• Journal of Welding and Joining
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• 제30권4호
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• pp.44-48
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• 2012

H-beam used for stiffening the upper structure of ocean plant is cut in the various shapes. The cutting process of the H-beam is done manually and requires a long time and high cost. Therefore, automation of H-beam cutting is an important task. This research aims to develop a 3-D simulator to build the automatic H-beam cutting system and to determine the optimal cutting method. The automatic H-beam cutting system composes of 6 robots including 2 cutting robots hang to a crane and 1 conveyer. The appropriate system layout for covering the various sizes and types of H-beam was tested and determined using the simulator. The H-beam cutting system uses a hybrid type of plasma and gas cutting because of special cutting shapes of H-beam. The cutting area of each cutting method should be properly divided according to the size and shape of H-beam to shorten the total cutting time. Additionally the collision between a robot and a robot or a robot and H-beam should be avoided. The optimal cutting method for the shortest cutting time without the collision could be found for the various cutting conditions by use of the simulator. 2 simulation samples shows the availability of the simulator to find the optimal cutting method.

• 한국레이저가공학회지
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• 제4권2호
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• pp.47-57
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• 2001

This study deals with the laser cutting of stencil for the PCB. The most important aim of this study is to determine optimal conditions which make good-qualify stencil in Nd:YAG laser cutting. We made an experiment according to various variables (power. type of mask. gas pressure, cutting speed, and pulse width) and analyzed the cutting characteristics (surface roughness, kerf width. dross) . Each variable has optimal value for good-qualify cut edge under fixed condition. And neural network after learning experimental data with a million time iteration could predict surface roughness of cut edge under arbitrary condition approximately.

• 한국전산구조공학회:학술대회논문집
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• 한국전산구조공학회 2001년도 봄 학술발표회 논문집
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• pp.95-101
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• 2001

Steel bridges, which have been damaged by load and corrosion, need repair or strengthening. In general, before the repair welding procedure, cutting procedure carry out. Therefore, the investigating of the behavior of stress generated by cutting is so important for safety of structure. Residual stress produced by gas cutting was analyzed using 2D and 3D thermal elasto-plastic FEM. According to the results, the magnitude of temperature was analyzed by 2D-FEM is smaller than that was analyzed using the 3D-FEM program at the start and end edge of flange. And the magnitude and distribution of residual stress of perpendicular to the cutting line was analyzed by the 2D-FEM program was similar to that was analyzed by the 3B-FEM program. Therefore, it is possible to predict of cutting stress by 2D and 3D FEM.

• 대한전기학회논문지:전기물성ㆍ응용부문C
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• 제53권7호
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• pp.387-394
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• 2004

Diamond films were deposited on the cemented tungsten carbide WC-Co cutting insert substrates by using both microwave plasma chemical vapor deposition(MWPCVD) and radio frequency plasma chemical vapor deposition (RFPCVD) from $CH_4$$-H_2$$-O_2$ gas mixture. Scanning electron microscopy and X-ray diffraction techniques were used to investigate the microstructure and phase analysis of the materials and Raman spectrometry was used to characterize the quality of the diamond coating. Diamond films deposited using MWPCVD from $CH_4$$-H_2$$-O_2$ gas mixture show a dense, uniform, well faceted and polycrystalline morphology. The compressive stress in the diamond film was estimated to be (1.0∼3.6)$\pm$0.9 GPa. Diamond films which were deposited on the WC-Co cutting insert substrates by RFPCVD from $CH_4$$-H_2$$-O_2$ gas mixture show relatively good adhesion, very uniform, dense and polycrystalline morphology.

• 마이크로전자및패키징학회지
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• 제24권1호
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• pp.91-101
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• 2017

최근 레이저를 이용하여 전자 소자 및 모듈을 절단하기 위한 많은 연구가 진행되고 있다. 본 연구에서는 레이저를 이용하여 LED 모듈을 초고속 절단하기 위한 기초 연구를 수행하였다. 특히 기존의 다이싱(dicing) saw의 절단 속도를 훨씬 능가하는 100 mm/s의 초고속 레이저 절단의 가능성을 검토하였다. 이를 위하여 LED 모듈의 구성 재료인 copper/ceramic 및 silicone/ceramic 이종 복합 기판을 제작하여 레이저 절단 후, 절단면의 표면 특성, 표면조도, 굽힘 강도를 다이싱 saw를 이용하여 절단한 샘플과 비교하였다. 복합 기판에 대한 최적의 레이저 절단 조건을 찾기 위하여, 세라믹 및 구리 단일 기판의 레이저 절단을 통하여 다양한 레이저 공정 조건들에 대한 영향 검토하였다. 절단면의 표면 특성이 가장 좋은 최적의 레이저 절단 조건은 Ar 보조 가스의 사용, 높은 레이저 파워 및 높은 보조 가스의 압력이었다. Copper/ceramic 및 silicone/ceramic 이종 복합 기판에 대하여 레이저 절단과 다이싱 saw로 절단한 기판의 절단면을 비교한 결과, 레이저로 절단된 기판이 다이싱 saw 절단에 비하여 표면이 거칠고 표면 특성이 약간 나쁘다. 레이저 절단면의 평균 표면조도는 약 $9{\mu}m$ 이며, 다이싱 saw로 절단된 절단면의 표면조도는 약 $4{\mu}m$ 이었다. 그러나 다이싱 절단의 절단 속도(3 mm/s)를 고려하면 레이저 절단면의 표면 morphology가 비교적 균일하고, 표면조도도 다이싱 절단의 경우와 큰 차이가 없기 때문에 어느 정도 만족할 만한 결과를 얻었다고 판단된다. 또한 레이저 절단된 기판의 굽힘 강도가 다이싱으로 절단된 기판의 굽힘 강도보다 동등하거나 약간 열세이었다. 그러나 향후 레이저의 절단 조건이 좀 더 최적화된다면 LED 모듈의 초고속 레이저 절단이 가능할 것으로 판단된다.

• Geomechanics and Engineering
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• 제13권5호
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• pp.861-879
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• 2017

Coal and gas outburst is a serious dynamic disaster that occurs during coal mining and threatens the lives of coal miners. Currently, coal and gas outburst is commonly predicted using single indicator and its critical value. However, single indicator is unable to fully reflect all of the factors impacting outburst risk and has poor prediction accuracy. Therefore, a more accurate prediction method is necessary. In this work, we first analyzed on-site impacting factors and precursors of coal and gas outburst; then, we constructed a Fisher discriminant analysis (FDA) index system using the gas adsorption index of drilling cutting ${\Delta}h_2$, the drilling cutting weight S, the initial velocity of gas emission from borehole q, the thickness of soft coal h, and the maximum ratio of post-blasting gas emission peak to pre-blasting gas emission $B_{max}$; finally, we studied an FDA-based multiple indicators discriminant model of coal and gas outburst, and applied the discriminant model to predict coal and gas outburst. The results showed that the discriminant model has 100% prediction accuracy, even when some conventional indexes are lower than the warning criteria. The FDA method has a broad application prospects in coal and gas outburst prediction.

• 한국기계가공학회지
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• 제21권1호
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• pp.22-27
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• 2022

In accordance with the growing trend of decommissioning nuclear facilities, research on the cutting process is actively proceeding worldwide. In general, a thermal cutting process, such as plasma cutting is applied to decommissioning a nuclear reactor pressure vessel (RPV). Plasma cutting has the advantage of removing the radioactive materials and being able to cut thick materials. However, when operating under water, the molten metal remains in the cut plane and re-solidifies. Hence, cutting is not entirely accomplished. For these environmental reasons, it is difficult to cut thick metal. The contact arc metal cutting (CAMC) process can be used to cut thick metal under water. CAMC is a process that cuts metal using a plate-shaped electrode based on a high-current arc plasma heat source. During the cutting process, high-pressure water is sprayed from the electrode to remove the molten metal, known as rinsing. As the CAMC is conducted without using a shielding gas, such as Argon, the electrode is consumed during the process. In this study, CAMC is introduced as a method for dismantling nuclear vessels and the relationship between the metal removal and electrode consumption is investigated according to the cutting conditions.

• 대한용접접합학회:학술대회논문집
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• 대한용접접합학회 1999년도 특별강연 및 춘계학술발표대회 개요집
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• pp.264-266
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• 1999

• 대한용접접합학회:학술대회논문집
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• 대한용접접합학회 2004년도 춘계 학술발표대회 개요집
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• pp.15-17
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• 2004

철강재의 산소절단은 연료가스의 연소열 및 철의 산화 반응열을 이용하여 강재를 절단하는 방법이다. 연료가스의 연소열을 이용하여 강재를 가열 및 용융시키고, 여기에 고순도의 산소를 취입하면 강재의 용융물질 중 철의 급격한 산화반응이 발생된다. (중략)

• Journal of Welding and Joining
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• 제30권1호
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• pp.51-58
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• 2012

To assess hydraulic connections between sub-components of the International Thermonuclear Experimental Reactor (ITER) diagnostic port plug, the laser welding and ablation cutting process were investigated in order to be applied the remote handling maintenance. In this study, laser ablation cutting, which vaporizes a small amount of solid material directly into gas by focusing a laser beam of high density energy, is adopted in order to overcome the limitation of the normal laser cutting technology that the head should be placed as close to the work piece as possible to blow out melt metal at a distance. Complete cutting of a work piece is obtained by repetitive multi-passes of the laser beam. The welding and cutting process were tested on the sample work pieces and finally on a prototype of a hydraulic connection module for remote handling. The results showed that this process can be a promising candidate for hydraulic connections by remote handling.