Tae-Young Choi scite author profile

Thixo-extrusion of semi-solid 7075 aluminum alloy and the mechanical properties of its extrudates were investigated. The semisolid alloy was prepared by a cooling slope cast. In other to perform thixo-extrusion, semi-solid 7075 aluminum alloy billets were reheated at the reheating conditions reported in a previous study. The maximum extrusion pressure in thixo-extrusion was 615MPa. This was lower than that of conventional hot extrusion (P max = 940MPa) at the same extrusion conditions due to the increased fluidity of the alloy billet in the semi-solid state. The values of Rockwell hardness (scale B) at the extrusion direction of the as thixoextruded bar were 48~53HRB and the difference in Rockwell hardness between the transverse direction and the extrusion direction was 5HRB or less. The results show that thxio-extrusion of semi-solid 7075 Al alloy improves the workability and anisotropic with the extrusion direction compared with hot extrusion of the conventional alloy.

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Computer Simulation of Extrusion and Die Design for the Extrusion of Butyl Rubber

Choi¹,

Lee²,

Lyu

2014

Elastomers and Composites

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ABSTRACT：Butyl rubber is used as an adhesive and it is mainly used in the form of sheets. The goal of this study is to design an extrusion die for the butyl rubber sheets using computer simulation. The extrusion die for the butylrubber sheets consists of manifold area and land area. In the manifold area, flows are spread from the entrance of the extrusion die to the land area. In the land area, flows become stable to the flow direction and uniform sheet can be obtained. Island area is being installed in the land area to get uniform flow. Four parameters, angle of manifold, length of manifold, length of land and island, were examined in the computer simulation. The optimum geometry of the extrusion die is derived which has a uniform flow in the width direction of the die.

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A Study on Mechanical Characteristic of Hydrogen Charged Al-6.3Zn-2.4Mg Alloy

Kim¹,

Choi²,

Shim³

et al. 2014

Journal of the Korea Foundry Society

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In this study, the extruded Al-6.3Zn-2.4Mg alloys were selected among the 7000 series aluminum alloys sensitive to hydrogen environment in order to examine the effects of both the aging conditions and the length of hydrogen charging period on the mechanical properties of the alloy. The specimens were aged for 24hours at 100 o C (under aging (UA)), 120 o C (peak aging (PA)), and 160 o C (over aging (OA)), respectively. Charging tests were performed at RT for 12, 24, 36 hours under potentiostatic conditions (−2000 mV vs (Ag/AgCl)) for 12, 24 and 36 hours in 1M H 2 SO 4 and 0.1%NH 4 SCN solution. The fracture surface was examined by scanning electron microscopy (SEM). X-ray diffraction (XRD) pattern in peak aged sample was obtained before and after hydrogen charging from extruded Al-6.3Zn-2.4Mg alloys. The decreasing rate of tensile strength and elongation is represented in order of over aging < under aging < peak aging, and it is believed that the hydrogen recharge is more sensitive to elongation than tensile strength. The formation of AlH 3 in hydrogen charged Al-6.3Zn-2.4Mg alloys has been confirmed by X-ray diffraction studies. 실험 방법

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Tae-Young Choi

Microstructures and Mechanical Properties of Mg-x%HA Composites Fabricated by Extrusion

Effect of Tempering and Baking on the Charpy Impact Energy of Hydrogen-Charged 4340 Steel

Thixo-extrusion of Semi Solid 7075 Aluminum Alloys and Mechanical Properties of The Extrudates

Computer Simulation of Extrusion and Die Design for the Extrusion of Butyl Rubber

A Study on Mechanical Characteristic of Hydrogen Charged Al-6.3Zn-2.4Mg Alloy

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