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REFERENCE LINKING PLATFORM OF KOREA S&T JOURNALS
> Journal Vol & Issue
Transactions of Materials Processing
Journal Basic Information
Journal DOI :
The Korean Society for Technology of Plasticity
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Volume & Issues
Volume 19, Issue 8 - Dec 2010
Volume 19, Issue 7 - Nov 2010
Volume 19, Issue 6 - Oct 2010
Volume 19, Issue 5 - Aug 2010
Volume 19, Issue 4 - Jul 2010
Volume 19, Issue 3 - Jun 2010
Volume 19, Issue 2 - Apr 2010
Volume 19, Issue 1 - Feb 2010
Selecting the target year
Prediction of Flash Generation in Two-Color Injection Molding using The Rapid Heat Cycle Molding Technology
Park, H.P. ; Cha, B.S. ; Rhee, B.O. ;
Transactions of Materials Processing, volume 19, issue 3, 2010, Pages 145~151
DOI : 10.5228/KSPP.2010.19.3.145
In case of thin-wall two-color injection molding, flashing often occurs when molten polymer flows into small gap at the parting line in mold with high pressure or under the unbalanced clamping force condition. In this study, flashing was examined in the production of thin-wall notebook case with large area when the rapid heat cycle molding (RHCM) technology was applied to the two-color injection molding. The effects of the RHCM technology on the part properties and weld-lines were compared with conventional injection molding. The flashing caused by the clamping device of the two-color injection molding machine was examined and compared by experiments and CAE analyses.
Three-Dimensional Finite Element Analysis of the Induction Heating Procedure of an Injection Mold
Sohn, Dong-Hwi ; Seo, Young-Soo ; Park, Keun ;
Transactions of Materials Processing, volume 19, issue 3, 2010, Pages 152~159
DOI : 10.5228/KSPP.2010.19.3.152
Rapid mold heating has been recent issue to enable the injection molding of thin-walled parts or micro/nano structures. High-frequency induction is an efficient way to heat mold surface by electromagnetic induction in a non-contact manner, and has been recently applied to the injection molding due to its capability of rapid heating and cooling of mold surface. The present study covers a three-dimensional finite element analysis to investigate heating efficiency and structural safety of the induction heating process of an injection mold. To simulate the induction heating process, an integrated simulation method is proposed by effectively connecting an electromagnetic field analysis, a transient heat transfer analysis and a thermal stress analysis. The estimated temperature changes are compared with experimental measurements for various types of induction coil, from which heating efficiency according to the coil shape is discussed. The resulting thermal stress distributions of the mold plate for various types of induction coils are also evaluated and discussed in terms of the structural safety.
Prediction of Crack Initiation and Its Application to the Design of Lead Screw Thread Rolling Process
Shin, M.S. ; Cha, S.H. ; Kim, J.B. ;
Transactions of Materials Processing, volume 19, issue 3, 2010, Pages 160~166
DOI : 10.5228/KSPP.2010.19.3.160
In this paper, the process parameters of thread rolling were designed based on the numerical analysis results. Firstly, the effective analysis conditions that guarantee the reliability of the analysis results were found. To find the effective analysis conditions, the analyses were carried out for various numbers of teeth. And then, the effects of the process parameters such as tool shape and temperature on the thread rolling performance were investigated. The formability in thread rolling process was evaluated in terms of Cockcroft-Latham damage value. In order to evaluate formability, Cockcroft-Latham damage value was normalized by the critical damage value which was obtained from the analysis of uniaxial tensile test. The analyses were carried out using DEFORM-3D. The results showed that the flank angle and crest round had an effect on the thread rolling load. It was also shown that temperature had significant effects on the effective strain distribution, rolling load, and damage. With the reduced formability of stainless steel at higher temperature, it was shown that the normalized damage values increased as the process temperature.
Design of Roll-to-Roll Forming Process for Micro Pattern on the Thin Sheet Metal by Finite Element Analysis
Cha, S.H. ; Shin, M.S. ; Lee, H.J. ; Kim, J.B. ;
Transactions of Materials Processing, volume 19, issue 3, 2010, Pages 167~172
DOI : 10.5228/KSPP.2010.19.3.167
Roll-to-roll forming process is one of important metal processing technology because the process is simple and economical. These days, with these merits, roll-to-roll forming process is tried to be employed in manufacturing the circuit board, barrier ribs and solar cell plate. However, it is difficult to apply to the forming of micro scale or sub-micro scale pattern. In this study, the roll forming processing for the micro scale is designed and analyzed. The forming of micro pattern for small electric device such as LCD panel by incremental roll forming process is analyzed. Firstly, the optimum analysis conditions are found by several analyses. And then, formability is analyzed for various protrusion shapes at various forming temperatures. The formability is evaluated in terms of filling ratio and damage value. The filling ratio is defined from the tool geometry and critical damage is determined from the analysis of uniaxial tensile test. Finally, optimum forming conditions that guarantee the successful forming are found.
Internal Defect Minimization of Die Cast Impeller Blade Using Taguchi's Design of Experiment
Kim, D. ; Choo, I.H. ; Lee, Y.S. ; Kim, S.W. ;
Transactions of Materials Processing, volume 19, issue 3, 2010, Pages 173~178
DOI : 10.5228/KSPP.2010.19.3.173
A die cast impeller blade has been developed in the effort on cost reduction in marine equipment industry. The purpose of this work is to optimize the die casting process using Taguchi's design of experiment for minimizing the internal defect of the die cast impeller blade. The experiments were preformed using the numerical simulation based on the L18 orthogonal array. As a results, the internal defect size of the die cast impeller blade for optimal design was controlled less than 1mm.
Investigation of Deep Drawability and Product Qualities of Ultra Thin Beryllium Copper Sheet Metal
Park, S.S. ; Hwang, K.B. ; Kim, J.B. ; Kim, J.H. ;
Transactions of Materials Processing, volume 19, issue 3, 2010, Pages 179~184
DOI : 10.5228/KSPP.2010.19.3.179
The present study is focused on the deep drawability and product qualities of ultra thin beryllium copper sheet metal. The goal of this research is to investigate the limit drawing ratio in deep drawing of ultra thin beryllium copper metal. For the experiment, beryllium copper(C1720,
in thickness) is used. Tensile test are also carried out to find out the material properties. Deep drawing experiments are carried out in Universal Testing Machine(UTM) to obtain limit drawing ratio. Deep drawing tests are carried out for various specimen sizes. Teflon film is used as a lubricant and constant blank holding force is imposed. Sheet thickness and surface hardness are measured along radial direction after deep drawing. Thickness is measured using optical microscope. For beryllium copper(C1720), the maximum LDR of 2.4 is obtained when the die shoulder radius is 20 or 30 times of sheet thickness.
A Study on the Structural Analysis for Plastic Door Handle of Automobile
Park, S.R. ; Shim, D.C. ; Kim, D. ; Lyu, M.Y. ;
Transactions of Materials Processing, volume 19, issue 3, 2010, Pages 185~190
DOI : 10.5228/KSPP.2010.19.3.185
Application of CAE analyses are wide spread in shaping processes and structural safety verification of plastic products. The importance of CAE analysis and its contributions are getting increase since the processibility and structural safety of product can be predicted. CAE analysis for complex shaped product need a lot of time for modeling and computation compare with simpler one. Therefore careful simulation modeling is required for complex shaped product. Structural analysis for plastic door handle of automobile has been performed and structural safety has been investigated for various load directions and modeling cases. Large stress occurred at the hinge in handle regardless of load direction and modeling case. Consequently hinge is considered structurally very weak among the parts in plastic door handle. It is concluded that simple modeling rather than total modeling with adequate boundary condition equivalent to real situation gives reasonable computational results with saving modeling effort and computation time.
Investigation of Micro Cutting Characteristics for Tungsten-Carbide Green Part
Kim, G.H. ; Jung, W.C. ; Yoon, G.S. ; Heo, Y.M. ; Kwon, Y.S. ; Cho, M.W. ;
Transactions of Materials Processing, volume 19, issue 3, 2010, Pages 191~196
DOI : 10.5228/KSPP.2010.19.3.191
Tungsten-carbide as typical difficult-to-cut material has excellent mechanical properties such as high thermal resistivity, mechanical strength and chemical durability. However, it is next to impossible for tungsten-carbide to be fabricated the needed parts by cutting process. In this study, for establishing the micro fabrication method of tungsten-carbide for micro injection or compression molding core, the investigation on micro cutting characteristics of tungsten-carbide green part which is made by powder injection molding process and easy to cut relatively was performed. For this, micro endmilling experiments of tungsten-carbide green part were performed according to various cutting conditions. Finally, the wear trend of micro endmill and the appearance of micro rib according to feed-rate and cutting depth per step were analyzed through SEM images of micro cutting feature and microscope images of micro tools.