• 제목/요약/키워드: 취성 모드

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경취 재료의 조면 연삭 기초

  • Korea Optical Industry Association
    • The Optical Journal
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    • s.99
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    • pp.64-68
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    • 2005
  • 유리나 파인 세라믹 등의 경취 재료를 연삭한 뒤의 특징은 지립의 최대 절입 깊이가 충분히 작은 경우, 바꿔말하면 파괴 단위가 극히 작은 경우에는 연성 모드적 연삭이 되고, 또 반대로 큰 경우에는 취성 모드적 연삭이 된다는 것이다. 보통 연성 모드적 연삭은 다듬질 연삭에, 그리고 취성 모드적 연삭은 조연삭에 적용되는 경우가 많다. 따라서 여기서는 치수·형상 정밀도를 유지하고 동시에 여분의 가공 공차를 매우 능률적으로 제거하는 것을 목적으로 한 경취 재료의 조면 연삭 기초에 대해 소개한다.

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Finite Element Analysis for the Failure Mode of Welded Flange-Bolted Web Connection (Welded Flange-Bolted Web 강접합부의 파괴모드 추정을 위한 유한요소해석)

  • 조창빈
    • Journal of the Earthquake Engineering Society of Korea
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    • v.3 no.4
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    • pp.33-46
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    • 1999
  • In spite of 6.8 magnitude and the neighborhood of the epicenter, the steel moment frame survived after Northridge earthquake without collapse or casualties. However, following investigation revealed that there were severe damages at the column-weld interface of welded flange-bolted web (WFBW) steel moment connection, which was believed to be economic and safe from earthquakes based on experience and past tests. In this paper, this unexpected brittle fracture of the steel moment connection is explored using linear elastic fracture mechanics and post-Northridge tests. A method to predict the brittle fracture strength of the steel moment connection is proposed. Using this method, the failure mode of the WFBW connection and reduced beam section (RBS) connection are presented.

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Effects of Reinforced Fibers on Energy Absorption Characteristics under Quasi-static Compressive Loading of Composite Circular Tubes (강화섬유에 따른 준정적 하중하에서 복합소재 원형튜브의 에너지 흡수특성 평가 연구)

  • Kim, Jung-Seok;Yoon, Huk-Jin;Lee, Ho-Sun;Choi, Kyung-Hoon
    • Composites Research
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    • v.22 no.6
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    • pp.32-38
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    • 2009
  • In this study, the energy absorption capabilities and failure modes of four different kinds of circular tubes made of carbon, Kevlar and carbon-Kevlar hybrid composites with epoxy resin have been evaluated. In order to achieve these goals, these tubes were fabricated with unidirectional prepregs and compressive tests were conducted for the tubes under 10mm/min loading speed. From the test results, carbon/epoxy tubes were collapsed by brittle fracturing mode and showed the best energy absorption capabilities, while Kevlar/epoxy tubes were crushed by local buckling mode and worst. The hybrid [$90_C/0_K$] tubes were failed in a local bucking mode and showed good post crushing integrity, whereas [$90_K/0_C$] tubes were failed in a lamina bending mode and bad post crushing integrity.

A study on the analysis of the failure probability based on the concept of loss probability (결손확률모델에 의한 파손확률 해석에 관한 연구)

  • 신효철
    • Transactions of the Korean Society of Mechanical Engineers
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    • v.15 no.6
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    • pp.2037-2047
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    • 1991
  • Strength is not simply a single given value but rather is a statistical one with certain distribution functions. This is because it is affected by many unknown factors such as size, shape, stress distribution, and combined stresses. In this study, a model of loss probability is proposed in view of the fact that one of the fundamental configuration of nature is hexagonal, for example, the shapes of lattice unit, grain, and so on. The model sues the concept of loss of certain element in place of Jayatilaka-Trustrum's length and angle of cracks. Using this model, the loss probability due to each loss of certain elements is obtained. Then, the maximum principal stress is calculated by the finite element method at the centroid of the elements under the tensile load for the 4,095 models of analysis. Finally, the failure probability of the brittle materials is obtained by multiplying the loss probability by the ratio of the maximum principal stress to theoretical tensile strength. Comparison of the result of the Jayatilaka-Trustrum's model and the proposed model shows that the failure probabilities by the two methods are in good agreement. Further, it is shown that the parametric relationship of semi-crack lengths for various degrees of birittleness can be determined. Therefore, the analysis of the failure probability suing the proposed model is shown to be promising as a new method for the study of the failure probability of birttle materials.

An Experimental study on Failure Mode of Space Frame's Ball joint connection (스페이스프레임의 볼조인트 접합부 파괴모드에 관한 실험적 연구)

  • Lee, Sung-Min;Kim, Min-Sook;Kim, Dae-Young;Song, Chang-Young;Kang, Chang-Hoon
    • Journal of Korean Association for Spatial Structures
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    • v.7 no.6
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    • pp.61-68
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    • 2007
  • The hole for the insertion of the pin in the shank is exist at ball joint connection of the space frame. It brings about the brittle fracture caused by stress concentration. Consequently it cannot expect the deformation performance or energy absorption performance from ball joint connection. In this study we developed a new connection details which will increase the plastic deformation performance at ball joint connection and can absorb the error in construction, which expect the plastic deformation performance at the reduced shank without brittle fracture at the screw of bolt and pin. Also it's capacity is verified by the performance in numerical analysis and test. We confirmed bolt's plastic deformantion performance through controled shank and pin's area.

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Mixed-Mode Fracture Analysis of Quasi-Brittle Material Considering Fracture Energy (파괴에너지를 고려한 유사취성재료의 혼합모드 균열해석)

  • Lim, Yun-Mook;Kim, Moon-Kyum;Cho, Seok-Ho;Shin, Seung-Kyo
    • Journal of the Korea institute for structural maintenance and inspection
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    • v.6 no.4
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    • pp.129-137
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    • 2002
  • In this study, mixed-mode fracture behavior is simulated effectively through the numerical method using the axial defomation link elements which can predict the behavior of quasi-brittle material. The behavior of quasi-brittle material is modeled numerically using the exponential tension softening constitutive equation and verified by comparing with the result of published experimental result. In order to verify the mixed-mode fracture behavior through the developed numerical method, analysis of mode I is formulated and the result is compared with those of FEM first, and then mixed-mode analysis is analyzed and compared with existing theories and experimental data. Also the characteristics of fracture behavior is examined through the analysis of crack generation with respect to various mode mixity.

A Study on Failure Mechanisms of Composite Tubes with Woven Fabric Carbon, Glass and Kevlar/epoxy Under Compressive Loadings (직조된 탄소, 유리 및 케블라 섬유 복합소재 튜브의 압축하중하에서 파손 메커니즘 분석 연구)

  • Kim, Jung-Seok;Yoon, Hyuk-Jin;Lee, Ho-Sun;Kwon, Tae-Soo
    • Journal of the Korean Society for Railway
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    • v.12 no.4
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    • pp.590-596
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    • 2009
  • In this study, the failure modes and energy absorption characteristics of four different kinds of circular tubes made of carbon, glass, Kevlar and carbon-Kevlar hybrid fibres composites with epoxy resin have been evaluated. To achieve these goals, compressive tests were conducted for the tubes under 10mm/min loading speed. Based on the test results, the carbon/epoxy tube showed the best energy absorption capability, while carbon-Kevlar/epoxy tubes were worst. In the failure mode during crushing, both of the carbon/epoxy tubes and the glass/epoxy tubes were crushed by brittle fracturing mode. The Kevlar/epoxy tubes were collapsed by local buckling mode like steel, while the carbon-Kevlar hybrid tubes were collapsed by mixed mode of local buckling and lamina bending.

Calculation of Expected Life of Hydrogen Pressure Vessels by Fracture and Fatigue Mechanics assuming Semi-elliptical Cracks and Analysis of the Effect of Thickness and Radius (반타원형 균열을 가정한 파괴 및 피로역학에 의한 수소 압력용기의 예상 수명 계산과 두께와 내경이 미치는 영향 분석)

  • Kim, Jeong Hwan;Lee, Hwa Young;Lee, Min-Kyung;Lee, Jae-Hun;Lyu, Geunjun
    • Journal of the Korean Institute of Gas
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    • v.25 no.6
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    • pp.53-65
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    • 2021
  • While the hydrogen refueling station is rapidly expanded and installed, the safety inspection of the hydrogen pressure vessel in the station should be very important. Of these, according to ASME, hydrogen embrittlement tests must be performed for hydrogen vessel that store hydrogen above a certain pressure. The main test method for hydrogen embrittlement inspection is to carry out fracture tests and fatigue fracture tests in a high pressure hydrogen atmosphere, which allows the durability limit of the pressure vessel to be measured and the endurable limit to be determined in the hydrogen atmosphere. In detail, the critical crack depth can be calculated by the stress intensity factor(K), and the service life can be determined by da/dN (fatigue growth rate). API579-1/ ASME FFS-1 part 9 exemplifies the calculation method according to the mode of crack-like flaws, but for various shapes such as plates and cylinders, there are about 55 modes according to the shape and location of the crack. Due to the fairly complex formula, it is not easily accessible. In this study, we will show you how to calculate fracture mechanics numerically via Excel and VBA. In addition, this was applied to analyze the effects of the thickness and inner diameter of the pressure vessel on the service life.