H.S. Lee scite author profile

H.S. Lee

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Halla University

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Shear Spinning of Ti-6Al-4V Alloy at Hot Working Temperature

Lee

Song²,

Hong³

2011

Transactions of Materials Processing

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A method for estimating the shear spinnability is suggested, and it was applied to sheets of Ti-6Al-4V alloy for estimation of shear spinnability at hot working temperature. The effective working temperature was 850 or above. The ℃ hot spinning operation was carried out in two steps of shear spinning. The reduction of thickness at the first step was 50% and 45% at the second, and the overall reduction of thickness was 72.4%. The cone spinning process could produce a uniform wall thickness with only a few percent tolerance , proving itself appropriate for making cones of Ti-6Al-4V alloy with uniform wall thickness.

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Development of a Housing Component for an Auto-compressor Using Vacuum Ladling Die Casting

Lee

Park²

2012

Transactions of Materials Processing

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A vacuum ladling die casting system is suggested as a means to obtain a high vacuum level. A high vacuum of 17.8 mmHg is obtained by sealing the inner space of the mould. The sample product is a rear-head housing for an autocompressor, and the die-casting with 6-cavities was conducted. The flow analysis shows that the filling speed during vacuum ladling is faster than for a non-vacuum system. The air holes in the sample product were too small to be seen with the naked eye in X-ray films. Density tests show that the high vacuum ladling system reduces the internal porosity as much as 57.8% when compared to the non-vacuum system. A defective rate of only 0.17% was found from leak testing. The results of this research prove that the high vacuum die-casting process is useful for manufacturing of aluminium components under high internal pressure.

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H.S. Lee

Shear Spinning of Ti-6Al-4V Alloy at Hot Working Temperature

Development of a Housing Component for an Auto-compressor Using Vacuum Ladling Die Casting

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