Ki-Up Cha scite author profile

Ki-Up Cha

5Publications

31Citation Statements Received

27Citation Statements Given

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Agency for Defense Development

Publications

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Autofrettage process analysis of a compound cylinder based on the elastic-perfectly plastic and strain hardening stress-strain curve

Lee

Yang

et al. 2009

J Mech Sci Technol

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The autofrettage process enhances the carrying capacity and fatigue lifetime of pressure vessels by increasing their residual stress. A compound cylinder was introduced in order to increase residual stress. An autofrettaged compound cylinder can resist a higher pressure than a single cylinder having the same dimension. This residual stress can be measured through experimental or calculation processes. In this study, residual stress analysis of an autofrettaged compound cylinder was conducted. The elastic-perfectly plastic and strain hardening models were investigated. The residual stress distribution of the autofrettaged compound cylinder with shrink fit tolerance was predicted. Shrink fit is a very efficient way to extend compressive residual stress. The compressive residual stress of the strain-hardening model is smaller than that of the elastic-perfectly plastic model because of the Bauschinger effect. The compressive residual stress of the strain hardening model decreased by up to 80% overstrain level.

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Machining effect of the autofrettaged compound cylinder under varying overstrain levels

Park

Lee

Kim

et al. 2008

Journal of Materials Processing Technology

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Machining Analysis of the Autofrettaged Compound Cylinder

Park¹,

Kim²,

Cha³

et al. 2007

Transactions of the Korean Society of Mechanical Engineers A

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Prediction of time-varying heat flux along a hollow cylindrical tube wall using recursive input estimation algorithm and thermal resistance network method

Noh

Cha

Ahn

et al. 2016

International Journal of Heat and Mass Transfer

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A residual stress analysis program using a Matlab GUI on an autofrettaged compound cylinder

Yang

Lee

et al. 2009

J Mech Sci Technol

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A program for the residual stress analysis of an autofrettaged compound cylinder is designed using a Matlab graphical user interface (GUI) and program design technique. The high-pressure vessels are autofrettaged in order to increase their operating pressure and fatigue life. An autofrettage process causes plastic expansion of the inner section of the cylinder, adding residual compressive stress to the bore after relaxation. Such a compound cylinder is produced via a shrink-fit procedure that incorporates a monobloc tube that has previously undergone autofrettage. This paper presents a simple and visual tool to calculate the residual stress and describe the distribution of residual stress for both the elastic-perfectly plastic model and the strain-hardening model.

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Ki-Up Cha

Autofrettage process analysis of a compound cylinder based on the elastic-perfectly plastic and strain hardening stress-strain curve

Machining effect of the autofrettaged compound cylinder under varying overstrain levels

Machining Analysis of the Autofrettaged Compound Cylinder

Prediction of time-varying heat flux along a hollow cylindrical tube wall using recursive input estimation algorithm and thermal resistance network method

A residual stress analysis program using a Matlab GUI on an autofrettaged compound cylinder

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