• Proceedings of the KIEE Conference
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• 1995.07c
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• pp.1437-1439
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• 1995

This paper investigates the effect of thermal oxidation on the profile of the residual stress along the depth of p+ silicon films by quantitative determination method. Two examples for the application of this method illustrate that most of p+ region is subjected to the tensile stress except the region near the front surface and that the stress gradient of the film oxidized at $1100^{\circ}C$ is more steep than that of the film oxidized at $1000^{\circ}C$.

• Proceedings of the Korean Society for Technology of Plasticity Conference
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• 2003.10a
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• pp.355-358
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• 2003

To estimate the residual stresses in the thin film and surface coatings, combined method based on nanoindentation and finite element (FE) analysis was developed. A simple equation for estimating the residual stress was composed of the hardness and the parameters which can be driven from the nanoindentation loading and unloading behaviors. FE analysis on the nanoindentation procedure under the various residual stress levels was performed to determine the parameters that included in the equation. The equation showed a good coincidence between the estimated residual stresses and those for the FE analysis. Thus the proposed method was considered as a useful method for estimating the residual stresses in the thin film without stress free specimen.

• Proceedings of the KIEE Conference
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• 1994.07a
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• pp.72-75
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• 1994

In this paper, a novel method to figure out the relative residual stress distribution along the depth of silicon diaphragms is presented Cantilevers with various thickness are fabricated by the time controlled etching method using EPW as an etchant. The boron concentration along the depth of the cantilevers is obtained by the TSUPREM IV simulation, and the etching time to get the proper thickness is calculated. By measuring deflections of the p+ silicon cantilevers the stress profile along the depth of diaphragm is calculated. The obtained stress profile is reasonable and useful to expect the deflection of cantilevers and the buckling of diaphragms.

• Proceedings of the KIEE Conference
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• 1998.07g
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• pp.2521-2523
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• 1998

Freestanding flexible microstructures fabricated from deposited thin films become mechanically unstable when internal stresses exceed critical values. The residual stress and stress gradient of aluminum thin film were examined to make sure of fabricating the reproduceable aluminium structure. For good shape of micro mirror array and microstructures, the experiment was done varying thickness and deposition rate. As the aluminium film thickness increased from 0.8${\mu}m$ to 1.6${\mu}m$, the stress gradient decreased from 11.62MPa/${\mu}m$ to 2.62MPa/${\mu}m$. The residual stress values are from 42.4MPa to 62.24MPa of tensile stresses.

• Journal of Adhesion and Interface
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• v.3 no.4
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• pp.37-43
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• 2002

A number of thin-film deposition technologies have been developed. However, even a thin film whose properties are excellent may not be used as long as the adhesion strength between the thin film and the substrate is poor. For thin films, the adhesion strength is as important as the properties. In the present article, relation between interface structure and thin film adhesion, and factors affecting thin film adhesion are reviewed. Two kinds of factors, internal factors and external factors, affect thin film adhesion. Such factors as composition, structure, and reactivity of both thin film and substrate as well as surface roughness of the substrate and residual stress of the thin film belong to internal factors. And such factors as load, temperature, humidity, and corrosive environment belong to external factors. It is also reviewed that how we can control the internal factors and the external factors to enhance or keep the adhesion strength.

• Transactions of the Korean Society of Mechanical Engineers A
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• v.29 no.4 s.235
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• pp.526-533
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• 2005

Reliability problem in inkjet printhead, one of MEMS devices, is also very important. To eject an ink drop, the temperature of heater must be high so that ink contacting with surface reaches above $280^{o}C$ on the instant. Its heater is embedded in the thin multi-layer in which several materials are deposited. MEMS processes are the main sources of residual stresses development. Residual stress is one of the factors reducing the reliability of MEMS devices. We measured residual stresses of single layers that consist of multilayer. FE analysis is performed using design of experiment(DOE). Transient analysis for heat transfer is performed to get a temperature distribution. And then static analysis is performed with the temperature distribution obtained by heat transfer analysis and the measured residual stresses to get a stress distribution in the structure. Although the residual stress is bigger than thermal stress, thermal stress is more influential on fatigue life.

• Proceedings of the Korean Vacuum Society Conference
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• 1999.07a
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• pp.139-139
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• 1999

다이아몬드는 지구상에서 가장 단단한 물질로 잘 알려져 있을 뿐만 아니라 공업적 측면에서 볼 때, 여러 가지 특출한 성질들을 동시에 지니고 있다. 인장강도, 압축강도, 탄성계수 등 기계적 특성이 우수하고 넓은 광투과성과 내열, 내화학, 내방사성을 지니고 있으며, 열전도율이 높고 전기적으로 절연체이다. 또한 hole이동도가 높고 도핑에 의해서 반도체적 특성을 나타낸다. 이와 같이 매우 뛰어난 성질을 공업적으로 응용하기 위하여 이전부터 많은 연구가 행해져 왔으며, 1980년대에 들어와 박막이나 코팅 형태로의 합성이 가능한 기상합성법이 큰 발전을 보임으로써 다이아몬드의 우수한 특성을 여러 분야에서 폭넓게 응용할 수 있게 되었다. 특히 마찰 응용분야에 최적의 재료로 추천되고 있다. 지금도 Epitaxial 다이이몬드를 기지 위에 성장시키고 다결정질박막을 여러 가지 비다이아몬드(Si, W, Mo 등) 기지 위에 성장시키는 연구가 계속되고 있으며 공구강 위엥 경질코팅으로써 한층 개선된 다이아몬드박막 제조를 위한 수많은 연구노력들이 집중되고 있다. 그러나 일반탄소강에 다이아몬드박막을 성장시키기 위한 많은 노력들은 크게 바람직하지 않은 non-diamond carbon(black carbon or graphitic soot)의 형성 때문에 방해를 받고 있다. 계면에서 이들의 형성은 증착된 다이아몬드박막과 금속기지의 저조한 밀착력을 나타내게 된다. 이외 같이 다이아몬드박막의 응용을 위하여 다이아몬드피막에 요구되는 중요한 조건은 기지에 대해서 강한 밀착력을 나타내는 것이며, 동시에 상대물에 대하여 낮은 마찰계수를 가져야 한다. 그러나 다이아몬드와 금속기지는 서로 다른 열챙창계수(각각 0.87$\times$10-6K-1, 12$\times$10-6K-1)의 차이로 인하여 밀착력이 현저히 떨어진다는 단점으로 인해 산업화에 많은 제약을 받아왔다. 이러한 문제점을 해결하기 위하여 본 연구에서는 다이아몬드박막과 금속기지 사이에 중간층을 이용하는 방법을 제안하였다. 이러한 시도는 일반적으로 중간층 형성 금속인 Ti 또는 TiN 등이 적용되었으나 원하는 결과를 얻지 못하였다. 즉 carbon과 Fe의 상호확산, non-diamond carbon상의 형성 그리고 열잔류응력을 완화시키고 일반탄소강 위에 다이아몬드박막을 형성시켜 우수한 밀착력을 얻기 위한 목적에 미흡하였던 것이다. 이에 중간층으로 Cr 또는 Cr계 화합물 박막을 이용하였는 바, 이 중간층을 이용한 결과 우수한 밀착력을 나타내는 다이아몬드박막을 얻었으며 열적, 구조저으로 모재와 다이아몬드에 적합한 결과를 얻을 수 있었다. 본 연구에 의해 얻어진 결과들은 재료 가공을 위하여 높은 경도와 내마모성등이 요구되는 절삭공구나 금형의 수명 향항에 크게 기여할 것이며 산업적으로 큰 응용이 기대된다.

• The Journal of the Convergence on Culture Technology
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• v.8 no.2
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• pp.337-342
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• 2022

Although printing technology has recently been widely used in IT fields including displays and fuel cells, residual and thermal stress are generated by a manufacturing process of stacking the layers of the print head and result in the substrate deformation and nozzle plate crack, which may cause ink leaks or not be ejected onto a desired region. Therefore, in this paper, we propose a new design of thermal inkjet print head with a robust and reliable structure. Diverse types of inkjet print head such as a rib, pillar, support wall and individual feed hole are designed to reduce the deformation of the substrate and nozzle plate, and their feasibility is numerically investigated through FEA analysis. The numerical results show that the maximum stress and deformation of proposed print head dramatically drops to at least 40~50%, and it is confirmed that there is no nozzle plate cracks and ink leakage through the fabrication of pillar and support wall typed print head. Therefore, it is expected that the proposed head shape can be applied not only to ink ejection in the normal direction, but also to large-area printing technology.

• Journal of the Korean Vacuum Society
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• v.21 no.6
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• pp.328-332
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• 2012

The work function of Ag (silver) is too low (~4.3 eV) to be used as an electrode of T-OLED (Top Emission Organic Light Emitting Diode). To solve this weakness, researches used plasma-, UV-, or thermal treatment on Ag films in order to increase the work function (~5.0 eV). So, most of studies have focused only on the work function of various treated Ag films, but studies focusing on nanomechanical properties were very important to investigate the efficiency and life time of T-OLED etc. In this paper, we focused on the mechanical properties of the Ag and $AgO_x$ film. The Ag was deposited on a glass substrate with the thickness of 150 nm by using rf-magnetron sputter with the power was fixed at 100 W and working pressure was 3 mTorr. The deposited Ag film was UV treated by UV lamp for several minutes (0~9 min). We measured the sheet resistance and mechanical property of the deposited film. From the experimental result, there were some differences of the sheet resistance and surface hardness of Ag thin film between short time (0~3 min) and long time UV treatment. These result presumed that the induced stress was taken place by the surface oxidation after UV treatment.

• Journal of the Korean Electrochemical Society
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• v.18 no.1
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• pp.7-16
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• 2015

Effects of chemical composition ($Cu^{2+}$, $K_4P_2O_7$ and additive concentrations) of baths on properties of Cu thin films electrodeposited from pyrophosphate copper bath were investigated. Current efficiency was increased to be near 100% with increasing $Cu^{2+}$ concentrations from 0.02 to 0.3M. Decrease of current efficiency was observed in the range of 1.5~1.8M $K_4P_2O_7$ concentration, but current efficiency of about 100% was measured in the ranges of both 0.9~1.3M and 2.1~2.4M. The change of additive concentration did not influenced current efficiency. Residual stress of electrodeposited Cu thin films was measured to be about 20 MPa below 0.15 M $Cu^{2+}$ concentration and increased with the increase of it to 0.25 M. Maximum residual stress of 120MPa was observed at 0.25M $Cu^{2+}$ concentration. On the other hand, residual stress decreased from 80 to near 0 MPa as $K_4P_2O_7$ concentration varied from 0.9 to 2.4M and but The change of additive concentration did not affected on residual stress. $Cu^{2+}$ and $K_4P_2O_7$ concentrations significantly affect on surface morphology of electrodeposited Cu thin films, but additive concentration slightly affected. From XRD analysis, the microstructures of electrodeposited Cu thin film was affected from the changes of $Cu^{2+}$ and $K_4P_2O_7$ concentrations, but not from that of additive concentration. Strong preferred orientation of (111) peak was observed with increasing $Cu^{2+}$ and $K_4P_2O_7$ concentrations.