• Composites Research
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• 제19권4호
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• pp.31-38
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• 2006

본 연구에서는 열탄성 해석과 복합재/알루미늄 링시편 실험을 통해 성형 온도와 자긴 압력이 복합재와 알루미늄 라이너로 구성된 Type 3 극저온 추진제 탱크에 미치는 영향을 살펴보았다. 우선 Type 3 탱크의 온도분포를 구한 뒤 이를 경계조건으로 사용하여 성형온도와 자긴 압력의 영향을 고려한 탄성해석을 수행하였다. 그 결과 복합재의 성형온도가 증가할수록 복합재와 알루미늄 라이너에 각각 잔류압축응력과 잔류인장응력이 증가하였다. 한편 자긴 압력은 극저온 환경에 의해 유발된 잔류열응력의 감소를 초래하였으며 자긴 압력의 크기가 증가할수록 이러한 경향은 두드러졌다. 이러한 성형 온도와 자긴 압력의 영향은 Type 3 극저온 추진제 탱크의 설계 및 제작 단계에 반드시 고려되어야 한다.

• 한국윤활학회:학술대회논문집
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• 한국윤활학회 1989년도 제10회 학술강연회초록집
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• pp.69-72
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• 1989

구형의 압자를 유리평판 위에 올려 놓고 미끄럼 시험을 할 때 하중이 임계치보다 크면 유리평판 표면에 소위 "semi-circular cone-crack(SCCC)"들이 형성된다. 그리고 이 SCCC형성에 필요한 임계하중은 유리의 강도에 의하여 결정된다. 한편 소석회 유리에서 크기가 작은 이온인 $Na^+$를 큰 이온인 $K^+$로 대치시켜주는 경우 시편표면에 잔류압축응력이 생성되어 강도가 크게 증가한다. 따라서 유리의 내마모성도 이온교환을 하면 크게 향상될 것임을 예측할 수 있다. 본 연구의 목적은 이 예측을 실험적으로 확인하는 것이다. 확인하는 것이다.

• 대한조선학회논문집
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• 제28권1호
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• pp.150-168
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• 1991

본 연구에서는 압축최종강도(壓縮最終强度)를 기준으로 한 이중갑판구조(二重甲板構造)의 실용적인 안전성(安全性) 및 신뢰성(信賴性) 평가법을 제안한다. 이를 위하여 선체상갑판(船體上甲板)에 작용하는 압축응력(壓縮應力)을 기존의 선급규정에 의해 근사적으로 추정하며, 압축최종강도(壓縮最終强度)는 이상화구조요소법(理想化構造要素法)을 적용하여 해석한다. 초기(初期)처짐 및 잔류응력(殘留應力)의 영향과 국부좌굴(局部挫屈) 및 전체좌굴(全體挫屈)의 상관효과(相關效果)를 고려한 이상화판요소(理想化板要素)를 정식화한다. 이상화판요소(理想化板要素)의 정도(精度)와 유용성(有用性)은 단위(單位) 판부재(板部材) 및 상자형 용접구조물(熔接構造物)에 대한 기존의 실험결과(實驗結果) 또는 유한요소해석결과(有限要素解析結果)와 비교하여 확인한다. 본 제안법을 이중선각구조설계(二重船殼構造設計)개념하에서 설계된 정유운반선(精油運搬船)의 갑판구조(甲板構造)의 안전성(安全性) 및 신뢰성평가(信賴性評價)에 적용하고, 초기처짐, 잔류응력(殘留應力)등의 영향과 고장력강(高張力鋼)을 사용한 경우의 효과등에 대해 고찰한다.

• 한국해양공학회:학술대회논문집
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• 한국해양공학회 2001년도 추계학술대회 논문집
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• pp.247-252
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• 2001

Recently the steel parts used at automobiles are required to be used under high stress more than ever before in need of the weight down. To achieve this requirement of a high strength steel, it must be necessary to decrease inclusion content and surface defect as like decarburization, surface roughness etc.. In this study, the surface conditions are measured to know the influence on fatigue properties by two cases of shot peening of two-stage shot peening and single-stage shot peening. And for this study, two kinds of spring steel (SUP7, 50CrV4) are used. This study shows the outstanding improvement of fatigue properties at the case of two-stage shot peening in the rotary bending fatigue test and this is assumed to be from on low stress condition, the 1st stage shot peening is not affected by nonmetallic inclusion under metal. it is possible that the 2nd stage shot peening increases the fatigue life and the high stress but that is affected by nonmetallic inclusion under metal. so far beeasily 50CrV4 have made high stress. But, results also show fatigue failures originated at inclusion near surface, and this inclusion type is turned out to be a alumina of high hardness.

• 한국해양공학회지
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• 제13권4호통권35호
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• pp.55-62
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• 1999

Cold rolled steel has much plastic strain in the material surface produced by manufacturing process. The strain causes the variation of surface residual stress, in which influences the fatigue behavior under repeated loading. As experimental results, it was confirmed that the behavior of residual stress ${\sigma}_r$, with cycle N consisted of three stages except stress amplitude near fatigue limit in SPCC steel. On the first stage compressive residual stress decreased rapidly, on the second stage gradually, and on the last stage slightly. The relation between ${\sigma}_r$, and log N appeared linear behavior except the early part of cycle ratio $N/N_f$. The average gradient of ${\sigma}_r$, with respect to log N seemed to take a constant value without initial cycle ratio. On the other hand, the $N_f$ line was regressed by the first-order polynomial equation on ${\sigma}_r-log\;N_f$ diagram. Therefore, this study showed that both the gradient of ${\sigma}_r$, with respect to log N and the $N_f$ line was useful in predicting the cycle ratio $N/N_f$.

• 한국자동차공학회논문집
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• 제18권6호
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• pp.38-45
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• 2010

Welding structures are designed to endure its expected life. The most important factors are life. Especially on welded structure, fatigue strength is critical. So this study performed a research on Box and T shape weldment specimen to examine the influence of welding type. In this experiment, the results indicate Box shape was available in more than T shape. Fatigue tests were performed to evaluate the fatigue strength of the both as-welded and statically pre-loaded specimens by 3 point bending load. Fatigue life can be improved by using Ultrasonic Impact Treatment(UIT) effect. Ultrasonic Impact Treatment(UIT) is excellent for eliminating the tensile residual stresses and generating compressive residual stresses which elevate fatigue strength of welded structures. Also, this shows that welding part has better fatigue life and welding was performed well. In this study, to evaluate the Ultrasonic Impact Treatment(UIT) effect, for welding structure, the experiment was conducted at various levels of stress range between 100MPa and 500MPa. From the test results, it was indicated that fatigue performance was improving by Ultrasonic Impact Treatment(UIT)

• 동력기계공학회지
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• 제5권4호
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• pp.67-73
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• 2001

Recently the steel parts used at automobiles are required to be used under high stress more than ever before in need of the weight down. To achieve this requirement of a high strength steel, it must be necessary to decrease inclusion content and surface defect as like decarburization, surface roughness etc.. In this study, the surface conditions are measured to know the influence on fatigue properties by two cases of two-stage shot peening iud single-stage shot peening for two kinds of spring steel(SUP7, SAE9254). This study shows the outstanding improvement of fatigue properties at the case of two-stage shot peening in the rotary bending fatigue test and this is assumed to be from decreasing the surface roughness unchanging the surface hardness increasing the compressive residual stress. Results also show fatigue failures originated at inclusion near surface, and this inclusion type is turned out to be a alumina of high hardness.

• 한국생산제조학회지
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• 제19권4호
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• pp.539-547
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• 2010

Laser shock peening is useful to improve fatigue characteristic of multiple number of metals and alloys. This process induces a compressive residual stress on the metal surface, and when tensile load is applied, growth of crack is delayed and which changes the characteristic of the metal surface. It is an innovative surface treatment technique for strengthening metals. Specimens of SM45C are used in this study. The effect of an inertial tamping layer on the residual stress field using laser shock peening setup and Nd:YAG laser power is evaluated. Residual stress distribution measured by X-ray diffraction. As a result of this study it can be presented that following condition of Nd:YAG laser power and inertial tamping layer parameters, compressive residual stress is generated on the surface of the SM45C. Results to experimental data indicate that laser shock peening has great potential as a means of improving the mechanical performance of the metal surface.

• 한국해양공학회:학술대회논문집
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• 한국해양공학회 2002년도 추계학술대회 논문집
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• pp.366-372
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• 2002

Recently the steel parts used at automobiles are required to be used under high stress more than ever before in need of the weight down. To achieve this requirement of a high strength steel, it must be necessary to decrease inclusion content and surface deject as like decarburization, surface roughness etc.. In this study, the surface conditions are measured to know tile influence on fatigue properties by two cases of shot peening of two-stage shot peening and single-stage shot peening. And for this study, three kinds of spring steel (JISG4081-SUP7,SAE 9254, DIN 50CrV4, ) are made. This study shows the outstanding improvement of fatigue properties at tire case of two-stage shot peening in the rotary bending fatigue test and this is assumed to be from (1) Decreasing the surface roughness (2) Unchanging the surface hardness (3) Increasing the compressive residual stress But, results also show fatigue failures originated at inclusion near surface, and this inclusion type is turned out to be a alumina of high hardness.

• 한국세라믹학회지
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• 제36권1호
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• pp.21-29
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• 1999

흑연 기판에 탄화규소 전환층을 형성하는데 있어서 기판의 밀도와 기공 크기 분포의 영향이 조사되었다. 전환층형성을 위한 화학 반응은 기판의 표면 또는 표면 하부에서 SiO 기체의 침투를 통해 이루어졌다. 전환 공정 동안 기판 표면에서의 충분한 양의 SiO 기체 침투 및 연속적인 화학반응에 요구되는 기공크기 분포는 1.0~10.0$\mu\textrm{m}$ 범위인 것으로 추정되엇다. 유한요소법에 의한 탄화규소 층의 응력 해석에서는 열적 불일치에 기인하는 잔류응력 분포를 나타냈다. 그러나. X-선 회절에 의해 탄화규소 층에서는 압축응력이 측정되었으며, 탄화규소 층에서의 잔류응력 분포에 대해 SiC 층과 흑연 기판간의 interlayer의 constraining 효과, 전환층의 치밀화 거동 및 입자성장에 의해 주로 영향받는 것으로 추정되었다.