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REFERENCE LINKING PLATFORM OF KOREA S&T JOURNALS
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Transactions of Materials Processing
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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
The Effect of Forming Parameter on Mechanical Properties in Hot Bending Process of Boron Steel Sheet
Kwon, K.Y. ; Sin, B.S. ; Kang, C.G. ;
Transactions of Materials Processing, volume 19, issue 4, 2010, Pages 203~209
DOI : 10.5228/KSPP.2010.19.4.203
In the hot press forming process (HPF), a martensitic structure is obtained by controlling the cooling rate when cooling a boron sheet that is heated up to over
. The HPF process has various advantages such as the improvement in formability and material properties and minimal spring back of the deformed materials. The factors related to the cooling rate depend on the heat transfer characteristics between heated materials and dies. Therefore, in this study, the cooling rate is controlled by adjusting the heat transfer coefficient of the material at the pressing process. And, the mechanical properties and microstructure of the deformed material is demonstrated during the HPF process where cold dies are used to form the heated steel plate. This is achieved by varying the major forming conditions that control the cooling rate regarded as the most important process parameter.
Mechanical Properties and Workability of Non Heat Treated Steel on Cold Forming of High Tension Bolts
Hwang, B.K. ; Jung, T.W. ; Lee, Y.S. ; Choi, J.M. ; Moon, Y.H. ;
Transactions of Materials Processing, volume 19, issue 4, 2010, Pages 210~216
DOI : 10.5228/KSPP.2010.19.4.210
The importance and interests for saving of energy and cost in industry has grown up. Therefore, process optimization to reduce the process and energy become one of the most important things. The non-heat treated steel, post-heat-treated is no necessary, has attractive points as structural materials. However, establishment of mechanical properties is necessary to apply non-heat-treated steel to structural parts. In this study, for non-heat-treated steel and pre-heat-treated steel, we have investigated microstructure, hardness, the tensile strength, compressive strength. And the FE analysis technology to predict the hardness value of forged part is developed on micro-alloyed steel forged part.
Analysis and Application of Mechanical Clinched Joint Using Cohesive Zone Model
Hwang, B.N. ; Lee, C.J. ; Lee, S.B. ; Kim, B.M. ;
Transactions of Materials Processing, volume 19, issue 4, 2010, Pages 217~223
DOI : 10.5228/KSPP.2010.19.4.217
The objective of this study is to propose the FE model for mechanical clinched joint using cohesive zone model to analyze its failure behavior under impact loading. Cohesive zone model (CZM) is two-parameter failure criteria approach, which could describe the failure behavior of joint using critical stress and fracture toughness. In this study, the relationship between failure behavior of mechanical clinched joint and fracture parameters is investigated by FE analysis with CZM. Using this relationship, the critical stress and fracture toughness for tensile and shear mode are determined by H-type tensile test and lap shear test, which were made of 5052 aluminum alloy. The fracture parameters were applied to the tophat impact test to evaluate the crashworthiness. Compared penetration depth and energy absorption at the point where 50% of total displacement in result of FE analysis and experiment test for impact test, those has shown similar crashworthiness.
Prediction Model of Surface Residual Stress for Multi-Pass Drawn High Carbon Steel Wire
Kim, D.W. ; Lee, S.K. ; Kim, B.M. ; Jung, J.Y. ; Ban, D.Y. ; Lee, S.B. ;
Transactions of Materials Processing, volume 19, issue 4, 2010, Pages 224~229
DOI : 10.5228/KSPP.2010.19.4.224
During the multi-pass wire drawing process, wires suffer a great amount of plastic deformation that is through the cross-section. This generates tensile residual stress at surface of drawn wires. The generated residual stress on surface is one of the problems for quality of wires so that prediction and reduction of residual stresses is important to avoid unexpected fracture. Therefore, in this study, the effect of process variables such as semi-die angle, bearing length and reduction ratio on the residual stress was evaluated through Finite Element Analysis. Based on the results of the Analysis, a prediction model was established for predicting residual stress on the surface of high carbon steel(AISI1072, AISI1082). To identify the effectiveness of the proposed model, X-ray diffraction is used to measure the residual stresses on the surface. As the result of the comparison between calculated residual stresses and measured residual stresses, the model could be used to predict residual stresses in cold drawn wire.
Evaluation of Pess Formability for Ti-6Al-4V Sheet at Elevated Temperature
Park, J.G. ; Park, N.K. ; Kim, Y.S. ;
Transactions of Materials Processing, volume 19, issue 4, 2010, Pages 230~235
DOI : 10.5228/KSPP.2010.19.4.230
Titanium alloy sheets have excellent specific strength and corrosion resistance as well as good performance at high temperature. Recently, titanium alloys are widely employed not only for aerospace parts but also for bio prothesis and motorcycle. However, the database is insufficient in the titanium alloy for press forming process. In this study, the effect of temperature on the forming limit diagram was investigated for Ti-6Al-4V titanium alloy sheet through the Hecker‘s punch stretching test at elevated temperature. Experimental results obtained in this study can provide a database for the development of press forming process at elevated temperature of Ti-6Al-4V titanium alloy sheet. From the experimental studies it can be concluded that the formability of Ti-6Al-4V titanium alloy sheet is governed by the ductile failure for the testing temperature. The formability of Ti-6Al-4V titanium alloy sheet at
increases about 7 times compared with that at room temperature.
Influence of Surface Roughness Change on Frictional Behavior of Sheet Steel for Each Forming Mode
Han, S.S. ;
Transactions of Materials Processing, volume 19, issue 4, 2010, Pages 236~241
DOI : 10.5228/KSPP.2010.19.4.236
The frictional behavior of bare steel sheet highly depends on surface roughness. It was investigated that the change of surface roughness of bare steel sheet due to deformation for each forming mode. The flat type friction test was done to check the effect of surface roughness change on frictional characteristics of bare steel sheet. As increasing the deformation, the Ra value was increased at stretching forming mode and drawing forming mode, however the change of Pc showed different trends. The Pc was decreased as increasing stretch deformation but increased at compression deformation. At drawing forming mode, the friction coefficient was increased as deformation was increased after initial big drop with drawing oil. As deformation was increased, the friction coefficient was decreased with drawing oil at stretching forming mode. The results show that the deformation changes the surface roughness and frictional characteristics of steel sheet but the effect depends on the forming mode.
Development of Intermediate Die Shape Design Program for Multi-Pass Shape Drawing by Using VisualLISP
Lee, S.K. ; Lee, S.B. ; Kim, B.M. ;
Transactions of Materials Processing, volume 19, issue 4, 2010, Pages 242~247
DOI : 10.5228/KSPP.2010.19.4.242
In the multi-pass shape drawing process, it is important to design the intermediate dies for producing sound products. Up to now, the design of the intermediate dies is mainly carried out by the industrial experts based on their experience. In this study, a design program was developed to design the intermediate dies for multi-pass shape drawing process. The program was programmed by using VisualLISP. In this program the intermediate dies can be designed by using the initial material shape and the final product shape. In order to verify the effectiveness, the program was applied to design the intermediate dies of multi-pass shape drawing for producing four teeth spline and gun slide. Finally, FE analysis and shape drawing experiment were performed to verify the effectiveness of the designed intermediate dies. As a result, it was possible to produce the drawn products with the required dimensional accuracy.
Finite Element Analysis of Manufacturing Process of a 12 Point Flange Head Bolt with Emphasis on Thread Rolling Process
Jang, S.J. ; Lee, M.C. ; Shim, S.H. ; Son, Y.H. ; Yoon, D.J. ; Joun, M.S. ;
Transactions of Materials Processing, volume 19, issue 4, 2010, Pages 248~252
DOI : 10.5228/KSPP.2010.19.4.248
In this paper, three-dimensional finite element analysis of thread rolling process of a 12 point flange head bolt is conducted using a rigid-plastic finite element method based metal forming simulator AFDEX 3D. A whole sequence of cold forming processes of a long shaft bolt composed of four forging stages and final thread rolling process is simulated to reveal the mechanism of thread formation. A mesh density control function is applied near the major plastic deformation region to achieve computational efficiency. It has been shown both numerically and experimentally that longitudinal lengthening or shortening is negligible in thread rolling.
Experimental Study on Non-Axisymmetric Rectangular Cup using Multi-Stage Deep Drawing Process
Ku, T.W. ; Park, J.W. ; Heo, S.C. ; Kang, B.S. ;
Transactions of Materials Processing, volume 19, issue 4, 2010, Pages 253~262
DOI : 10.5228/KSPP.2010.19.4.253
For multi-stage deep drawing process including ironing operation and biaxial forming in this study, tool developments are achieved, and the developed tool sets are applied to experimental investigations. In process and tool designs, a contact condition between intermediate blank and lower die is considered as the sequential one. In this study, the material used is cold-rolled thin sheet (SPCE) with the initial thickness of 0.4mm. From the experimental approaches, several failures such as tearing, localized thickening and thinning, are observed. To solve these failures, the contact surface on the lower die is modified. As the experimental results by applying the modified lower die, it is investigated that the failures are not occurred, and the excessive deformation behavior due to the thinning and thickening effects are decreased. Furthermore, the thickness distributions on the major axis and the minor axis of each intermediate blank are investigated to be already satisfied the target (ironing) thickness, respectively. By this systematic approach, it is confirmed that the experimental results show good agreements with the designed and required configuration of each deformed and final products.