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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
Editor in Chief :
Volume & Issues
Volume 24, Issue 12 - Dec 2007
Volume 24, Issue 11 - Nov 2007
Volume 24, Issue 10 - Oct 2007
Volume 24, Issue 9 - Sep 2007
Volume 24, Issue 8 - Aug 2007
Volume 24, Issue 7 - Jul 2007
Volume 24, Issue 6 - Jun 2007
Volume 24, Issue 5 - May 2007
Volume 24, Issue 4 - Apr 2007
Volume 24, Issue 3 - Mar 2007
Volume 24, Issue 2 - Feb 2007
Volume 24, Issue 1 - Jan 2007
Selecting the target year
Survey on Location Based System for Smart Home
Ha, Kyoung-Nam ; Kim, Hyun-Hee ; Lee, Kyung-Chang ; Lee, Suk ;
Journal of the Korean Society for Precision Engineering, volume 24, issue 6, 2007, Pages 7~14
Trend on Power Line Communication for Intelligent Heating and Air-Conditioning System in the Smart Home
An, Young-Joo ; Hwang, Yeong-Yeun ; Byun, Gi-Sig ;
Journal of the Korean Society for Precision Engineering, volume 24, issue 6, 2007, Pages 15~22
Wired/Wireless Integration and Location-based Home Gateway Framework in Ubiquitous Home Networks
Kong, In-Yeup ; Hwang, Won-Joo ;
Journal of the Korean Society for Precision Engineering, volume 24, issue 6, 2007, Pages 23~30
Photovoltaic Cell Modeling and Performance Analysis for Wireless Sensor Networks
Torregoza, John Paul ; Hwang, Won-Joo ;
Journal of the Korean Society for Precision Engineering, volume 24, issue 6, 2007, Pages 31~36
Performance Index for Sensor Arrangement of PIR Sensor-based Indoor Location Aware System
Kim, Hyun-Hee ; Ha, Kyoung-Nam ; Lee, Kyung-Chang ; Lee, Suk ;
Journal of the Korean Society for Precision Engineering, volume 24, issue 6, 2007, Pages 37~44
Ultra-precision Grinding Optimization of Mold Core for Aspheric Glass Lenses using DOE and Compensation Machining
Kim, Sang-Suk ; Lee, Yong-Chul ; Lee, Dong-Gil ; Kim, Hye-Jeong ; Kim, Jeong-Ho ;
Journal of the Korean Society for Precision Engineering, volume 24, issue 6, 2007, Pages 45~50
The aspheric lens has become the most popular optical component used in various optical devices such as digital cameras, pick-up lenses, printers, copiers etc. Using aspheric lenses not only miniaturizes and reduces the weight of products, but also lower prices and higher field angles can be realized. Additionally, plastic lenses are being changed to glass lenses more recently because of low accuracy, low acid-resistance and low thermal-resistance in the plastic lenses. Currently, one fabrication method of glass lenses is using a glass-mold method with a high precision mold core for mass production. In this paper, DOE (Design Of Experiments) and compensation machining were adopted to improve the surface roughness and the form accuracy of the mold core. The DOE has been done in order to discover the optimal grinding conditions which minimize the surface roughness with factors such as work spindle revolution, turbine spindle revolution, federate and cutting depth. And the compensation machining is used to generate high form accuracy of the mold core. From various experiments and analyses, we could obtain the best surface roughness 5 nm in Ra, form accuracy
Development of CNC Creep-Feed Grinding Machine and Determination of Dressing Conditions using Continuous Dressing
Lee, Young-Wook ; Kim, Jong-Kwan ; Jung, Yoon-Gyo ;
Journal of the Korean Society for Precision Engineering, volume 24, issue 6, 2007, Pages 51~57
Creep-feed grinding is an effective technology processes to increase the productivity and efficiency in form grinding. This method has, however, some problems which the progress of abrasive wear around the cutting edge is remarkable, grinding force become intense and burn marks on the ground surface occur frequently. In order to solve this problems, it is proposed in this study to dress the grinding wheel continuously during the grinding process. The purpose of this research is. therefore, that CNC creep-feed grinding machine which has a continuous dressing device developed and some grinding experiments for determination of dressing conditions carried out.
A Study on the Bending Process for Precision Pipe Forming
Kim, Hyun-Jin ; Lee, Choon-Man ;
Journal of the Korean Society for Precision Engineering, volume 24, issue 6, 2007, Pages 58~65
The arbitrarily-bended pipe is widely used in a heat exchanger system. Thus, the pipe bending process has important role in performance and productivity of heat exchanger system. The purpose of this study is to investigate the bending process for manufacturing of sound pipe. And, the spring-back effect and the variation of pipe thickness should be controlled effectively. The change of spring-back ratio and the thickness variation of pipe according to the change of bending radius, bending angle and pipe thickness are analyzed by FEM analysis. The analytic results are compared with the experimental data, accordingly the results show good agreement. The method of the analysis can be applied for manufacturing of precision bended pipe.
Position Detection of a Capsule-type Endoscope by Magnetic Field Sensors
Park, Joon-Byung ; Kang, Heon ; Hong, Yeh-Sun ;
Journal of the Korean Society for Precision Engineering, volume 24, issue 6, 2007, Pages 66~71
Development of a locomotive mechanism for the capsule type endoscopes will largely enhance their ability to diagnose disease of digestive organs. As a part of it, there should be provided a detection device of their position in human organs for the purpose of observation and motion control. In this paper, a permanent magnet outside human body was employed to project magnetic field on a capsule type endoscope, while its position dependent flux density was measured by three hall-effect sensors which were orthogonally installed inside the capsule. In order to detect the 2-D position data of the capsule with three hall-effect sensors including the roll, pitch and yaw angle, the permanent magnet was extra translated during the measurement. In this way, the 2-D coordinates and three rotation angles of a capsule endoscope on the same motion plane with the permanent magnet could be detected. The working principle and performance test results of the capsule position detection device were introduced in this paper showing that they could be also applied to 6-DOF position detection.
Equipment Qualification of a Safety-related Large Induction Motor for Nuclear Power Plants
Lee, Hyoung-Woo ; Ko, Woo-Sik ; Ryu, Jeong-Hyeon ; Park, No-Gill ;
Journal of the Korean Society for Precision Engineering, volume 24, issue 6, 2007, Pages 72~77
A safety-related equipment for the nuclear power plant should be needed an equipment qualification. In this paper, the approach, methods, philosophies, and procedures for qualifying the large squirrel-cage induction electric pump motors for use in ULCHIN 5, 6 Nuclear Power Plants were presented. The method of qualification is a combination of experimental test and analytic method, which is composed of radiation exposure test, seismic simulation test, thermal aging analysis for non-metallic materials, and seismic analysis. The results showed that the motor performed its safety function with no failure mechanism under postulated service conditions.
Stress and Modal Analysis for the Rotor System of a Medical Centrifuge using Finite Element Method
Kim, Sung-Min ; Yang, In-Chul ; Kim, Do-Gyoon ; Kim, Hak-Chul ;
Journal of the Korean Society for Precision Engineering, volume 24, issue 6, 2007, Pages 78~85
In this study, we performed finite element analysis for the design of a medical centrifuge and two-types of centrifuge were compared with each other. The types of centrifuge are 2-arm straight type and 3-arm type. Structural analysis was done with respect to the change of the rotational speed of the rotor of a centrifuge. When the rotor of centrifuge was rotated, the von Mises stress of 2-arm straight type-rotor was compared with the von Mises stress of 3-arm type. The margin of safety was estimated from the result. We found the critical speed of centrifuge from the campbell diagram by modal analysis.
Optimal Design of an Exhaust System of a Vacuum-Compatible Air Bearing
Khim, Gyung-Ho ; Park, Chun-Hong ; Lee, Hu-Sang ; Kim, Seung-Woo ;
Journal of the Korean Society for Precision Engineering, volume 24, issue 6, 2007, Pages 86~95
This paper presents the optimal design of an exhaust system of a vacuum-compatible air bearing using a genetic algorithm. To use the air bearings in vacuum conditions, the differential exhaust method is adopted to minimize the air leakage, which prevents air from leaking into a vacuum chamber by recovering air through several successive seal stages in advance. Therefore, the design of the differential exhaust system is very important because several design parameters such as the number of seals, diameter and length of an exhaust tube, pumping speed and ultimate pressure of a vacuum pump, seal length and gap(bearing clearance) influence on the air leakage, that is, chamber's degree of vacuum. In this paper, we used a genetic algorithm to optimize the design parameters of the exhaust system of a vacuum-compatible air bearing under the several constraint conditions. The results indicate that chamber's degree of vacuum after optimization improved dramatically compared to the initial design, and that the distribution of the spatial design parameters, such as exhaust tube diameter and seal length, was well achieved, and that technical limit of the pumping speed was well determined.
Accurate Determination of Spring Constants of Micro Cantilevers for Quantified Force Metrology in AFM
Kim, Min-Seok ; Choi, Jae-Hyuk ; Kim, Jong-Ho ; Park, Yon-Kyu ;
Journal of the Korean Society for Precision Engineering, volume 24, issue 6, 2007, Pages 96~104
Calibration of the spring constants of atomic force microscopy (AFM) cantilevers is one of the issues in biomechanics and nanomechanies for quantified force metrology at pieo- or nano Newton level. In this paper, we present an AFM cantilever calibration system: the Nano Force Calibrator (NFC), which consists of a precision balance and a one-dimensional stage. Three types of AFM cantilevers (contact and tapping mode) with different shapes (beam and V) and spring constants (42, 1, 0.06 N
) are investigated using the NFC. The calibration results show that the NFC can calibrate the micro cantilevers ranging from 0.01
with relative uncertainties of less than 2%.
Tungsten Wire Micro Electrochemical Machining with Ultra Short Pulses
Shin, Hong-Shik ; Kim, Bo-Hyun ; Chu, Chong-Nam ;
Journal of the Korean Society for Precision Engineering, volume 24, issue 6, 2007, Pages 105~112
Tungsten wire micro electrochemical machining (W-wire micro ECM) with ultra-short pulses enables precise micro machining of metal. In wire micro ECM, platinum wire has been used because it is electrochemically stable. However, the micro metal wire with low strength is easily deformed by hydrogen bubbles which are generated during the machining. The wire deformation decreases the machining accuracy. To reduce the influence of hydrogen bubbles, in this paper, the use of tungsten wire was investigated. To improve machining accuracy, suitable pulse conditions which affect generation of bubbles were also investigated. The tungsten wire micro ECM can be applied to the fabrication of various shapes. Using this method, various micro-parts and shapes were fabricated.
Selective Growth of Freestanding Carbon Nanotubes Using Plasma-Enhanced Chemical Vapor Deposition
Bang, Yun-Young ; Chang, Won-Seok ;
Journal of the Korean Society for Precision Engineering, volume 24, issue 6, 2007, Pages 113~120
Chemical vapor deposition (CVD) is one of the various synthesis methods that have been employed for carbon nanotube (CNT) growth. In particular, Ren et al reported that large areas of vertically aligned multi-wall carbon nanotubes could be grown using a direct current (dc) PECVD system. The synthesis of CNT requires a metal catalyst layer, etchant gas, and a carbon source. In this work, the substrates consists of Si wafers with Ni-deposited film. Ammonia
) and acetylene (
) were used as the etchant gases and carbon source, respectively. Pretreated conditions had an influence on vertical growth and density of CNTs. And patterned growth of CNTs could be achieved by lithographical defining the Ni catalyst prior to growth. The length of single CNT was increased as niclel dot size increased, but the growth rate was reduced when nickel dot size was more than 200 nm due to the synthesis of several CNTs on single Ni dot. The morphology of the carbon nanotubes by TEM showed that vertical CNTs were multi-wall and tip-type growth mode structure in which a Ni cap was at the end of the CNT.
Development of a Training System for Equilibrium Sense Using Unstable Platform and Force Plate
Piao, Yong-Jun ; Yu, Mi ; Kim, Yong-Yook ; Kwon, Tae-Kyu ; Kim, Nam-Gyun ;
Journal of the Korean Society for Precision Engineering, volume 24, issue 6, 2007, Pages 121~130
In this paper, we present the development of a new training system for equilibrium sense and postural control. This system consists of an unstable platform, a force plate, a computer, and training programs. The unstable platform provides 360 degrees of movement allowing for training in all directions. To evaluate the effects of the training system, we performed various experiments to train the ability of equilibrium sense and postural control of fifteen young healthy subjects. We measured the time a subject maintains his or her center of pressure on a target, the time a subject moves his or her center of pressure to a target, and the mean absolute deviation of the trace before and after the training. We analyzed these parameters obtained before and after the training using paried-sample T-test. The result shows that the subjects experienced distinctive enhancement in their ability of postural control through the training using our system.
Variations of Form Accuracy in the Process of Metal Cast Prototyping using Rapid prototype, Vacuum casting and Ceramic Mold
Kim, Gi-Dae ;
Journal of the Korean Society for Precision Engineering, volume 24, issue 6, 2007, Pages 131~137
In metal casting process, it is very difficult to predict the form accuracy of cast part and reduce repeatability error. In this study, the variations of form accuracy were measured in the process of metal cast prototyping, where RP part is manufactured from CAD model in the first, and then, wax part is cast in the vacuum environment using the RP part as master model, and finally metal prototype is cast using ceramic mold and the wax part as pattern. To investigate the variations of form accuracy, the averages and standard deviations of error distribution of the parts measured by 3D scanner were compared. It was observed that the biggest shrinkage is generated during the extraction of wax part in the second step and the biggest deterioration of form accuracy is generated during the metal part casting in the last step.
A Benchmark Study on the Stereo-lithography-type Rapid Prototyping Apparatus using Transparent Materials
Kim, Gi-Dae ; Sung, Joo-Hyung ;
Journal of the Korean Society for Precision Engineering, volume 24, issue 6, 2007, Pages 138~145
Among various rapid prototyping processes, stereo-lithography process which can manufacture transparent prototype is known to be the greatest in the form & dimensional accuracy and surface roughness. In this paper, bench mark tests of 4 stereo-lithography-type rapid prototyping apparatus were carried out using transparent materials. The test includes measurement of mechanical properties, form accuracy, building speed and manufacturing cost. It was observed that ViperPRO of 3D systems is advantageous in the mechanical properties and building speed, RM600011 of CMET in sub-milli scale form accuracy and manufacturing cost, and relatively economical Eden500V of Objet is great in tensile strength at room temperature.