• Journal of Dental Rehabilitation and Applied Science
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• v.30 no.2
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• pp.102-111
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• 2014

Purpose: Surface damage and bonding strength difference after micromechanical treatment of zirconia surface are to be studied yet. The aim of this study was to evaluate the difference of fracture resistance and bonding strength between more surface-damaged group from higher air-blasting particle size and pressure, and less damaged group. Materials and Methods: Disk shape zirconia ($LAVA^{TM}$) was sintered and air-blasted with $30{\mu}m$ particle size (Cojet), under 2.8 bar for 15 seconds, $110{\mu}m$ particle size (Rocatec), under 2.8 bar for 15 seconds, and $110{\mu}m$ particle size (Rocatec), under 3.8 bar for 30 seconds respectively. Biaxial flexure test and bonding failure load test were performed serially (n = 10 per group). For bonding test, specimens were bonded on the base material having similar modulus of elasticity of dentin with $200{\mu}m$-thick resin cement for tension of surface damage. Failure load of bonding was detected with acoustic emission (AE) sensor. Results: There were no significant differences both in the biaxial flexure test and bonding failure load test between groups (P > 0.05). Sub-surface cracks were all radial cracks except for two specimens. Conclusion: Within the limitations of no aging under monotonic load test, surface damage from higher air-blasting particle size and pressure was not significant. Evaluations of failure load with bonded zirconia disks was clinically relevant modality for surface damage and bonding strength, simultaneously.

• Journal of the Korean Geotechnical Society
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• v.25 no.10
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• pp.17-30
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• 2009

Underground construction such as tunneling can induce damages on the surrounding rock mass, due to the stress concentration of in situ stresses and excessive energy input during construction sequence, such as blasting. The developed damage on the rock mass can have substantial influence on the mechanical and hydraulic behaviors of the rock masses around a tunnel. In this study, investigation on the generation of damage around an opening in a jointed rock model under biaxial compression condition was conducted. The joint dip angles employed are 30, 45, and 60 degrees to the horizontal, and the synthetic rock mass was made using early strength cement and water. From the biaxial compression test, initiation and propagation of tensile cracks at norm to the joint angle were found. The propagated tensile cracks eventually developed rock blocks, which were dislodged from the rock mass. Furthermore, the propagation process of the tensile cracks varies with joint angle: lower joint angle model shows more stable and progressive tensile crack propagation. The development of the tensile crack can be explained under the hypothesis that the rock segment encompassed by the joint set is subjected to the developing moment, which can be induced by the geometric irregularity around the opening in the rock model. The experiment results were simulated by using discrete element method PFC 2D. From the simulation, as has been observed from the test, a rock mass with lower joint angle produces wider damage region and rock block by tensile cracks. In addition, a rock model with lower joint angle shows progressive tensile cracks generation around the opening from the investigation of the interacted tensile cracks.

• Tunnel and Underground Space
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• v.34 no.2
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• pp.169-184
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• 2024

This study investigates acoustic emission (AE) and micro-deformation characteristics of circular openings through biaxial compression experiments. The experimental results showed a significant increase in the frequency, count, energy, and amplitude of AE signals immediately before damage occurred in the circular opening. The differences in frequency and count between before and after damage initiation were significantly pronounced, indicating suitable factors for identifying damage occurrence in circular openings. The results for digital image correlation (DIC) technique revealed that micro-deformation was concentrated around the openings, as evidenced by the spatial distribution of strain. In addition, spalling was observed at the end of the experiments. The AE and micro-deformation characteristics presented in this study are expected to serve as fundamental data for evaluating the stability of underground openings and boreholes for deep subsurface projects.

• Journal of the Korea Concrete Institute
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• v.15 no.1
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• pp.125-133
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• 2003

• Proceedings of the Korean Fiber Society Conference
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• 2002.04a
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• pp.231-234
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• 2002

신발산업은 최근의 소비자들의 생활양식이 변화하면서 목적에 따른 다양한 요구를 수용하기 위한 노력을 기울이고 있다. 특히 신발을 착용할 때 요구되는 고도의 기능성 및 쾌적성은 이미 보편화된 요구조건이다. 이러한 관점에서 천연피혁제품은 다양한 기능성을 부여하는데 많은 제약을 받기 때문에 신발소재로서 합성피혁의 비중은 급속히 증가하고 있으며, 이와 관련한 연구는 주로 기능성 및 내구성을 부여하는데 초점을 두고 있다[1]. (중략)

• Proceedings of the Korean Fiber Society Conference
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• 2002.04a
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• pp.89-92
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• 2002

편성물은 신축성이 좋으므로 의류용 소재로써 다양하게 사용되어지고 있다. 편성물의 장점으로는 직물과는 달리 루프 형태로 얽힌 편환으로 구성되어 있기 때문에 제편 과정에서 필요한 형태로의 성형이 용이해서 제품의 다양화를 기대할 수 있다. 뿐만 아니라 신축성과 유연성, 다공성, 구김안정성 등이 우수하여 인체의 여러 가지 활동에 따른 구속감이 적으며 인체의 굴곡을 아름답게 나타내어 주는 등의 장점이 있어 의복 소재로써 차지하는 비중이 높다. (중략)

• Proceedings of the Korean Society of Precision Engineering Conference
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• 1993.10a
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• pp.666-671
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• 1993

Fatigue life prediction under multi-axial variable load were performed for Aluminium 7075-T651 alloy using SAE Notched specimen & Torque tube shaft component specimen. When variable multiaxial load is applied to material, maximum damaged plane(critical plane) change. To clarify the situation, experiment is performed on two different changing load path. For multiaxial fatigue life prediction, miner rule is expanded to critical plane theory. Shear based parameter and Elliptical parameter give better correlation. This suggests that miner rule can be applicable on multi-axial variable load.

• Proceedings of the Korean Institute of Industrial Safety Conference
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• 2003.10a
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• pp.176-179
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• 2003

범용 엔지니어링 플라스틱(Engineering plastic)인 PET(Polyethylene terephthalate)수지는 투명성, 강도특성, 내열특성, 기체차단성 등 물성이 우수하여 합성섬유, 이축연신 film, 식음료용 bottle 등의 용도로 널리 사용되는 적용범위가 매우 넓은 고분자 소재이다. 그러나 폐기된 PET 수지를 물질재활용(material recycling) 방법으로 재가공할 경우 수지 자체가 갖는 가수분해(hydrolysis)와 열분해(thermal degradation) 특성으로 인해 가공성 및 기계적 특성이 현저히 저하되는 단점이 있다.(중략)

• Proceedings of the Korean Nuclear Society Conference
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• 1996.05c
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• pp.277-283
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• 1996

최종 pilgering 단계에서의 가공량이 서로 다른 Zircaloy-4 피복관을 대상으로 350-50$0^{\circ}C$, 원주응력 80-150 N/$\textrm{mm}^2$의 이축응력 조건에서 크립시험이 수행되었다. Zircaloy-4 피복관의 크립변형률 및 크립변형량은 최종 pilgering 단계에서의 가공량에 비례하여 커졌다. 이를 토대로 크립모델 제시되었으며 제시된 모델은 Zircaloy-4 피복관의 크립거동을 매우 잘 모사하였다. Zircaloy-4 피복관의 크립활성화 에너지는 $\alpha$-zirconium에서의 자기확산의 활성화에너지 값과 거의 동일한 60 Lcal/mole 이므로, 크립지배기구는 전위상승이다. 따라서 가공량에 따라 크립변형률 및 크립변형률의 증대는 가공량에 따른 기지상내의 점결함의 증가 때문으로 사료된다.

• Proceedings of the Optical Society of Korea Conference
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• 2003.02a
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• pp.222-223
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• 2003

As laser pulse width becomes shortened from nanoseconds to femtoseconds, the effects caused by the dispersions of nonlinear optical mediums, such as group velocity mismatch and group velocity dispersion become considerably significant. The group velocity mismatch and group velocity dispersion are the major factors that lead to a decrease of frequency conversion efficiency and pulse spreading for picosecond and femtosecond pulses. (omitted)