• The Journal of the Acoustical Society of Korea
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• v.34 no.3
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• pp.210-218
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• 2015

When the driving voltage of an ultrasound transducer is increased to improve the quality of ultrasound images, heat is generated inside the transducer that can cause patient's skin burn and degradation of transducer performance. Hence, in this paper, a method to disperse the heat of the transducer has been studied. The phased array transducer having 3 MHz center frequency and 32 channels was selected for analyses of the thermal dispersion. First, mechanism of the heat generation was investigated in relation to the transducer operation through theoretical analysis, and material damping and sound pressure amplitude were confirmed to be influential on the heat generation. Further, we investigated the effects of the properties of the materials constituting the transducer on the thermal dispersion through finite element analysis. Based on the analysis results, we determined the thermal properties of the constituent materials that could facilitate the thermal dispersion inside the transducer. The determined thermal properties were applied to the finite element model, and the results showed that the maximum temperature at an acoustic lens contacting with a patient was decreased to 51 % of its initial value.

• Journal of the Korean Society for Nondestructive Testing
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• v.24 no.4
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• pp.307-314
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• 2004

A circumferential guided wave method was developed to detect the axial crack on the bent feeder pipe. Dispersion curves of circumferential guided waves were calculated as a function of curvature of the pipe. In the case of thin plate, i.e. infinite curvature, as the frequency increases, the $S_0$ and $A_0$ mode coincide and eventually become Rayleigh wave mode. In the case of pipe, however, as the curvature increases, the lowest modes do not coincide even in the high frequencies. Based on the analysis, a rocking technique using angle beam transducer was applied to detect an axial defect in the bent region of PHWR feeder pipe. Based on the analysis of experimenal data for artificial notches, the vibration modes of each signal were identified. It was found that the notches with the depth of )0% of wall thickness can be detected with the method.

• Journal of the Korean Society for Precision Engineering
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• v.24 no.11
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• pp.22-28
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• 2007

• Proceedings of the Korean Institute of Surface Engineering Conference
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• 2011.05a
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• pp.149-150
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• 2011

미세화된 반도체 배선에 무전해 은도금을 적용하고자 새로운 Pd 활성화 공정을 제안하였다. 시편 표면에 작은 크기의 Pd 입자를 균일하게 분포시키기 위하여 Pd 활성화 도중 초음파을 가하였다. 추가적인 무전해 은 도금을 실시하여, 초음파에 의한 Pd 입자 분산이 은도금 피막 형성에 미치는 영향에 대하여 고찰하였다.

• Proceedings of the Korean Fiber Society Conference
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• 1998.10a
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• pp.344-347
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• 1998

유리섬유는 내열성, 절연성이 우수하고 고강도, 저신도이며 특히 고온에서 형태안정성이 우수하여 내열자재, 전자제품용 panel등에 널리 사용되고 있다. 유리섬유를 이용한 부직포 제조는 건식법보다는 수중에서 웹형성을 이루는 습식법이 주로 사용되어지고 있다. 그러나 유리섬유는 수중에서 섬유분산이 양호하지 못하고 수중에서 섬유가 축적되어 뭉치는 현상을 나타낸다. (중략)

• Korean Chemical Engineering Research
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• v.47 no.2
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• pp.208-212
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• 2009

The nano-clay is widely used in polymer-nanocomposites due to the high aspect ratio, heat resistance and nano-scale dimension. In recent researches, the thermal and mechanical properties of polyurethane foam were improved with introducing the nano-clay. In this study, we describe the influence of ultrasonic treatment and content of nano-clay on properties of polyurethane foam. The nano-clay/polyurethane foam were characterized using their recovery time, compressive deflection, cell morphology and tensile test. The ultrasonic treatment was very effective for dispersion of nano-clay. Moreover, we found that introducing over 3 wt% of nano-clay bring the decrease of properties due to the poor dispersion. Expecially, ultrasonically treated 20A/polyurethane foam(1 wt%) showed greatly improved properties, such as homogeneous cell size and good dimension stability. We expect that our results could be applied to insulating materials for construction.

• Polymer(Korea)
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• v.38 no.3
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• pp.378-385
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• 2014

Multiwall carbon nanotubes (MWCNTs) were modified with a water soluble polymer, poly(vinyl alcohol), PVA, using a simple ultrasonic wave in water. Under the irradiation of ultrasound, PVA chains were severed as macroradicals and instantly grafted onto the surface of MWCNTs due to the radical scavenging effect of MWCNTs. To control the grafting PVA onto MWCNTs, the ultrasonication power and irradiation time were changed from 300 to 500 W and from 10 to 50 min, respectively. The grafted PVA onto MWCNTs was confirmed by FTIR, TGA, SEM, and TEM. Dispersion stability of the modified MWCNTs was monitored by Turbiscan. The amount of grafted PVA on MWCNTs increased with the increase in the sonication power and irradiation time. The grafted PVA on MWCNTs induced the improved dispersion stability of the modified MWCNTs in water. These findings exhibit that ultrasound can be readily used for the grafting polymer chains on MWCNTs.

• Polymer(Korea)
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• v.28 no.3
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• pp.225-231
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• 2004

High intensity ultrasound was irradiated to induce mechano-chemical degradation during melt processing of polycarbonate (PC) and styrene-co-acrylonitrile (SAN) in an intensive mixer. It was found that macroradicals of PC and SAM can be generated during ultrasound assisted melt processing; which, in turn, provides a useful route to achieve in-situ compatibilization for the blends of PC and SAM by their mutual coupling. Effectiveness of compatibilization was assessed by investigating phase morphology and mechanical properties of the blends. It was observed that domain size was reduced and the stability of morphology was well maintained even after annealing treatment of the blends. In audition, the enhancement of mechanical properties such as elongation at break and tensile strength was evident, which added further confirmation on the desirable feature that sonication of melt-blends is able to enhance intermolecular interaction by promoting chemical bonds between dissimilar polymers without use of any compatibilizers.

• Journal of the Korean Crystal Growth and Crystal Technology
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• v.27 no.1
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• pp.34-41
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• 2017

In this study, the effect on the zinc nuclei crystallization caused by changes preprocessing of the zinc crystalline glaze preparation has been studied. The mechanism of the nuclei formation in the crystalline glaze and development of the nuclei by studying the preprocessing step was explained. The preprocessing step was improved by altering mixing process of the materials prior to sintering: number of sieving dispersion process and ultra-sonication prove tests with various duration of sonication. According to the result, the sieving and sonication of the starting materials facilitated the interface reactions of $ZnO-SiO_2$ from $680^{\circ}C$ where low temperature willemite is formulated, and altered Si bonding for the easier bonding between Zn-Si. In other words, solely sieving was enough to accelerate the formation of willemite in low temperature. When the particles were distributed evenly by sonication, the willemite formation was even more significant.

• Journal of the Korean Society for Aeronautical & Space Sciences
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• v.30 no.5
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• pp.88-93
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• 2002

The objective of this study is to obtain fundamental understandings involving the manufacturing process of nano-composite via resin transfer molding and explore the role of nano sized $Fe_2O_3$ particles in the epoxy/$Fe_2O_3$ nano-composites. To achieve this goal, following investigations have been conducted: Define the optimum dispersion technique of nano-particles, identify the effect of the nano-particles to the resin viscosity, characterize the key mechanical properties versus particle loading amounts, and explore the usefulness and quality improvement in nano-composites. These efforts will be useful for designers to quantify application payoffs and define a technology development roadmap for manufacturing nano-composites, and will help an engineering design and manufacturing nano-composites more efficiently by providing the design methodology.