• 한국기계가공학회지
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• 제21권2호
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• pp.123-129
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• 2022

Quartz (SiO2) has high abrasion and heat resistances and excellent chemical and mechanical properties; therefore, it is used in various industries, such as machinery, chemistry, optics, and medicine. Quartz is a high-hardness and brittle material and is classified as the topmost difficult-to-cut material, which is because of the cracking or chipping at the edge during processing. Corner wear, such as cracks and chippings that occur during cutting, is a major cause for the deterioration in the machining quality. Therefore, many researchers are investigating various techniques to process quartz effectively. However, owing to the mechanical properties of quartz, most studies have been conducted on grinding, micromachining, and microdrilling. Few studies have been conducted on quartz processing. The purpose of this study was to analyze the machining characteristics according to the machining factors during the slot machining of quartz using a cubic boron nitride (CBN) tool and to select the optimal machining conditions using the Taguchi method. The machining experiment was performed considering three process variables: the spindle speed, feed rate, and depth of cut. The cutting force and surface roughness were analyzed according to the processing conditions.

• Structural Engineering and Mechanics
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• 제80권5호
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• pp.503-522
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• 2021

This paper investigates experimentally and numerically the influence of drilling process on the mechanical and thermomechanical behaviors of woven glass fiber reinforced polymer (GFRP) composite plate. Through the experimental analysis, a CNC machine with cemented carbide drill (point angles 𝜙=118° and 6 mm diameter) was used to drill a woven GFRP laminated squared plate with a length of 36.6 mm and different thicknesses. A produced temperature during drilling "heat affected zone (HAZ)" was measured by two different procedures using thermal IR camera and thermocouples. A thrust force and cutting torque were measured by a Kistler 9272 dynamometer. The delamination factors were evaluated by the image processing technique. Finite element model (FEM) has been developed by using LS-Dyna to simulate the drilling processing and validate the thrust force and torque with those obtained by experimental technique. It is found that, the present finite element model has the capability to predict the force and torque efficiently at various drilling conditions. Numerical parametric analysis is presented to illustrate the influences of the speeding up, coefficient of friction, element type, and mass scaling effects on the calculated thrust force, torque and calculation's cost. It is found that, the cutting time can be adjusted by drilling parameters (feed, speed, and specimen thickness) to control the induced temperature and thus, the force, torque and delamination factor in drilling GFRP composites. The delamination of woven GFRP is accompanied with edge chipping, spalling, and uncut fibers.

• 한국산학기술학회논문지
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• 제16권10호
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• pp.7071-7077
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• 2015

최근 스마트폰, 태블릿 PC 및 전자기기 등의 사용이 증가함에 따라 커버글라스의 수요가 증가하고 있는 추세이다. 모바일 기기의 디스플레이가 대형화되면서 접촉이나 낙하 등과 같이 외부에서 힘을 받게 되는 환경에서 높은 강도를 유지하는 것이 요구되고 있다. 커버글라스 제작 공정에서 연마공정은 커버글라스의 표면거칠기 및 충분한 강도를 제공하는 중요한 공정이다. 기존 연삭 숫돌에 의한 가공방법은 커버글라스 가공표면에 스크레치, 칩핑, 노칭 및 마이크로 크랙 등의 가공 문제점이 발생한다. 따라서 본 연구에서는 모바일 커버글라스의 연마를 위해 연마필름을 이용한 폴리싱 시스템을 개발하였다. 구조적 안정성을 평가하기 위해 연마 필름 폴리싱 시스템에 대한 유한요소모델을 생성하였고 다물체 동역학 해석을 수행하였다. 연마 필름 폴리싱 시스템에 대한 응력 및 변위 해석을 통해 특성을 분석하였고 레이저 변위 센서를 이용해 제작된 시스템에 대한 변위를 측정하여 구조적 안정성에 대해 확인하였다.