Relevant bibliographies by topics / Aluminium die casting

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

Academic literature on the topic 'Aluminium die casting'

Author: Grafiati
Published: 4 June 2021
Last updated: 9 February 2022

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Journal articles on the topic "Aluminium die casting"

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Arulra, M., P. K. Palani, and L. Venkatesh. "Optimization of Process Parameters in Stir Casting of Hybrid Metal Matrix (LM25/SiC/B4C) Composite Using Taguchi Method." JOURNAL OF ADVANCES IN CHEMISTRY 13, no. 11 (March 29, 2017): 6038–42. http://dx.doi.org/10.24297/jac.v13i11.5774.

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Aluminium based composites exhibit many attractive material properties such as increased stiffness, wear resistance, specific strength and vibration damping and decreased co-efficient of thermal expansion compared with the conventional aluminium alloys. Aluminium Matrix Composites consist of non-metallic reinforcement which offers advantageous properties over base material. Reinforcements like SiC, B4C and Al2O3 are normally preferred to improve the mechanical properties. Here Aluminum LM25 is selected as matrix material while Silicon carbide and Boron carbide are selected as reinforcement material. The fabrication of aluminium matrix was done by stir casting method. In the present study an attempt has been made to investigate the effect of three major stir casting parameters (stir speed, stir duration and preheated temperature of reinforcement material) on stir casting of Aluminium LM25 - SiC - B4C composite. Experiments were conducted based on Taguchi methodology. Taguchi quality design concepts of L9 orthogonal array has been used to determine S/N ratio and through S/N ratio a set of optimum stir casting parameters were obtained. The experimental results confirmed the validity of Taguchi method for enhancing tensile strength of castings.
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Arulraj, M., P. K. Palani, and L. Venkatesh. "Optimization of Process Parameters in Stir Casting of Hybrid Metal Matrix (LM25/SiC/B4C) Composite Using Taguchi Method." JOURNAL OF ADVANCES IN CHEMISTRY 13, no. 9 (February 22, 2017): 6475–79. http://dx.doi.org/10.24297/jac.v13i9.5777.

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Aluminium based composites exhibit many attractive material properties such as increased stiffness, wear resistance, specific strength and vibration damping and decreased co-efficient of thermal expansion compared with the conventional aluminium alloys. Aluminium Matrix Composites consist of non-metallic reinforcement which offers advantageous properties over base material. Reinforcements like SiC, B4C and Al2O3 are normally preferred to improve the mechanical properties. Here Aluminum LM25 is selected as matrix material while Silicon carbide and Boron carbide are selected as reinforcement material. The fabrication of aluminium matrix was done by stir casting method. In the present study an attempt has been made to investigate the effect of three major stir casting parameters (stir speed, stir duration and preheated temperature of reinforcement material) on stir casting of Aluminium LM25 - SiC - B4C composite. Experiments were conducted based on Taguchi methodology. Taguchi quality design concepts of L9 orthogonal array has been used to determine S/N ratio and through S/N ratio a set of optimum stir casting parameters were obtained. The experimental results confirmed the validity of Taguchi method for enhancing tensile strength of castings.
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Ardeleanu, Laurenţiu, Constantin Bratu, and Ioan Mărginean. "Effects of Vibration and Salts Treatments on Aluminium Alloy Properties Used in Mould Manufacture." Advanced Materials Research 1128 (October 2015): 58–63. http://dx.doi.org/10.4028/www.scientific.net/amr.1128.58.

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Metallic mould properties are influenced by the technological process used on casting. The mechanical properties of aluminium castings can be affected by dissolved gases, heterogeneous impurities or shrinkage remaining in casting after solidification. Dissolved gases and oxide inclusions in aluminium all have a deleterious effect on casting quality. The treatment of molten aluminium using vibrations and salts was found to be highly efficient in refining the microstructure of the alloy. The main objective of the paper is to understand the effects of vibrations and salts treatment on the final microstructure and changes that take place and influences aluminium alloy properties used in mould manufacture. The microstructural changes have a great significance in improving the properties of aluminium alloy castings. Understanding this effects and the modification mechanism can undoubtedly be of great significance for improving casting quality. Fluxes based on a KCl-NaCl mixture may be used to cover and protect the metal from oxidation. Most fluxes are based on a mixture of KCl and NaCl, which forms at low-temperature (665 °C) eutectic.
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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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Wongpreedee, Kageeporn, Panphot Ruethaitananon, and Tawinun Isariyamateekun. "Interface Layers of Ag-Al Fusing Metals by Casting Processes." Advanced Materials Research 787 (September 2013): 341–45. http://dx.doi.org/10.4028/www.scientific.net/amr.787.341.

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The materials of fusing metals commercially used in the jewelry niche marketing is seen as precious metals. An innovation of fusing metals searched for new materials to differentiate from the markets for mass production. In this research, it studied the bonding processes of silver and aluminium metals by casting processes for mass productions. The studies had been varied parameters on the types of aluminium and process temperature controls. This research had used two types of aluminium which were pure aluminium 99.99% and aluminum 5083 alloys bonding with pure silver 99.99%. The temperatures had been specified for two factors including casting temperature at X1, X2 and flasking temperature at Y1, Y2. From the results, it was found that the casting temperature at 730°C and the flasking temperature at 230 °C of pure silver-aluminum 5083 alloys bonding had the thinnest average thickness of interface at 427.29 μm. The microstructure of pure silver-aluminum 5083 alloy bonding was revealed eutectic-like structures at the interfaces. The EDS analysis showed the results of compounds at interface layers of Ag sides giving Ag2Al intermetallics on pure silver-aluminum 5083 alloy bonding unlike pure silver-pure aluminium bonding giving Ag3Al intermetallics.
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Adianta, Andri Willy, Suprianto Suprianto, Arnius Daely, and Mikael F. Bangun. "Studi Fluiditas dan Karakteristik Aliran pada Pengecoran Al-Si Alloy Menggunakan Simulasi Numerik." Talenta Conference Series: Energy and Engineering (EE) 1, no. 1 (October 16, 2018): 007–12. http://dx.doi.org/10.32734/ee.v1i1.102.

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Aluminium silikon alloy merupakan paduan aluminium yang banyak digunakan dalam bidang teknik. Paduan ini memiliki kekuatan yang baik dan banyak diproduksi menjadi suatu komponen melalui proses pengecoran. Kandungan silikon dapat mengakibatkan penurunan fluiditas coran alumunium yang pada akhirnya akan menurunkan kualitas coran, fluiditas ini juga dipengaruhi temperatur pada saat penuangan alumunium cair. Penelitian ini bertujuan untuk mengetahui efek temperatur penuangan terhadap fluiditas, karakteristik aliran dan cacat coran pada pengecoran aluminium silikon alloy menggunakan cetakan pasir. Pengecoran dilakukan dengan gravity casting, analisa aliran simulasi meliputi distribusi kecepatan aliran, temperatur, tekanan, cacat permukaan dan fluiditas yang terjadi pada saat proses pengisian rongga cetak serta perbandingan fluiditas coran dan cacat permukaan pada eksperimental. Temperatur penuangan 685, 710, 735, 760 dan 785°C dengan ketebalan cetakan pola 1, 3, 5, 7, 9, dan 12 mm. Proses simulasi menggunakan software berbasis computational fluid dynamic. Hasil penelitian diperoleh temperatur tuang 785oC memiliki kecepatan aliran tertinggi yaitu sebesar ±0.145 m/s pada rongga 12 mm dan distribusi temperatur yang tinggi yaitu sebesar ±759 oC pada rongga 3 mm, sedangkan temperatur tuang 685oC memiliki distribusi tekanan yang tinggi yaitu sebesar ±107287 Pa pada rongga 6 mm. Cacat permukaan terbanyak pada temperatur tuang 785oC dan temperatur tuang 685oC paling sedikit. Fluiditas coran terbaik pada temperatur 785oC dimana rongga 12, 9, 7, 5 dan 3 mm terisi penuh dan 1 mm mencapai 181.4 mm. Aluminum silicon alloy is an aluminum alloy that is widely used in engineering. This alloy has good strength and plenty of it are produced into a component through the casting process. Silicon content could result in a decrease in fluidity of aluminum castings which in turn would reduce the quality of casting. This fluidity is also influenced by temperature at the time of pouring liquid aluminum. This study aims to determine the effect of pouring temperature on fluidity, flow characteristics and casting defects on aluminum alloy silicon casting by using sand mold. Casting was conducted by gravity casting, simulation flow analysis including flow velocity distribution, temperature, pressure, surface and fluidity defects that occured during the process of filling the mold cavity as well as the comparison of the fluidity of castings and surface defects in the experiment. Casting temperatures was 685, 710, 735, 760 and 785°C with a mold thickness of patterns 1, 3, 5, 7, 9 and 12 mm. The simulation process used software based on computational fluid dynamic. The result showed pouring temperature of 785oC had the highest flow velocity of ± 0.145 m/s in 12 mm cavity and a high temperature distribution of ± 759oC in cavity of 3 mm, while the pouring temperature of 685oC had a high pressure distribution of ± 107287 Pa in 6 mm cavity. Most surface defects occurred at pour temperature of 785oC and the least at pour temperature of 685oC. The best castings liquidity occurred at temperature of 785oC where the cavity of 12, 9, 7, 5 and 3 mm was fully filled and 1 mm reached 181.4 mm.
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Gaspar, S., and J. Pasko. "Pressing Speed, Specific Pressure and Mechanical Properties of Aluminium Cast." Archives of Foundry Engineering 16, no. 2 (June 1, 2016): 45–50. http://dx.doi.org/10.1515/afe-2016-0024.

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Abstract Recent research in the process of aluminum alloy die castings production, which is nowadays deeply implemented into the rapidly growing automobile, shipping and aircraft industries, is aimed at increasing the useful qualitative properties of the die casting in order to obtain its high mechanical properties at acceptable economic cost. Problem of technological factors of high pressure die casting has been a subject of worldwide research (EU, US, Japan, etc.). The final performance properties of die castings are subjected to a large number of technological factors. The main technological factors of high pressure die casting are as follows: plunger pressing speed, specific (increase) pressure, mold temperature as well as alloy temperature. The contribution discusses the impact of the plunger pressing speed and specific (increase) pressure on the mechanical properties of the casting aluminum alloy.
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Gaspar, Stefan, Ján Pasko, and Ján Majerník. "Crystallization of Aluminium Alloys." Applied Mechanics and Materials 624 (August 2014): 48–51. http://dx.doi.org/10.4028/www.scientific.net/amm.624.48.

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The structure and properties of cast metals and alloys are in a high degree influenced by crystallization conditions. By the technological interventions into the crystallization process the mechanical properties and structural parameters of castings can be enhanced. The present contribution deals with the regularities of crystallization of alloys Al-Si produced by die casting process.
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Flood, S. "Modelling of aluminium casting." Materials Science and Technology 8, no. 2 (February 1992): 151–52. http://dx.doi.org/10.1179/mst.1992.8.2.151.

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Papis, K. J. M., B. Hallstedt, J. F. Löffler, and P. J. Uggowitzer. "Interface formation in aluminium–aluminium compound casting." Acta Materialia 56, no. 13 (August 2008): 3036–43. http://dx.doi.org/10.1016/j.actamat.2008.02.042.

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Dissertations / Theses on the topic "Aluminium die casting"

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Trejo, Eduardo. "Centrifugal casting of an aluminium alloy." Thesis, University of Birmingham, 2011. http://etheses.bham.ac.uk//id/eprint/3041/.

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In centrifugal casting, molten metal is introduced into a mould which is rotated at high speed. The centrifugal force helps to fill thin sections but this benefit may be offset by the effect of the turbulent flow on the casting quality. In this research, the effect of direct and indirect gated mould designs on the quality and reliability of aluminium alloy investment castings made by centrifugal casting was investigated. The scatter in the ultimate bend strength and the modulus of elasticity was analyzed using the Weibull statistical technique, which showed that the Weibull modulus of both properties was significantly improved for the indirect gated cast test bars compared to the direct gated bars. A detailed microstructural characterization was carried out on the cast test bars, which included grain size, dendrite cell size and porosity. Scanning electron microscopy was used to examine and analyze the presence of defects on the fracture surfaces such as shrinkage pores, entrapped bubbles and oxide films resulting from surface turbulence during mould filling. The results indicated a clear correlation between the mechanical properties and the presence of casting defects. Water modelling experiments were carried out using purpose-built experimental centrifugal casting equipment and filling sequences recorded using a high speed video camera. The water modelling results showed that the general tendency for the direct and indirect gated mould designs was that the higher the rotational velocity, the lower the filling length and consequently the lower the filling rate. Subsequently, this information was used to validate the computer software ANSYS CFX. An excellent correlation was obtained between the experimental water modelling and simulation results for both direct and indirect gated moulds.
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Iversen, Fionn. "Meniscus Dynamics in Aluminium Extrusion Ingot Casting." Doctoral thesis, Norges teknisk-naturvitenskapelige universitet, Institutt for materialteknologi, 2002. http://urn.kb.se/resolve?urn=urn:nbn:no:ntnu:diva-527.

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In the modern process of continuous Direct Chill (DC) hot top casting of aluminium extrusion ingot with gas slip, poor surface quality of the cast ingot can still be a problem. In the worst cases pronounced surface wrinkling may occur coupled with periodic zones of reduced grain size, macrosegregation and exudation at the surface. The observed surface irregularities are believed to be linked to periodic oscillations or folding of the free molten aluminium surface in the mould, the meniscus, resulting in varying solidification conditions. The focus of this work is to gain a better understanding of the dynamics of the meniscus and the effect it has on ingot surface formation.
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Cockfield, Tracey J. "Twin-roll casting of aluminium eutectic alloys." Thesis, University of Oxford, 2002. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.270607.

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Ammar, Hany. "Effet des imperfections de la coulée sur les propriétés en fatigue des alliages de fonderie aluminium silicium = Effect of casting imperfections on the fatigue properties of aluminum-silicon casting alloys /." Thèse, Chicoutimi : Université du Québec à Chicoutimi, 2006. http://theses.uqac.ca.

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Manson-Whitton, Chris. "Squeeze casting of a conventionally wrought aluminium alloy." Thesis, University of Oxford, 2004. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.403577.

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Musson, Nicholas John. "The squeeze casting of aluminium alloys and composites." Thesis, University of Southampton, 1990. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.293609.

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Roberts, Michael John, and edu au jillj@deakin edu au mikewood@deakin edu au wildol@deakin edu au kimg@deakin. "A Modified Life Cycle Inventory of Aluminium Die Casting." Deakin University. School of Engineering and Technology, 2003. http://tux.lib.deakin.edu.au./adt-VDU/public/adt-VDU20040825.110759.

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Aluminium die casting is a process used to transform molten aluminium material into automotive gearbox housings, wheels and electronic components, among many other uses. It is used because it is a very efficient method of achieving near net shape with the required mechanical properties. Life Cycle Assessment (LCA) is a technique used to determine the environmental impacts of a product or process. The Life Cycle Inventory (LCI) is the initial phase of an LCA and describes which emissions will occur and which raw materials are used during the life of a product or during a process. This study has improved the LCI technique by adding in manufacturing and other costs to the ISO standardised methods. Although this is not new, the novel application and allocation methods have been developed independently. The improved technique has then been applied to Aluminium High Pressure Die Casting. In applying the improved LCI to this process, the cost in monetary terms and environmental emissions have been determined for a particular component manufactured by this process. A model has been developed in association with an industry partner so this technique can be repeatedly applied and used in the prediction of costs and emissions. This has been tested with two different products. Following this, specialised LCA software modelling of the aluminium high pressure die casting process was conducted. The variations in the process have shown that each particular component will have different costs and emissions and it is not possible to generalise the process by modelling only one component. This study has concentrated on one process within die casting but the techniques developed can be used across any variations in the die casting process.
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Moffat, Andrew James. "Micromechanistic analysis of fatigue in aluminium silicon casting alloys." Thesis, University of Southampton, 2007. https://eprints.soton.ac.uk/52400/.

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Due to increasingly stringent environmental legislation, there is a requirement for lower emissions and greater overall efficiency of light vehicle diesel (LVD) engines. This continues to be achieved through the optimisation of design and careful selection of the materials used in key LVD engine components, for example pistons, so that they are lighter and can operate at higher temperatures. Pistons are non-serviceable parts and so must be able to withstand the fatigue and high temperature environment of the car engine. It is therefore important to understand the mechanisms of fatigue in these alloys to help inform alloy development for the next generation of pistons. Pistons are typically produced from multi-component Al-Si casting alloys. These alloys exhibit a complex, multiphase microstructure comprising α-aluminium as the matrix with silicon particles and several intermetallic phases. Previous research on Al-Si casting alloys has demonstrated that porosity is detrimental to fatigue life as cracks initiate freely at pores. However, with improved casting techniques porosity can be greatly reduced and other microstructural features influence fatigue life. In particular, Si particles have been shown to play an important role in the initiation and subsequent propagation of fatigue cracks. This study assesses the role of Si content and other microstructural features on fatigue behaviour by testing a set of well-characterised multi-component, Al-Si casting alloys with varying Si content. Fatigue initiation behaviour was investigated at room temperature using S-N and short fatigue crack growth experiments. Pores, Si particles and intermetallic phases were shown to cause fatigue crack initiation. In a 0.67wt% Si containing alloy, large-scale porosity was observed and was the foremost reason for fatigue initiation. In two alloys the Al9FeNi phase was observed to be the most detrimental hard particle causing fatigue crack initiation. Nanoindentation results showed that Al9FeNi had a lower hardness and higher modulus than Si and so Al9FeNi may be expected to fracture preferentially, consistent with the fatigue results. X-ray computed tomography demonstrated that all the alloys investigated contained a complex, interconnected, intermetallic sub-structure. As a result, the micromechanisms of fatigue are different to those in conventional particulate Al-Si alloys because particle fracture is required to ensure a level of crack continuity. At room temperature and 350˚C, and at low and high crack growth rates, the crack tip may be described as a diffuse region of micro-damage and intact ligaments. It is the extent of this damage in the alloys that controls the crack growth rates exhibited and simple trends between the Si content and roughness, reported for particulate systems, do not hold true in the alloys investigated in this study. The balance of the micromechanisms of fatigue was shown to be dependent on temperature. This highlights the importance of fatigue studies at temperatures that are characteristic of those experienced in service.
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Graziani, Alessandro. "Chemical composition modification of casting aluminium alloys for engine applications." Master's thesis, Alma Mater Studiorum - Università di Bologna, 2016. http://amslaurea.unibo.it/10018/.

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The research activities were focused on evaluating the effect of Mo addition to mechanical properties and microstructure of A354 aluminium casting alloy. Samples, with increasing amount of Mo, were produced and heat treated. After heat treatment and exposition to high temperatures samples underwent microstructural and chemical analyses, hardness and tensile tests. The collected data led to the optimization of both casting parameters, for obtaining a homogeneous Mo distribution in the alloy, and heat treatment parameters, allowing the formation of Mo based strengthening precipitates stable at high temperature. Microstructural and chemical analyses highlighted how Mo addition in percentage superior to 0.1% wt. can modify the silicon eutectic morphology and hinder the formation of iron based β intermetallics. High temperature exposure curves, instead, showed that after long exposition hardness is slightly influenced by heat treatment while the effect of Mo addition superior to 0,3% is negligible. Tensile tests confirmed that the addition of 0.3%wt Mo induces an increase of about 10% of ultimate tensile strength after high temperature exposition (250°C for 100h) while heat treatments have slight influence on mechanical behaviour. These results could be exploited for developing innovative heat treatment sequence able to reduce residual stresses in castings produced with A354 modified with Mo.
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Smillie, Matthew John. "Casting and Analysis of Squeeze Cast Aluminium Silicon Eutectic Alloy." Thesis, University of Canterbury. Mechanical Engineering, 2006. http://hdl.handle.net/10092/1086.

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Squeeze casting is the practise of solidifying metals under mechanically applied pressure via a slow displacement of a die volume. It has been shown that squeeze casting enhances the mechanical properties of cast metals. Research into other high integrity casting processes has shown that using techniques that enhance melt quality can further increase the mechanical properties. Therefore a bottom-tapped, bottom-fed squeeze casting machine was designed and built around a pre-existing squeeze casting die designed for uniaxial pressure application. This was used to obtain quantitative metallurgical and microstructural information on the squeeze castings produced, including the effects of common micro-alloying additions of strontium modifier and titanium modifier on the microstructure and hardness of a commercial aluminium silicon eutectic alloy. These were examined using a Taguchi design of experiments approach. It was found that squeeze casting reduced porosity and secondary dendrite arm spacing and increased hardness, and reduced or eliminated increases in porosity and secondary dendrite arm spacing associated with micro-alloying addition. The size of possibly deleterious iron-rich precipitates was reduced, and the morphology of such precipitates changed to a possibly less deleterious form without further alloy additions of manganese. It was also found that melt control and handling is essential for consistent quality of castings in the production of small volume squeeze castings, such as the ones produced in this experimental work.
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Books on the topic "Aluminium die casting"

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Melting & casting aluminium [sic.]. Bradley, Il: Lindsay Publications, 1987.

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Lo, Henry S. H. Casting characteristics of aluminium bronze. Birmingham: University of Birmingham, 1998.

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Adefuye, Adefolabi Olusegun. Fluidity of aluminium-silicon casting alloys. Birmingham: University of Birmingham, 1997.

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Heinemann, Tim. Energy and Resource Efficiency in Aluminium Die Casting. Cham: Springer International Publishing, 2016. http://dx.doi.org/10.1007/978-3-319-18815-7.

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Butler, Simon Andrew. The development of a reliable high strength aluminium casting alloy. Birmingham: University of Birmingham, 2000.

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Gelder, Andrew. Lithium-aluminium casting alloys and their associated metal-mould reactions. Birmingham: Aston University. Department of Chemical Engineering and Applied Chemistry, 1992.

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Braden, Amanda. Benchmarking employee involvment at the UK site of a Japanese manufacturing company, Ryobi Aluminium Casting (UK) Limited, with it's US and Japanese sites. (s.l: The Author), 1996.

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Ammen, C. W. Casting Aluminum. Blue Ridge Summit, PA, USA: Tab Books, 1985.

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A, Belov N., and Glazoff Michael V, eds. Casting aluminum alloys. Amsterdam: Elsevier Science, 2007.

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Chadwick, H. The effect of compositional changes on the hot-shortness and tensile properties of the high strength aluminium casting alloy K0-1. Birmingham: University of Birmingham, 1992.

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Book chapters on the topic "Aluminium die casting"

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Straatsma, E. N., W. H. Kool, and L. Katgerman. "Single-roll Strip Casting of Aluminium Alloys." In Continuous Casting, 77–81. Weinheim, FRG: Wiley-VCH Verlag GmbH & Co. KGaA, 2006. http://dx.doi.org/10.1002/3527607331.ch11.

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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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Jalanti, T., M. Swierkosz, M. Gremaud, and M. Rappaz. "Modelling of Macrosegregation in Continuous Casting of Aluminium." In Continuous Casting, 191–98. Weinheim, FRG: Wiley-VCH Verlag GmbH & Co. KGaA, 2006. http://dx.doi.org/10.1002/3527607331.ch28.

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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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Szczypiorski, W. "Twin-Belt Casting Technology Update." In Aluminium Cast House Technology, 273. Hoboken, NJ, USA: John Wiley & Sons, Inc., 2013. http://dx.doi.org/10.1002/9781118806364.ch27.

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Dawood, Ali A. "Improving Horizontal Direct Chill Casting." In Aluminium Cast House Technology, 275–83. Hoboken, NJ, USA: John Wiley & Sons, Inc., 2013. http://dx.doi.org/10.1002/9781118806364.ch28.

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Brockmann, G. J. "Aluminium-Semi-Continuous Casting Technic, State of the Art." In Continuous Casting, 344–52. Weinheim, Germany: Wiley-VCH Verlag GmbH & Co. KGaA, 2006. http://dx.doi.org/10.1002/9783527607969.ch47.

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Gürsoy, Özen, Eray Erzi, and Derya Dispinar. "Casting Defect Analysis on Fracture Surface of 356 Aluminium Alloy." In Shape Casting, 151–57. Cham: Springer International Publishing, 2019. http://dx.doi.org/10.1007/978-3-030-06034-3_15.

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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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Friedrich, B., C. Kräutlein, and K. Krone. "Melt Treatment of Copper and Aluminium - The Complex Step Before Casting." In Continuous Casting, 1–22. Weinheim, Germany: Wiley-VCH Verlag GmbH & Co. KGaA, 2006. http://dx.doi.org/10.1002/9783527607969.ch1.

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Conference papers on the topic "Aluminium die casting"

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Price, C. J. "Wayland: efficiency improvements in aluminium die casting." In IEE Colloquium on Case Based Reasoning: Prospects for Applications. IEE, 1995. http://dx.doi.org/10.1049/ic:19950318.

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Kazup, Ágota, Viktor Kárpáti, Balázs Hegedüs, Zoltán Gácsi, and Tibor Ferenczi. "High Purity Primary Aluminium Casting by INDUTHERM CC3000 Semi-Continuous Casting Equipment." In MultiScience - XXXIII. microCAD International Multidisciplinary Scientific Conference. University of Miskolc, 2019. http://dx.doi.org/10.26649/musci.2019.077.

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Berger, Marcus A. R. "Identification and control of the aluminium casting process." In 2010 9th IEEE/IAS International Conference on Industry Applications - INDUSCON 2010. IEEE, 2010. http://dx.doi.org/10.1109/induscon.2010.5739861.

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PEKARČÍKOVÁ, Miriam, Peter TREBUŇA, and Marek KLIMENT. "Application of simulation tools in the process of casting and processing of aluminium castings." In METAL 2019. TANGER Ltd., 2019. http://dx.doi.org/10.37904/metal.2019.995.

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Hoelzl, A., H. Kaufmann, and V. Konkevich. "Semi-Solid Casting of Aluminium - Scandium (Zr) Foundry Alloys." In Automotive and Transportation Technology Congress and Exposition. 400 Commonwealth Drive, Warrendale, PA, United States: SAE International, 2001. http://dx.doi.org/10.4271/2001-01-3170.

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Bojarevičs, Andris, Imants Kaldre, Mikus Milgrāvis, and Toms Beinerts. "Direct chill casting of aluminium alloys under electromagnetic interaction." In VIII International Scientific Colloquium "Modelling for Materials Processing". University of Latvia, 2017. http://dx.doi.org/10.22364/mmp2017.42.

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Dumstorff, G., and W. Lang. "Resistive silicon microstructure for embedding in aluminium during casting." In 2014 IEEE/ASME International Conference on Advanced Intelligent Mechatronics (AIM). IEEE, 2014. http://dx.doi.org/10.1109/aim.2014.6878141.

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Katgerman, L. "HEAT TRANSFER PHENOMENA DURING CONTINUOUS CASTING OF ALUMINIUM ALLOYS." In International Heat Transfer Conference 10. Connecticut: Begellhouse, 1994. http://dx.doi.org/10.1615/ihtc10.5340.

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Asami, Akihiko, Tomoyuki Imanishi, Yukio Okazaki, Tomohiro Ono, and Kenichi Tetsuka. "Development of Aluminium Hollow Subframe Using High-Pressure Die Casting." In SAE 2016 World Congress and Exhibition. 400 Commonwealth Drive, Warrendale, PA, United States: SAE International, 2016. http://dx.doi.org/10.4271/2016-01-0406.

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Sonsino, Cetin Morris, Heinz Kaufmann, and Rudolf Keiper. "Light Turbocharger Compressor Wheels from Aluminium and Magnesium Investment Casting." In International Congress & Exposition. 400 Commonwealth Drive, Warrendale, PA, United States: SAE International, 1999. http://dx.doi.org/10.4271/1999-01-0371.

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Reports on the topic "Aluminium die casting"

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Duraipandian, Mummoorthi, and Rajkumar Muthukannan. Determination of Mechanical Properties and Microstructure of the Aluminium/Fe2O3/B4C Composite Using Stir Casting Route. "Prof. Marin Drinov" Publishing House of Bulgarian Academy of Sciences, April 2019. http://dx.doi.org/10.7546/crabs.2019.04.12.

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Mahendran, Subramanian, and Rajamani Jeyapaul. Preparation of Aluminium Calcium Oxide Composite Material Using Stir Casting Method and Testing of Its Mechanical Properties. "Prof. Marin Drinov" Publishing House of Bulgarian Academy of Sciences, October 2018. http://dx.doi.org/10.7546/crabs.2018.10.13.

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Makhlouf M. Makhlouf and Diran Apelian. Casting Characteristics of Aluminum Die Casting Alloys. Office of Scientific and Technical Information (OSTI), February 2002. http://dx.doi.org/10.2172/792701.

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David Schwam, John F. Wallace, Tom Engle, and Qingming Chang. Gating of Permanent Molds for ALuminum Casting. Office of Scientific and Technical Information (OSTI), March 2004. http://dx.doi.org/10.2172/822451.

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David Schwam, John F. Wallace, Tom Engle, and Qingming Chang. Gating of Permanent Molds for Aluminum Casting. Office of Scientific and Technical Information (OSTI), January 2004. http://dx.doi.org/10.2172/840927.

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David Schwam, John F. Wallace, Qingming Chang, and Yulong Zhu. Optimization of Squeeze Casting for Aluminum Alloy Parts. Office of Scientific and Technical Information (OSTI), July 2002. http://dx.doi.org/10.2172/801193.

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Dr. Geoffrey K. Sigworth. Development Program for Natural Aging Aluminum Casting Alloys. Office of Scientific and Technical Information (OSTI), May 2004. http://dx.doi.org/10.2172/840824.

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M. M. Makhlouf, D. Apelian, and L. Wang. Microstructures and properties of aluminum die casting alloys. Office of Scientific and Technical Information (OSTI), October 1998. http://dx.doi.org/10.2172/751030.

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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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Han, Q., K. L. More, M. R. Myers, M. J. Warwick, and Y. C. Chen. Reinforcement of Aluminum Castings with Dissimilar Metals. Office of Scientific and Technical Information (OSTI), January 2004. http://dx.doi.org/10.2172/940372.

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