity of products. The object of the research is the features of each of the stages when creating of Kasli castings, as well as the distinctive features of the art casting technology. As a result of the study, the conclusion was formulated that the historical role of Kasli art casting is its influence on the decorative and applied art of Russia. According to the authors, the Kasli plant influenced the further production of castings, producing high-quality products with careful study of details, ensuring a high level of quality for the foundry workers
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Skorulski, G. "3DP Technology for the Manufacture of Molds for Pressure Casting." Archives of Foundry Engineering 16, no. 3 (September 1, 2016): 99–102. http://dx.doi.org/10.1515/afe-2016-0058.

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Abstract The paper presents the use of rapid prototyping technology of three dimensional printing (3DP) to make a prototype shell casting mold. In the first step, for identification purposes, a mold was prepared to enable different alloys to be cast. All molds being cast were designed in a universal CAD environment and printed with the zp151 composite material (Calcium sulfate hemihydrate) with a zb63 binder (2-pyrrolidone). It is designated to be used to prepare colourful models presenting prototypes or casting models and molds. The usefulness of 3DP technology for use with copper alloys, aluminum and zinc was analyzed. The strength of the mold during casting was assumed as a characteristic comparative feature in the material resistance to high temperature, the quality of the resulting casting and its surface roughness. Casting tests were carried out in vacuum – pressure casting. The casting programs applied, significantly increased the quality of castings and enabled precise mold submergence. Significant improvement was noted in the quality compared to the same castings obtained by gravity casting.
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Boroń, Kinga. "Evaluation of porosity of AlZn5Mg castings made by squeeze casting technology." Acta Innovations, no. 32 (July 1, 2019): 12–19. http://dx.doi.org/10.32933/actainnovations.32.2.

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The paper shows the results of research aimed to assess the impact of high squeeze pressure on the porosity of AlZn5Mg alloy castings, including its distribution in slab-type castings with dimensions of 25 x 100 x 200 mm. The research was carried out on castings made by two methods: squeeze casting and gravity casting. The pressing was conducted at a pressure of 100 MPa at an initial mould temperature of 200°C. The research identified the middle and outer parts of the casting. Experimental research was preceded by numerical simulation of the casting solidification, then a porosity assessment was carried out using the hydrostatic weighing method, which was supplemented by structural observations. The results of the research showed a two-fold decrease in the porosity in the middle part of the casting which is most exposed to the occurrence of shrinkage voids formed in the final clotting phase. Structural tests revealed the occurrence of dispersed porosity in castings, mainly of shrinkage and / or shrinkage-gas origin. The impact of pressure of 100 MPa during solidification caused fragmentation of the primary structure of castings, which resulted in a higher grain density.
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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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Dong, Yi, Xiao Ming Fan, and Bin Liu. "Numerical Simulation and Technology Optimization of Rear Oil Seal Bearing Die Castings Based on ProCAST." Advanced Materials Research 189-193 (February 2011): 4008–13. http://dx.doi.org/10.4028/www.scientific.net/amr.189-193.4008.

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In production,the Φ105 mm hole of rear oil seal bearing die castings often appear porosity, shrinkage and other defects , resulting in the parts to scrap. The existing gating system design of rear oil seal bearing die castings was improved , and the flow and temperature field of the two programs that before and after improvement were analyzed by ProCAST software. The simulation results predicted the casting defects, and the conclusion was consistent with the production. By using the improved process optimization, the rejection rate of die castings can be reduced effectively. Die casting is a chipless forming of casting with high casting dimensional accuracy, high surface quality and high production efficiency [1,2]. Therefore, it has developed rapidly in the automotive, communications and other industries. However, due to shrinkage, porosity and other reasons, leading to high rejection rate of castings. With the emergence of commercial casting simulation software, the casting production has been developed from semi empirical and semi theoretical onto theorization, quantification and controllable track[3-5]. In this paper, the casting defects of rear oil seal bearing is analyzed by using numerical simulation technology[6]. By optimizing the casting process, the casting quality is improved, and the rejection rate is reduced effectively.
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Mao, H. K., H. Xu, and L. Xue. "Automotive Riser System Design Technology Based on CAE." Advanced Materials Research 215 (March 2011): 344–50. http://dx.doi.org/10.4028/www.scientific.net/amr.215.344.

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For the sake of achieving the feeding system to be automated designed, the automatic merging model of the casting hot spot set up based on Casting CAE, and based on this model the riser and cold-iron designs can automatically be completed. The CAD/CAE software system was developed for the steel casting, and the feeding system of the side frame casting was designed by the software. according to the process parameters that were provided in the paper, the sample casting was poured and dissected to determine the volume of shrinkage cavity of sample castings. The results showed that no shrink defect exists in the casting, so it proved that the model was reliable for the riser and cold iron design.
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Chen, Hong Ze, Hong Zhao Dong, and Zhong De Shan. "Numerical Simulation and Optimization Technology of Lost Foam Casting." Advanced Materials Research 936 (June 2014): 1681–86. http://dx.doi.org/10.4028/www.scientific.net/amr.936.1681.

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The filling and solidification process of casting that is closely related to lots of casting defects and has significant effect on the mechanical properties of castings. In this paper, the research status and development direction of numerical simulation technology of casting, especially of lost foam casting were reviewed and discussed. Also a brief introduction of the basic situations and product characteristics of several outstanding cast filling and solidification simulation softwares were summarized. In addition, the actual domestic application status of numerical simulation technology of lost foam casting in the foundry enterprises was analyzed and some suggestions were given as well.
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Liao, Dun Ming, Li Liang Chen, Jian Xin Zhou, and Rui Xiang Liu. "CAD/CAE Technology and its Application on Nonferrous Alloy Casting." Advanced Materials Research 139-141 (October 2010): 1113–16. http://dx.doi.org/10.4028/www.scientific.net/amr.139-141.1113.

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The nonferrous alloy castings will be much demanded with the development of aerospace, light-weight weapons and automotive industry. Casting CAD/CAE technology has played an increasingly important role in foundry. It can help technician to design casting process and simulate heat transferring and molten metal flowing before actual production. Firstly, the main contents and basic principles, mathematical models of casting CAD and CAE were introduced. Secondly, the casting CAD/CAE technology route was interpreted, and then several CAD/CAE applications of casting process design and simulating were carried out on nonferrous alloys, such as aluminum, magnesium and copper. The results indicate that CAD/CAE technology can be applied to casting process design and predict casting defects which usually occur during the casting mold filling and solidification process, it can provide references to optimize casting process, so as to improve casting quality, reduce the rejection rate and shorten the development cycle of new products.
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Gaspar, Stefan, and Ján Pasko. "Analysis of Fracture Process and Common Defects in Casting Alloys EN43100 Manufactured by Die Casting Technology." Advanced Materials Research 1077 (December 2014): 39–43. http://dx.doi.org/10.4028/www.scientific.net/amr.1077.39.

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Recent research in the process of die casting production of aluminium alloys which are nowadays deeply implemented in the rapidly developing automobile, shipping and airline industry aims to increase the manufacture and quality properties of the casting in order to obtain its high mechanical properties at acceptable economic costs. In terms of ensuring the quality indicators in the production of aluminium castings it is necessary to pay close attention to internal structural quality of the castings characterized by type and extent of foundry defects (cavities, Al2O3 particles, internal cold laps). The presenting contribution deals with the analysis of the fracture process, the microorganism disturbance of test samples, the impact of casting speed on the occurrence and extent of the castings porosity and reasons for the internal foundry defects of casting alloys EN 43100 manufactured by die casting technology.
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Dissertations / Theses on the topic "Casting technology"

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KING-NYGREN, ELIAS. "Analysis of Complex 3D-Concrete Casting." Thesis, KTH, Skolan för industriell teknik och management (ITM), 2021. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-299789.

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Concrete is the second most used material in the world and is primarily used within the construction industry. It is however also used for making decorative and functional smaller products within various industries. Manufacturing with concrete can be done with different manufacturing techniques, the most common technique being concrete casting in molds. This project was conducted at Arclight AB in Stockholm, a company on the verge of starting production of molds for casting concrete products. With many different manufacturing techniques at their disposal, it is however difficult for them to know which manufacturing technique should be used for which type of mold. The goal of this project is to compare the available manufacturing techniques at Arclight and see which are most suitable for mold manufacturing. The background research and preparation resulted in three segments of the casting process which needed to be analyzed: choice of concrete, choice post-processing technique, and choice of manufacturing technique. Results from the trails of these three segments gave invaluable information for the project. Concrete trails resulted in a recommendation of a concrete with high compression strength and high water content to make the concrete viscous and flow easily into the mold. Post-processing trials resulted in different optimal post-processing techniques based on the mold material and manufacturing technique. Manufacturing trails gave in-depth information on processing larger molds and the potential problems associated with casting complex large concrete products. The final result of the project is a spreadsheet which recommends an optimal manufacturing technique based on the geometry type and number of products to be cast. Maximum cost per product, maximum machine time for manufacturing and maximum total production time for the concrete products are also stated to find the optimal manufacturing technique for each specific concrete casting project. Before using this spreadsheet as a basis for manufacturing, it should be formatted for easier use. Additional tests with applying epoxy and polyurethane resin for post-processing molds should be conducted, in addition to testing materials for manufacture of master molds for vacuum forming.
Betong är det näst mest använda råmaterialet i världen och används primärt inom byggindustrin. Det används även för tillverkning av estetiska och funktionella mindre produkter inom andra industrier. Betongprodukter kan tillverkas med flera olika tillverkningstekniker, där den vanligaste är gjutning av betong i gjutformar. Detta projekt var utfört hos Arclight AB i Stockholm, ett företag som är i början av att starta produktion av gjutformar för gjutning av betongprodukter. Med så många olika tillverkningstekniker hos företaget är det svårt att veta vilken tillverkningsteknik som är bäst lämpad för vilken typ av gjutform. Målet med detta projekt är att jämföra de olika tillverkningstekniker Arclight har och se vilka är mest lämpade för tillverkning av gjutformar. Bakgrundsforskningen och förberedandet resulterade i tre segment av gjutprocessen som behövde analyseras; val av betong, val av ytbehandlingsteknik, och val av tillverkningsteknik. Testerna inom dessa tre segment gav ovärderlig information för projektet. Resultatet av betongtesterna var en rekommendation av betong med hög tryckhållfasthet och en stor mängd vatten i betongen för lättare hällning i gjutformen. Resultatet av ytbehandlingstesterna var olika optimala ytbehandlingar beroende på material för gjutformen, samt tillverkningsteknik. Resultatet av tillverkningstesterna gav information om stora gjutformar bäst hanteras och eventuella problem associerade med att gjuta stora komplexa betongprodukter. Slutgiltiga resultatet av projektet är ett kalkylblad vilket rekommenderar optimala tillverkningsmetoden baserat på geometritypen av produkten som ska gjutas samt antalet produkter att tillverka. Maximal kostnad per produkt, maximal maskintid för tillverkning och maximal total tillverkningstid för produktion av betongprodukterna bestäms även för att finna optimala tillverkningstekniken för varje specifikt betonggjutningsprojekt. Innan detta kalkylark används för tillverkning borde det formateras så det är mer användarvänligt. Ytterligare ytbehandlingstester med epoxyresin och polyuretanresin bör göras på gjutformar, samt även att testa material för tillverkning av formverktyg för vakumforming.
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Howard, Marvin ElRoy. "Sailing up Olympus casting a critical eye on Educational Technology /." [Ames, Iowa : Iowa State University], 2007.

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Cheng, Xu. "Inert refractory systems for casting of titanium alloys." Thesis, University of Birmingham, 2012. http://etheses.bham.ac.uk//id/eprint/3838/.

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Research has been undertaken to develop new yttria slurry systems for use in mould face coats for investment casting TiAl alloy, solving the pre-gelation problems of commercial yttria slurry systems to increase slurry life. Meanwhile, the new face coats should also have excellent sintering properties, chemical inertness, surface finish and be easy to prepare. The processes of developing the new slurry started with the filler powder investigation by adding different sintering additives into the yttria powder to achieve good sintering properties. Then the best filler powder candidates were selected to make the slurry. Finally, the new face coat slurries were used to make the shell face coat and the chemical inertness of those shells were investigated through the sessile drop and investment casting. In the research, the filler powder and face coat sintering properties were quantified through density, dilatometer testing, X-ray diffraction (XRD) and microstructural change at different testing temperatures. The interaction of different face coat systems and the metal were identified using hardness tests, sessile drop contact angle and the microstructural change at the metal/shell interface. In this research, three water-based binder face coat systems containing YF\(_3\), Y\(_2\)O\(_3\)+0.5wt% Al\(_2\)O\(_3\)+ 0.5 wt% ZrO\(_2\) (YAZ), and B\(_2\)O\(_3\) additives were found to have similar or even better sintering properties compared to a commercial face coat. Meanwhile, they had long life.
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Weller, Martin L. "An analysis of the applicability of rule based technology to a representative domain." Thesis, Teesside University, 1994. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.387023.

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Du, Preez W., A. Paine, and R. Bean. "Product development within the framework of a National Casting Technology Centre." Journal for New Generation Sciences, Vol 4, Issue 1: Central University of Technology, Free State, Bloemfontein, 2006. http://hdl.handle.net/11462/488.

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Published Article
The need for a state of the art advanced National Casting Technology Centre (NCTC) has been widely supported throughout industry and recognised as an important facilitator in the growth of the foundry industry. This initiative also aligns itself with the government's Advanced Manufacturing Technology Strategy (AMTS), which is an implementation strategy in support of the South African government's Integrated Manufacturing Strategy (IMS) and National R&D Strategy (NRDS). The AMTS aims at supporting and developing the downstream high technology manufacturing industry, inter alia through the aerospace, automotive and metals sectors.
In light of the above and in an effort to retain and expand the current national skills, expertise and facilities in advanced casting technologies, the National Product Development Centre at the CSIR has initiated a process of establishing a National Casting Technology Centre (NCTC). The establishment of the NCTC provides a supportive technology platform for the Advanced Metals Initiative (AMI), which was launched in 2003.
The primary objective of the NCTC is to preserve and expand the national expertise and capabilities in cast metals manufacturing by supporting the local casting industry with process development, technology transfer and skills enhancement in order to increase their global competitiveness.
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Taylor, Benjamin Luke. "Reaction systems and phase development for investment casting ceramics." Thesis, University of Birmingham, 2015. http://etheses.bham.ac.uk//id/eprint/5932/.

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Aero engine turbine blades are commonly produced via investment casting methods utilising sacrificial ceramic cores during casting to provide internal features such as cooling channels. During the firing process the conversion of the main ingredient (amorphous silica) to β-cristobalite plays a significant role, as it directly affects the dimensional stability, shrinkage, and leachability of the core after casting. Dilatometry, X-ray diffraction (XRD) and scanning electron microscopy (SEM) were utilised to evaluate common additives such as zirconium silicate and aluminosilicate. Zircon was found to act as a nucleation site with high temperature stability while aluminosilicate acts as a flux enhancing cristobalite formation rates. This understanding was utilised to mimic the performance of the formulation using both a novel engineered material and alternative naturally sourced silica. An innovative method was also developed utilising confocal Raman spectroscopy (CRM) and polarised light microscopy (PLM) for analysis of ceramic systems studied with a hot stage up to 1500 °C. Polarised light microscopy was shown to be favourable for analysis of crystal growth mechanisms and low temperature (≈250 °C) α-β cristobalite phase transitions. Developments in Raman spectroscopic technique enabled the location and crystallinity of devitrified amorphous silica (cristobalite) to be observed via a quasi-real time method, providing insight to the source, direction and corresponding crystal growth rates. The combination of analytical techniques has provided sufficient understanding to explain the role of key components in ceramic core formulations, which can be used to improve control and the predictability of the system during development and manufacture.
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Bednárik, Marko. "Návrh změny výroby tvářené součásti na technologii lití do keramických skořepin." Master's thesis, Vysoké učení technické v Brně. Fakulta strojního inženýrství, 2021. http://www.nusl.cz/ntk/nusl-445164.

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This diploma thesis describes the process of production of the cast by the lost-wax casting method. It includes the manufacturing of prototype models by additive technology, creation of ceramic shell molds. The work also includes an experimental part focused on the production of the selected parts by the method of the lost-wax casting and the comparison of this method with other types of production.
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Tarrant, Luke. "Formulation and development of ceramic mould materials for investment casting." Thesis, University of Birmingham, 2012. http://etheses.bham.ac.uk//id/eprint/3399/.

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The relationship between the formulation of ceramic mould materials for investment casting and their mechanical properties was investigated. A number of different ceramic materials were employed throughout the investigation including alumina, zirconia, mullite and colloidal silica. Ceramic shell specimens were investigated by measuring mechanical strength using flexural and compressive testing with the former being conducted at both room and elevated temperatures. Samples were further investigated by thermal expansion measurement and Archimedes porosity measurement. It was determined that the incorporation of unstabilised zirconia as both a stucco and filler material was effective in terms of reducing the fired strength of investment casting ceramics. Structural observations of samples under SEM revealed that the weakened samples featured significant cracking in the fired condition due to the occurrence of the zirconia phase transition. Thermal expansion measurements confirmed both the presence of the phase transition and the extent of the disruption caused. It was observed for slurries containing silica and alumina, that variation of the proportions of either had a significant effect on the properties of the final shell material. It was also shown that the size of the ceramic particles within the slurry had a significant effect on the final properties of the ceramic body.
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Demirel, Onur. "Development Of Automobile Chassis Parts Via Aluminum Extrusion And Sand Casting Technology." Master's thesis, METU, 2012. http://etd.lib.metu.edu.tr/upload/12614965/index.pdf.

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Due to the environmental issues related with fuel consumption and additionally passenger safety, aluminum space frame chassis is promising a big opportunity to design a lightweight structure with a high stiffness. Despite the lower stiffness and strength of aluminum in comparison to the conventional steel chassis, it can be compensated with changing thickness and design of structure by space frame geometry In this study, instead of using steel for automobile chassis, main goal is producing a space frame structure with using aluminum in an extrusion and sand casting processes and improve the stiffness. Chassis is designed according to calculations for moment of inertia, torsional and bending stiffness and in sufficient structural stiffness which can compete with steel chassis. Static finite element analysis was carried out to understand the chassis bending, torsional stiffness and fatigue behaviors. For frontal collisions, dynamic finite element analysis was also done to determine increases in the energy absorbance, specific energy absorbance and peak force for passenger safety. Aluminum profiles were produced by hot extrusion and joined with sand casting parts by TIG welding to manufacture a space frame structure. For main chassis profile, 6063 series of aluminum alloy was selected due to availability for extrusion process, weldability and having sufficient tensile strength and percent elongation and treatment response. Three point bending test was carried out to determine flexural strength. Moment of inertia calculations were done. Some parts such as side frame and shock absorber tower were produced by sand casting method. A similar composition to Silafont &ndash
36 aluminum alloy was selected because of its high fluidity and good mechanical properties
despite it is a die cast alloy. Tensile, hardness and Charpy impact test were conducted to determine the mechanical characteristics of Silafont - 36 sand cast alloy. In addition to microstructure features and thermal analysis were also carried out to achieve sufficient alloy properties. Heat affected z one was investigated by hardness and tensile test to determine the mechanical properties change after welding process. In this space frame development study, A, B and C pillar parts were produced by Al &ndash
Si sand casting and T6 heat treatment then welded together by TIG welding and finally assembled on the bottom chassis frame produced by using 6063 extrudes welded by 4000 series electrodes. The space frame chassis was studied by also computer simulation to test and see critical points which must be modified during manufacturing. Besides the experimental and theoretical studies, space frame was also produced at the same time. According to the experimental results, the feasibility of the production of lightweight and solid chassis structure was achieved.
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Elalem, Kaled. "Application of heat pipe technology in permanent mold casting of nonferrous alloys." Thesis, McGill University, 2004. http://digitool.Library.McGill.CA:80/R/?func=dbin-jump-full&object_id=85067.

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The issue of mold cooling is one, which presents a foundry with a dilemma. On the one hand; the use of air for cooling is safe and practical, however, it is not very effective and high cost. On the other hand, water-cooling can be very effective but it raises serious concerns about safety, especially with a metal such as magnesium. An alternative option that is being developed at McGill University uses heat pipe technology to carry out the cooling.
The experimental program consisted of designing a permanent mold to produce AZ91E magnesium alloy and A356 aluminum alloy castings with shrinkage defects. Heat pipes were then used to reduce these defects. The heat pipes used in this work are novel and are patent pending. They are referred to as McGill Heat Pipes.
Computer modeling was used extensively in designing the mold and the heat pipes. Final designs for the mold and the heat pipes were chosen based on the modeling results.
Laboratory tests of the heat pipe were performed before conducting the actual experimental plan. The laboratory testing results verified the excellent performance of the heat pipes as anticipated by the model.
An industrial mold made of H13 tool steel was constructed to cast nonferrous alloys. The heat pipes were installed and initial testing and actual industrial trials were conducted. This is the first time where a McGill heat pipe was used in an industrial permanent mold casting process for nonferrous alloys.
The effects of cooling using heat pipes on AZ91E and A356 were evaluated using computer modeling and experimental trials. Microstructural analyses were conducted to measure the secondary dendrite arm spacing, SDAS, and the grain size to evaluate the cooling effects on the castings. The modeling and the experimental results agreed quite well. The metallurgical differences between AZ91E and A356 were investigated using modeling and experimental results. Selected results from modeling, laboratory and industrial trials are presented. The results show a promising future for heat pipe technology in cooling permanent molds for the casting of nonferrous alloys.
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Books on the topic "Casting technology"

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Zhang, Dinghua, Yunyong Cheng, Ruisong Jiang, and Neng Wan. Turbine Blade Investment Casting Die Technology. Berlin, Heidelberg: Springer Berlin Heidelberg, 2018. http://dx.doi.org/10.1007/978-3-662-54188-3.

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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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International, Conference on Advanced Casting Technology (1986 Kalamazoo Mich ). Advanced casting technology: Proceedings of an International Conference on Advanced Casting Technology, Kalamazoo, Michigan, USA, 12-14 November 1986. [Metals Park, Ohio]: ASM International, 1987.

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Materials Solutions Conference '98 on Aluminum Castng Technology (1998 Rosemont, Ill.). Advances in aluminum casting technology: Proceedings from Materials Solutions Conference '98 on Aluminum Casting Technology, 12-15 October, 1998, Rosemont, Illinois. Materials Park, Ohio: ASM International, 1998.

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Poirier, D. R. Heat transfer fundamentals for metal casting. 2nd ed. Warrendale, Pa: Minerals, Metals and Materials Society, 1994.

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Y, Sahai. Tundish technology for clean steel production. Hackensack, NJ: World Scientific, 2008.

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A, Griffin John. Development of casting technology to allow direct use of steel castings in high speed machining lines. Des Plaines, Ill: Technical Steering Committee, Steel Founders' Society of America, 1987.

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Casting the net over global learning. Irvine, Calif: Griffin Publ. Group, 2002.

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Materials, Solutions Conference (2002 Columbus Ohio). Advances in aluminum casting technology II: Proceedings from Materials Solutions Conference 2002, the 2nd International Aluminum Casting Technology Symposium, 7-9 October 2002, Columbus, Ohio. Materials Park, OH: ASM International, 2002.

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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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Book chapters on the topic "Casting technology"

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Holzkamp, U., H. Haferkamp, and M. Niemeyer. "Continuous Casting Technology for Magnesium." In Continuous Casting, 94–100. Weinheim, FRG: Wiley-VCH Verlag GmbH & Co. KGaA, 2006. http://dx.doi.org/10.1002/3527607331.ch14.

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Müller, W., and P. Schneider. "Horizontal Casting Technology for Copper Products." In Continuous Casting, 329–35. Weinheim, Germany: Wiley-VCH Verlag GmbH & Co. KGaA, 2006. http://dx.doi.org/10.1002/9783527607969.ch45.

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Roosen, Andreas. "Tape Casting." In Ceramics Science and Technology, 39–62. Weinheim, Germany: Wiley-VCH Verlag GmbH & Co. KGaA, 2014. http://dx.doi.org/10.1002/9783527631940.ch33.

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Roosen, Andreas. "Tape Casting." In Ceramics Science and Technology, 39–62. Weinheim, Germany: Wiley-VCH Verlag GmbH & Co. KGaA, 2012. http://dx.doi.org/10.1002/9783527631957.ch2.

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Niedermair, F. "Horizontal Direct Chilled (HDC) Casting Technology for Aluminium." In Continuous Casting, 291–99. Weinheim, FRG: Wiley-VCH Verlag GmbH & Co. KGaA, 2006. http://dx.doi.org/10.1002/3527607331.ch43.

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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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Jarfors, Anders E. W., and Salem Seifeddine. "Metal Casting." In Handbook of Manufacturing Engineering and Technology, 1–90. London: Springer London, 2013. http://dx.doi.org/10.1007/978-1-4471-4976-7_81-4.

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Jarfors, Anders E. W., and Salem Seifeddine. "Metal Casting." In Handbook of Manufacturing Engineering and Technology, 309–410. London: Springer London, 2014. http://dx.doi.org/10.1007/978-1-4471-4670-4_81.

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Roll, Karl, and Dieter Steegmüller. "Casting and metal forming." In Technology Guide, 464–69. Berlin, Heidelberg: Springer Berlin Heidelberg, 2009. http://dx.doi.org/10.1007/978-3-540-88546-7_88.

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Bulian, Gerd W., and Manfred Langen. "The AIRSOL VEIL®Technology Package for Aluminium Billet Casting." In Continuous Casting, 302–9. Weinheim, FRG: Wiley-VCH Verlag GmbH & Co. KGaA, 2006. http://dx.doi.org/10.1002/3527607331.ch45.

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Conference papers on the topic "Casting technology"

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Futas, Peter. "COMPUTER SIMULATION OF CASTING PRODUCED BY INVESTMENT CASTING TECHNOLOGY." In 13th SGEM GeoConference on INFORMATICS, GEOINFORMATICS AND REMOTE SENSING. Stef92 Technology, 2013. http://dx.doi.org/10.5593/sgem2013/bb2.v1/s07.004.

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LOBITZ, J., P. ACKERMAN, and S. WEBER. "STME T/C casting technology." In 28th Joint Propulsion Conference and Exhibit. Reston, Virigina: American Institute of Aeronautics and Astronautics, 1992. http://dx.doi.org/10.2514/6.1992-3280.

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Kortovich, Charles S., Robert M. Garlock, and Craig R. Hayes. "Turbine Airfoil Manufacturing Technology." In ASME 1997 International Gas Turbine and Aeroengine Congress and Exhibition. American Society of Mechanical Engineers, 1997. http://dx.doi.org/10.1115/97-gt-428.

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The Department of Energy’s Turbine Airfoil Manufacturing Technology Program was initiated at PCC Airfoils, Inc./General Electric Power Generation Group. The specific program goal is to define manufacturing methods for single crystal (SX) technology to be applied to airfoil components for power generation applications. A number of technical issues are being addressed and these form the task structure of the program and will be discussed including: • Alloy Melt Practice to Reduce Sulfur Content in Alloys • Modification/Improvement of SX Casting Process • Core Materials and Design • Grain Orientation Control Melt desulfurization has successfully reduced sulfur to below 1 part/million with accompanying improvements in oxidation resistance compared to undesulfurized material. Casting variables have been identified which can optimize casting quality. Core material evaluations to date indicate the initial core compositions need to be optimized to eliminate core break during processing operations. Grain orientation control addresses the formation of a database to enable decisions to be made concerning the establishment of grain limit defect criteria. Liberalizing the defect criteria will have a positive effect on the producibility and yields associated with the SX castings. The planned testing has been formulated.
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Poli, Corrado, and Shyam Shanmugasundaram. "Design for Die Casting: A Group Technology Based Approach." In ASME 1991 Design Technical Conferences. American Society of Mechanical Engineers, 1991. http://dx.doi.org/10.1115/detc1991-0040.

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Abstract This paper describes an alternative approach to the rules-of-thumb based design of die castings. It describes a systematic, knowledge-based approach for drawing a designer’s attention to those features of a die casting which tend to increase manufacturing cost, so that designers can minimize difficult to produce features. Unlike the heuristic rules-of-thumb approach found in handbooks and textbooks, the knowledge-based approach discussed here provides both qualitative as well as quantitative feedback concerning a proposed design. An example illustrates use of the system.
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Nurhadiyanto, Didik, Mr Mujiyono, and Febrianto Amri Ristadi. "The Characteristics of Aluminum Casting Product Using Centrifugal Casting Machine." In International Conference on Technology and Vocational Teachers (ICTVT 2017). Paris, France: Atlantis Press, 2017. http://dx.doi.org/10.2991/ictvt-17.2017.27.

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Fröhling, C., F. Seuffert, and J. Müller. "High-Throughput Casting Technology — Challenges and Solutions." In AISTech 2020. AIST, 2020. http://dx.doi.org/10.33313/380/095.

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Froehling, C., J. Mueller, and F. Seuffert. "High-Throughput Casting Technology — Challenges and Solutions." In AISTech 2021. AIST, 2021. http://dx.doi.org/10.33313/382/145-11011-305.

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Froehling, C., J. Mueller, and F. Seuffert. "High-Throughput Casting Technology — Challenges and Solutions." In AISTech 2021. AIST, 2021. http://dx.doi.org/10.33313/382/045.

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Suprianto, Suprianto, Tugiman Tugiman, Tito Hadiguna, and Fikri Taher. "Effect of Pressure On Mechanical Properties of A356 Aluminum Castings Using Squeeze Casting Method." In International Conference on Technology, Innovation and Society. ITP Press, 2016. http://dx.doi.org/10.21063/ictis.2016.1002.

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Shi, Ying, and Liang Wang. "Sand casting precision technology based on non-occupying coating technology." In 2010 International Conference on Computer Design and Applications (ICCDA 2010). IEEE, 2010. http://dx.doi.org/10.1109/iccda.2010.5541174.

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Reports on the topic "Casting technology"

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Shapiro, A. B., and W. J. III Comfort. LLNL casting technology. Office of Scientific and Technical Information (OSTI), January 1994. http://dx.doi.org/10.2172/10133336.

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Charles E. Bates, Harry E. Littleton, Don Askeland, Taras Molibog, Jason Hopper, and Ben Vatankhah. Advanced Lost Foam Casting Technology. Office of Scientific and Technical Information (OSTI), November 2000. http://dx.doi.org/10.2172/790580.

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Luo, Alan A. Low-Cost Titanium Casting Technology. Office of Scientific and Technical Information (OSTI), July 2018. http://dx.doi.org/10.2172/1460727.

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Bates, C. E., H. E. Littleton, D. Askeland, J. Griffin, B. A. Miller, and D. S. Sheldon. Advanced lost foam from casting technology. Office of Scientific and Technical Information (OSTI), May 1996. http://dx.doi.org/10.2172/481868.

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Wanliang Sun, Harry E. Littleton, and Charles E. Bates. Advanced Lost Foam Casting Technology - Phase V. Office of Scientific and Technical Information (OSTI), April 2004. http://dx.doi.org/10.2172/840827.

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Goodwin, Frank. Development of Thin Section Zinc Die Casting Technology. Office of Scientific and Technical Information (OSTI), October 2013. http://dx.doi.org/10.2172/1111101.

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Bates, C. E., H. E. Littleton, D. Askeland, J. Griffin, B. A. Miller, and D. S. Sheldon. Advanced lost foam casting technology. 1995 summary report. Office of Scientific and Technical Information (OSTI), May 1996. http://dx.doi.org/10.2172/661641.

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Sikka, V. K. Commercialization effort in support of electroslag-casting technology. Office of Scientific and Technical Information (OSTI), June 1993. http://dx.doi.org/10.2172/10176437.

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Cannell, Nick, Mark Samonds, Adi Sholapurwalla, and Sam Scott. Energy Saving Melting andRevert Reduction Technology (E0SMARRT): Predicting Pattern Tooling and Casting Dimension for Investment Casting. Office of Scientific and Technical Information (OSTI), November 2008. http://dx.doi.org/10.2172/1024605.

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Prof. John J. Lannutti and Prof. Carroll E. Mobley. Improvements in Sand Mold/Core Technology: Effects on Casting Finish. Office of Scientific and Technical Information (OSTI), August 2005. http://dx.doi.org/10.2172/841468.

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