• Title/Summary/Keyword: Casting Al alloy

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Ni-Al Based Intermetallics Coating Through SHS using the Heat of Molten Aluminum (알루미늄 주물 위 용탕열을 이용한 N-Al계 금속간화합물의 연소합성 코팅)

  • Lee, Han-Young;Cho, Yong-Jae
    • Journal of Korea Foundry Society
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    • v.31 no.2
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    • pp.83-86
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    • 2011
  • Ni-Al based intermetallic compounds of self-propagating high-temperature synthesis (SHS) by the heat of molten aluminum and been coated on the aluminum casting alloy. The effects of the pouring temperature in casting and the thickness of casting substrate on SHS of the coating layer have been investigated. The experimental result showed that the reaction of the coating layer was activated with increasing the pouring temperature in casting and the thickness of casting substrate. However, the aluminum substrate was re-melted by the heat of formation for intermetallic compounds. Then, it was considered that some mechanical or thermal treatments for elemental powder mixtures were required to control the heat of formation for intermetallic compounds in advance.

Wear properties of Al-Pb alloys produced by a forced stirring method (강제교반법으로 제조된 Al-Pb계 베어링 합금의 마모특성)

  • 임화영;허무영;임대순
    • Tribology and Lubricants
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    • v.8 no.1
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    • pp.70-77
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    • 1992
  • Al-Pb-Si bearing alloys were produced by a forced stirring method and a rapid solidification process to study wear properties of bearing alloys. A homogeneous distribution of Pb particles in Al matrix could be obtained by means of the forced stirring and the rapid cooling during the casting. The wear properties of bearing alloys were tested by a pin-on-disc wear tester. The change in microstructure according to the alloy manufacturing variables was observed by the backscattered electron images. Al-Pb and Al-Si binary alloys showed a transition from mild to severe wear. The transition was not found in Al-Pb-Si ternary alloys. It could be concluded that the lubricatioin effect of Pb and the strengthening effect of Si in the ternary alloys enhanced the bearing properties. A Al-25%Pb-13%Si alloy showed the lowest coefficient of friction in this experiment. It indicated that the optimum concentration of alloy was 25% Pb and 13% Si when the forced stirring of melt and water-cooled-copper-mold solidification were adopted.

Effects of Mg Content on the Properties and Casting Characteristics of Al-2Zn-0.2Fe-xMg Alloys (Al-2Zn-0.2Fe-xMg 합금의 물성 및 주조특성에 미치는 Mg함량의 영향)

  • Kim, Jeong-Min;Park, Joon-Sik;Kim, Ki-Tae;Ko, Se-Hyun
    • Journal of Korea Foundry Society
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    • v.32 no.2
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    • pp.86-90
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    • 2012
  • Aluminium-silicon based casting alloys have received an attention for high electrical and thermal conductivity applications, however relatively low conductivity of Al-Si alloys often limits the application. Efforts have been made to develop new high conductivity aluminium casting alloys containing no or less silicon. In this study Al-Zn-Fe based alloys were selected as the new alloys, and the effect of Mg additions on their properties and casting characteristics were investigated. As the magnesium content was increased, the tensile strength of Al-2Zn-0.2Fe based alloy was remarkably increased, while the electrical conductivity was deteriorated. It was observed that the fluidity of the alloys was generally inversely proportional to the Mg content but the hot cracking resistance was rather proportional to it. Cooling curve analyses were carried out to measure the actual solidification range and dendrite coherency temperature.

Properties and Casting Capabilities of Al-Fe-Zn-Cu Alloys for High Conductivity Parts (고전도성 부품용 Al-Fe-Zn-Cu합금의 물성 및 주조성)

  • Yun, Ho-Seob;Kim, Jeong-Min;Park, Joon-Sik;Kim, Ki-Tae;Ko, Se-Hyun
    • Journal of Korea Foundry Society
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    • v.33 no.6
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    • pp.242-247
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    • 2013
  • The most widely utilized commercial, aluminum-casting alloys are based on an aluminum-silicon system due to its excellent casting, and good mechanical, properties. Unfortunately, these Al-Si based alloys are inherently poor energy conductors; compared to pure aluminum, because of their high silicon content. This means that they are not suitable for applications demanding high eletrical or thermal conductivity. Therefore, efforts are currently being made to develop new, highly-conductive aluminum-casting alloys containing no silicon. In this research, a number of properties; including potential for castability, were investigated for a number of Al-Fe-Zn-Cu alloys with varying Cu content. As the copper content was increased, the tensile strength of Al-Fe-Zn-Cu alloy tended to increase gradually, while the electrical conductivity was slightly reduced. Fluidity was found to be lower in high-Cu alloys, and susceptibility to hot-cracking was generally high in all the alloys investigated.

A Study on the Microstructures and Mechanical Properties of Squeeze Cast High Strength Yellow Brass, Al Bronze and Sn Bronze Alloys (고강도 황동, 알루미늄 청동 및 인청동합금의 용탕단조 조직과 기계적 성질에 관한 연구)

  • Han, Yo-Sub;Lee, Ho-In
    • Journal of Korea Foundry Society
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    • v.19 no.6
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    • pp.484-492
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    • 1999
  • The microstructures and mechanical properties of high strength yellow brass, Al bronze and Sn bronze alloys fabricated by gravity die casting and squeeze casting were investigated. A rapid cooling of casting was enhanced by pressure applied during solidification of Cu alloys, the cooling rate of casting was more great for high strength yellow brass alloy than other Cu alloys. Grain size and phases of the squeeze cast products become refined to 1/2 level compared to gravity die castings. Squeeze cast Al bronze and high strength yellow brass has about 10-20% higher yield and tensile strength and slighter decreased or nearly same elongation, compared to gravity die cast ones. Sn bronze has nearly same strength and hardness, but shows increased in elongation, compared to gravity die cast ones.

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Microstructures and Mechanical Properties of Extruded Al 7050 Billet and Ring Forged One with Large Scale

  • Bae, Dong-Su;Joo, Kyung-Hwan;Lee, Jin-Kyung;Lee, Sang-Pill;Chang, Chang-Beom;Hong, Sung-Seop;Park, Tae-Won
    • Journal of Power System Engineering
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    • v.20 no.6
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    • pp.40-45
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    • 2016
  • The manufacturing process of large scaled Al 7050 alloy is difficult for the occurrence of solidification crack during casting. The aims of this study are the evaluations of microstructure and mechanical properties of extruded Al 7050 billet and ring forged one with large scale. Large scaled Al 7050 billet was casted by direct-chill casting process. The extruded and ring forged specimens were prepared from the casted ingot after residual stress relief and homogenization heat treatment, respectively. Microstructures, hardness and tensile test of the surface, middle and center part of each specimen were performed at room temperature. Sheared and elongated type grains were observed at the edge parts of surface and center area and its aspect ratios of grains were low and similar as 0.21 while that of middle area was closed to 0.92 value in ring forged Al 7050 alloy. The mechanical properties of extruded Al 7050 alloy were superior than those of ring forged one. The hardness values of surface and center part were slightly higher than that of middle part in ring forged Al 7050 alloy.

Study on the Microstructure Evolution during Extrusion of Zn-Al-Mg alloy (Zn-Al-Mg 합금의 압출 시 미세조직 변화에 관한 연구)

  • W. G. Seo;K. Thool;H. N. Lee;D. J. Yang;S. G. Park;S. H. Choi
    • Transactions of Materials Processing
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    • v.32 no.6
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    • pp.344-351
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    • 2023
  • The use of Zn-Al-Mg alloy coatings for enhancing the corrosion resistance of steel sheets is gaining prominence over traditional Zn coatings. There is a growing demand for the development of thermal spray wires made from Zn-Al-Mg alloys, as a replacement for the existing wires produced using Al and Zn. This is particularly crucial to secure corrosion resistance and durability in the damaged areas of coated steel sheets caused by deformation and welding. This study focuses on the casting and extrusion processes of Zn-2Al-1Mg alloy for the fabrication of such spray wires and analyzes the changes in microstructure during the extrusion process. The Zn-2Al-1Mg alloy, cast in molds, was subjected to a heat treatment at 250 ℃ for 3 hours prior to extrusion. The extrusion process was carried out by heating both the material and the mold up to 300 ℃. Microstructural analysis was conducted using FE-SEM and EDS to differentiate each phase. The mechanical properties of the cast specimen were evaluated through compression tests at temperatures ranging from 200 to 300 ℃, with strain rates of 0.1 to 5 sec-1. Vickers hardness testing was utilized to assess the inhomogeneity of mechanical properties in the radial direction of the extruded material. Finite Element Analysis (FEA) was employed to understand the inhomogeneity in stress and strain distribution during extrusion, which aids in understanding the impact of heterogeneous deformation on the microstructure during the process.

Influence of Cooling Rate and Alloy Composition on The Microstructural Evolution of Al-Ag Eutectic System ($Al-Ag_2Al$ 공정계 합금의 조성 및 냉각 속도에 따른 미세조직 고찰)

  • Sohn, Sung-Woo;Park, Jin-Man;Kim, Tae-Eung;Lim, Ka-Ram;Kim, Won-Tae;Kim, Do-Hyang
    • Journal of Korea Foundry Society
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    • v.29 no.2
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    • pp.64-69
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    • 2009
  • In the present study the effect of cooling rate during solidification on the microstructural characteristics of Al-xAg (x = 31, 33, 35 at.%) in-situ binary eutectic composites has been investigated. To provide a wide range of cooling rate three different casting techniques, i.e. conventional casting, injection casting, and melt spinning have been used. The observed microstructure is very much dependent on the cooling rate. The fcc ${\alpha}$-Al and hcp $Ag_2Al$ phases exhibits an orientation of (111)Al//(0001)$Ag_2Al$, [1-10]Al//[11- 20]$Ag_2Al$. The microstructure of the melt-spun samples contains Widmanstatten structure resulting from solid-state transformation and nano scale two-phase structure resulting from solid-state phase separation. The microstructure of injection-cast samples contains eutectic structure and solid state phase-separated structure. On the other hand, conventional-cast samples exhibit a microstructure consisted of plate-type eutectic structure.

Effect of Minor Additives on Casting Properties of AC4A Aluminum Casting Alloys (AC4A 알루미늄 합금의 주조특성에 미치는 미량 첨가원소의 영향)

  • Oh, Seung-Hwan;Kim, Heon-Joo
    • Journal of Korea Foundry Society
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    • v.37 no.5
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    • pp.148-156
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    • 2017
  • The effects of minor additives on the casting properties of AC4A aluminum alloys were investigated. Measurements of the cooling curve and microstructure observations were conducted to analyze the effects of Ti-B and Sr minor elements during the solidification process. A fine grain size and an increase in the crystallization temperature for the ${\alpha}-Al$ solution were evident after the addition of 0.1wt% Al-5%Ti-1%B additive. The modification effect of the eutectic $Mg_2Si$ phase with the addition of 0.05% Al-10%Sr additive was prominent. A fine eutectic $Mg_2Si$ phase and a decrease in the growth temperature of the eutectic $Mg_2Si$ phase were evident. Fluidity, shrinkage and solidification-cracking tests were conducted to evaluate the castability of the alloy. The combined addition of Al-5%Ti-1%B and Al-10%Sr additives showed the maximum filling length owing to the effect of the fine ${\alpha}-Al$ grains. The macro-shrinkage ratio increased, while the micro-shrinkage ratio decreased with the combined addition of Al-5%Ti-1%B and Al-10%Sr additives. The macro-shrinkage ratio was nearly identical, while the micro-shrinkage ratio increased with the addition of the Al-10%Sr additive. The tendency of the occurrence of solidification cracking decreased owing to the effect of the fine ${\alpha}-Al$ grains and the modification of the $Mg_2Si$ phase with the combined addition of Al-5%Ti-1%B and Al-10%Sr additives.

Microstructural Modification of High-Fe Containing A356 Alloy by Liquid Metal Shearing Process (용융금속 교반공정을 통한 고Fe 함유 A356 합금의 미세조직 개질)

  • Kim, Bong-Hwan;Lee, Sang-Mok
    • Journal of Korea Foundry Society
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    • v.31 no.6
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    • pp.354-361
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    • 2011
  • The liquid metal shearing device was constructed and assembled with a commercial high-pressure die-caster in order to induce intensive turbulent shearing force on molten aluminum alloys. The effect of the liquid metal shearing on the microstructure and tensile properties of A356 alloys was investigated with the variation of iron content. The experimental results show that dendritic primary ${\alpha}$-Al phase was effectively modified into a equiaxed form by the liquid metal shearing. It was also found that the needle-like ${\beta}$-AlFeSi phase in a Fe containing A356 alloy was changed into a blocky shape resulting in the improved mechanical properties. Based on the mechanical properties, it was suggested that the iron content in A356 alloy could be more widely tolerated by utilizing the liquid metal shearing HPDC process.