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REFERENCE LINKING PLATFORM OF KOREA S&T JOURNALS
> Journal Vol & Issue
Journal of the Korean Society for Precision Engineering
Journal Basic Information
Journal DOI :
Korean Society of Precision Engineering
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Volume & Issues
Volume 26, Issue 12 - Dec 2009
Volume 26, Issue 11 - Nov 2009
Volume 26, Issue 10 - Oct 2009
Volume 26, Issue 9 - Sep 2009
Volume 26, Issue 8 - Aug 2009
Volume 26, Issue 7 - Jul 2009
Volume 26, Issue 6 - Jun 2009
Volume 26, Issue 5 - May 2009
Volume 26, Issue 4 - Apr 2009
Volume 26, Issue 3 - Mar 2009
Volume 26, Issue 2 - Feb 2009
Volume 26, Issue 1 - Jan 2009
Selecting the target year
Optimal Design of Rib Turbulators in a Combustion Liner for Creep Lifetime Enhancement
Kim, Kyung-Min ; Yun, Nam-Geon ; Jeon, Yun-Heung ; Cho, Hyung-Hee ; Kim, Moon-Young ;
Journal of the Korean Society for Precision Engineering, volume 26, issue 3, 2009, Pages 7~10
A Study on the Integrity Recovery according to Manual Overlay and Pre- & Post-welding Treatment of Nickel-based Superalloy for Gas Turbine Blade
Kim, Hyung-Ick ; Park, Hong-Sun ; Huh, Yong ; Koo, Jae-Mean ; Seok, Chang-Sung ; Yang, Sung-Ho ; Kim, Moon-Young ; Weon, Jong-Il ;
Journal of the Korean Society for Precision Engineering, volume 26, issue 3, 2009, Pages 11~18
Effect of Heat Treatment on Microstructure and Mechanical Properties of the Nickel Base Superalloy GTD111DS
Yang, Sung-Ho ; Kim, Moon-Young ; Park, Sang-Yeol ; Kim, Sang-Hun ;
Journal of the Korean Society for Precision Engineering, volume 26, issue 3, 2009, Pages 19~24
Characteristics of the Femto-second Pulsed Laser Ablation according to Feed Velocity on the Invar Alloy
Chung, Il-Young ; Kang, Kyung-Ho ; Kim, Jae-Do ; Sohn, Ik-Bu ; Noh, Young-Chul ; Lee, Jong-Min ;
Journal of the Korean Society for Precision Engineering, volume 26, issue 3, 2009, Pages 25~31
Femto-second laser ablation with the various feed velocities of the Invar alloy and the micro surface milling for the processing condition were studied. We used a regenerative amplified Ti:sapphire laser with a 1kHz repetition rate, 184fs pulse duration time and 785nm wavelength. Femto-second laser pulse was irradiated on the Invar alloy with the air blowing at the condition of various laser peak powers and feed velocities. An ablation characteristic according to feed velocity of the Invar alloy was appeared as the non-linear type at different zone of energy fluence. The micro surface milling of the Invar alloy using a mapping method was investigated. The optimal condition of micro surface milling was laser peak power of 22.8mW, feed velocity of 1 mm/s, beam gap of
. With the optimal processing condition, the fine rectangular shape without burr and thermal damage was achieved. Using the femto-second laser system, it demonstrates excellent tool for micro surface milling of the Invar alloy without heat effects and poor edge.
Gain Scheduled Discrete Time Control for Disturbance Attenuation of Systems with Bounded Control Input
Kang, Min-Sig ; Yoon, Woo-Hyun ;
Journal of the Korean Society for Precision Engineering, volume 26, issue 3, 2009, Pages 32~39
A new discrete time gain-scheduled control design is proposed to improve disturbance attenuation for systems with bounded control input under known disturbance maximum norm. The state feedback gains are scheduled according to the proximity of the state of the plant to the origin. The controllers are derived in the framework of linear matrix inequality(LMI) optimization. This procedure yields a linear time varying control structure that allows higher gain and hence higher performance controllers as the state moves closer to the origin. The main results give sufficient conditions for the satisfaction of a parameter-dependent performance measure, without violating the bounded control input condition under the given disturbance maximum norm.
Stiffness Modeling of Toroidally-Wound BLDC Machine
Lee, Hyun-Chu ; Yoo, Seong-Yeol ; Noh, Myoung-Gyu ;
Journal of the Korean Society for Precision Engineering, volume 26, issue 3, 2009, Pages 40~46
Toroidally-wound brushless direct-current (BLOC) machines are compact, highly efficient, and can work across a large magnetic gap. For these reasons, they have been used in pumps, flywheel energy storage systems and left ventricular assist devices among others. The common feature of these systems is a spinning rotor supported by a set of (either mechanical or magnetic) bearings. From the view point of dynamics, it is desirable to increase the first critical speed of the rotor so that it can run at a higher operating speed. The first critical speed of the rotor is determined by the radial stiffnesses of the bearings and the rotor mass. The motor also affects the first critical speed if the rotor is displaced from the rotating center. In this paper, we analytically derive the flux density distribution in a toroidally-wound BLOC machine and also derive the negative stiffness of the motor, based on the assumption that the rotor displacement perturbs the flux density distribution linearly. The estimated negative stiffness is validated by finite element analyses.
An Experimental Study on the Measurement Performance of Coordinate Measuring Machine
Lee, Seung-Pyo ; Kang, Hyung-Joo ; Ha, Sung-Kyu ;
Journal of the Korean Society for Precision Engineering, volume 26, issue 3, 2009, Pages 47~54
In the manufacturing industry, there has been a significant increase in the use of coordinate measuring machines(CMM). In this paper, the sources of CMM measurement performance are discussed. The effects of workpiece position, length and orientation are analyzed by using the design of experiments. Both a fractional factorial design and a factorial design are employed to conduct the experimental study. The analysis of variance is performed to determine the significance of factors in the experiment and regression analysis is applied to make the measurement approximate model. The results show that position along the Z axis, length and orientation affect the CMM measurement performance.
Dynamic Consideration of Athletic Constraints on Skating Motion
Hwang, Chang-Soon ;
Journal of the Korean Society for Precision Engineering, volume 26, issue 3, 2009, Pages 55~67
This paper addresses the dynamic consideration of the athletic constraints on skating motion. In order to generate a human-like skating motion, the athletic constraints are distinctively analyzed into dynamic constraints and physical constraints. A close investigation of the athletic constraints evolved valid extent of dominant parameter for a leg muscle. During the human-like skating motion, the state of actuation was shifted from region of maximum force to region of maximum power. Simulation results were intuitively comprehensible, and the effectiveness of analytic algorithm was demonstrated for skating motion.
Design and Feasibility Study of a Tracked Robot for Landmine Detection
Lee, Sang-Ho ; Han, Chang-Soo ;
Journal of the Korean Society for Precision Engineering, volume 26, issue 3, 2009, Pages 68~72
Millions of landmines still have been buried in various countries around the world. Unfortunately, landmines make the correct detection of humanitarian organizations very difficult. For this purpose, new technologies such as improved sensors, efficient manipulators and mobile robots are needed. Our effort is to develop a small mobile robot for landmine detection. The mobile robot consists of sensor module, GPS, RF communications equipment, IR camera, motors, and controllers, etc. This paper describes the current configuration of development in landmine detecting tracked robot. Specifically we are concerned with the sensor module of the mobile robot. Our results show that graphs have measured a small metal instead of a real landmine because of the big danger of students experiments on detection with real landmines.
Performances of Hot Gas Bypass Type Oil Cooler System
Lee, Seung-Woo ; Yeom, Han-Kil ; Park, Kil-Jong ;
Journal of the Korean Society for Precision Engineering, volume 26, issue 3, 2009, Pages 73~80
In accordance with the trend for high-speed multi-axes, and the increasing technical sophistication of machine tools, thermal deformation has become an important factor in the accuracy of machine tools. It was analyzed that thermal deformation error accounts for about 70% of all errors made with machine tools. For precise temperature control, both cooling and heating should be implemented. A hot gas bypass type cooling cycle method has a simplified structure and temperature control accuracy to with in
. In this study, the performances of oil cooler system, including temperature controllability according to hot gas floe and preset temperature sustainability according to temperature load, were tested. It is expected that this study will contribute to the development and performances of oil cooler system, which could minimize thermal errors and improve the quality of precision machine tools.
A Study on Optimization of Board Molding Process with GMPU Technology
Choi, Dong-Jo ; Park, Hong-Seok ;
Journal of the Korean Society for Precision Engineering, volume 26, issue 3, 2009, Pages 81~87
Lightweight board has been used for manufacturing various fields of automotive interior trims for years. The GMPU board was constructed with glass fiber mat, honeycomb and polyurethane foamed using polyol and isocyanate materials which were sprayed by robot that is interlocked foaming machine. For more lightweight and cost reduction this paper shows how to optimize GMPU process parameters that related to foaming condition, robot position and robot velocity for polyurethane weight. The results show that flexural strength and modulus of board's specimens were evaluated by robot velocity and moving pattern. Based on that, a innovative process was developed for more lightweight and cost reduction.
Development of Magnesium Seat Frames using the Vacuum Die Casting Process
Shin, Hyun-Woo ; Han, Beom-Suk ; Yoo, Hyung-Jo ; Jung, Hyun-Ho ;
Journal of the Korean Society for Precision Engineering, volume 26, issue 3, 2009, Pages 88~97
The vacuum die casting techniques can diminish the porosity of products and provide better surface appearance by the ordinary high pressure die casting process. The vacuum system can also reduce the cold laps in the die casting process and minimize the overflow pockets of the die. The vacuum system does not need high pressures to die cast compared to the ordinary die casting process, and so enables die casting of large parts for a given machine size. Parts made by the vacuum system have higher strength and more elongation than parts made by the ordinary die casting systems. In this paper, we designed and produced the Magnesium seat frames using the vacuum die casting processes. The new Magnesium seat frame was designed to satisfy safety regulations. Some safety test procedures of the seat frame were simulated by the finite element method. We obtained 10% weight reduction by design modification of seat frames compared to the current model. Flow simulations were carried out to minimize the trial and error in producing the parts. The die casted parts using vacuum systems resulted in better mechanical characteristics and no defects compared to those without vacuum systems.
Optimization of Processing on Filling Balance of the HR3P Mold Structure
Kwon, Youn-Suk ; Jeong, Yeong-Deug ;
Journal of the Korean Society for Precision Engineering, volume 26, issue 3, 2009, Pages 98~102
Almost all injection molds have multi-cavity runner system for mass production, which are designed with geometrically balanced runner system in order to accomplish filling balance between cavity to cavity during processing. However, even though geometrically balanced runner is used, filling imbalance has been observed. Filling imbalance could be decreased by modifying processing conditions such as injections rate, mold temperature, injection pressure, melt temperature that are related to shear, viscosity. In this study, a series of experiment was conducted to investigate filling imbalance variation when modifying runner layout and polymer and to determine which processing condition influences as the primary cause of filling imbalance in geometrically balanced runner system. The filling imbalance was decreased up to result range of
by using a new runner system for balanced filling.
Development of an Automated Design System for Oil Pumps with Multiple Profiles(Circle, Ellipse and Involute)
Jung, Sung-Yuen ; Kim, Moon-Saeng ; Cho, Hae-Yong ; Kim, Chul ;
Journal of the Korean Society for Precision Engineering, volume 26, issue 3, 2009, Pages 103~112
A internal lobe pump is suitable for oil hydraulics of machine tools, automotive engines, compressors, constructions and other various applications. In particular, the pump is an essential machine element of an automotive engine to feed lubricant oil. The subject of this paper is the theoretical analysis of internal lobe pump whose the main components are the rotors: usually the outer one is characterized by lobe with elliptical and involute shapes, while the inner rotor profile is determined as conjugate to the other. And the integrated system which is composed of three main modules has been developed through AutoLISP under AutoCAD circumstance. It generates new lobe profile and calculates automatically the flow rate and flow rate irregularity according to the lobe profile generated. Results obtained from the analysis enable the designer and manufacturer of oil pump to be more efficient in this field.
Clamping Analysis and Design of a Package of a Microwave Oven
Lee, Boo-Youn ; Son, Byung-Sam ;
Journal of the Korean Society for Precision Engineering, volume 26, issue 3, 2009, Pages 113~121
Behavior of a package of a microwave oven under the clamping condition is evaluated by tests and the finite element analyses. PAM-CRASH software is used for the finite element analyses. Results of the analyses are compared with those of the tests and accuracy is shown to be favorable. Under the clamping condition of the original design, severe deformation occurs and an improved design of the outer case and upper EPS(Expandable Poly Styrene) is proposed to reduce it. Face beads of the outer case are introduced and shape of the upper EPS is modified to reduce the deformation resulting from the clamping load. The improved design model is analyzed and its deformation is shown to be satisfactory. A prototype is produced according to the improved design and tests are performed. Results of the clamping test of the prototype show that the plastic deformation is removed totally.
An Analysis of Vacuum Plasma Phenomena in DBD(Dielectric Barrier Discharges)
Shin, Myoung-Soo ; Cha, Sung-Hoon ; Kim, Jong-Bong ; Kim, Jong-Ho ; Kim, Seong-Young ; Lee, Hye-Jin ;
Journal of the Korean Society for Precision Engineering, volume 26, issue 3, 2009, Pages 122~128
DBD(Dielectric Barrier Discharges) plasma is often used to clean the surface of semiconductor. The cleaning performance is affected mainly by plasma density and duration time. In this study, the plasma density is predicted by coupled simulation of flow, chemistry mixing and reaction, plasma, and electric field. 13.56 MHz of RF source is used to generate plasma. The effect of dielectric thickness, gap distance, and flow velocity on plasma density is investigated. It is shown that the plasma density increases as the dielectric thickness decreases and the gap distance increases.
A Hybrid Static Optimization for Estimating Muscle Forces during Heel-rise Movements
Son, Jong-Sang ; Sohn, Ryang-Hee ; Kim, Young-Ho ;
Journal of the Korean Society for Precision Engineering, volume 26, issue 3, 2009, Pages 129~136
The estimation of muscle force is important to understand the roles of the muscles. The static optimization method can be used to figure out the individual muscle forces. However, muscle forces during the movement including muscle co-contraction cannot be considered by the static optimization. In this study, a hybrid static optimization method was introduced to find the well-matched muscle forces with EMG signals under muscle co-contraction conditions. To validate the developed algorithm, the 3D motion analysis and its corresponding inverse dynamics using the musculoskeletal modeling software (SIMM) were performed on heel-rise movements. Results showed that the developed algorithm could estimate the acceptable muscle forces during heel-rise movement. These results imply that a hybrid numerical approach is very useful to obtain the reasonable muscle forces under muscle co-contraction conditions.
Development of Bioreactor by Rapid Prototyping Technology
Park, Jeong-Hun ; Lee, Seung-Jae ; Lee, In-Hwan ; Cho, Dong-Woo ; Rhie, Jong-Won ;
Journal of the Korean Society for Precision Engineering, volume 26, issue 3, 2009, Pages 137~143
It has been reported that mechanical stimulation takes a role in improving eel/ growth in skeletal system. Various research groups have been showed their own bioreactors which stimulate cell-seed three-dimensional scaffold. In this study, we hypothesized that the various conditions of mechanical stimulation would affect cell growth and proliferation. To prove our hypothesis, we designed a custom-made bioreactor capable of applying controlled compression to cell-encapsulated scaffolds. This device consisted of a circulation system and a compression system. Each parts of the bioreactor was fabricated using the rapid prototyping technology By using the rapid prototyping technology, we can modify and improve the bioreactor very rapidly For dynamic cell-culture, cell-encapsulated agarose gel was fabricated in 2% concentration. We performed dynamic cell-culture using this agarose gel and developed bioreactor in 3 days.