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      고체로켓 케이스 내압파열 고장모드의 신뢰도예측 = Reliability Prediction of Failure Modes due to Pressure in Solid Rocket Case

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      https://www.riss.kr/link?id=A101121978

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      다국어 초록 (Multilingual Abstract)

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      In this paper, an efficient technique is developed to predict failure probability of three failure modes(case rupture, fracture and bolt breakage) related to solid rocket motor case due to the inner pressure during the mission flight. The overall procedure consists of the steps: 1) design parameters affecting the case failure are identified and their uncertainties are modelled by probability distribution, 2) combustion analysis in the interior of the case is carried out to obtain maximum expected operating pressure(MEOP), 3) stress and other structural performances are evaluated by finite element analysis(FEA), and 4) failure probabilities are calculated for the above mentioned failure modes. Axi-symmetric assumption for FEA is employed for simplification while contact between bolted joint is accounted for. Efficient procedure is developed to evaluate failure probability which consists of finding first an Most Probable Failure Point(MPP) using First-Order Reliability Method(FORM), next making a response surface model around the MPP using Latin Hypercube Sampling(LHS), and finally calculating failure probability by employing Importance Sampling.
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      In this paper, an efficient technique is developed to predict failure probability of three failure modes(case rupture, fracture and bolt breakage) related to solid rocket motor case due to the inner pressure during the mission flight. The overall proc...

      In this paper, an efficient technique is developed to predict failure probability of three failure modes(case rupture, fracture and bolt breakage) related to solid rocket motor case due to the inner pressure during the mission flight. The overall procedure consists of the steps: 1) design parameters affecting the case failure are identified and their uncertainties are modelled by probability distribution, 2) combustion analysis in the interior of the case is carried out to obtain maximum expected operating pressure(MEOP), 3) stress and other structural performances are evaluated by finite element analysis(FEA), and 4) failure probabilities are calculated for the above mentioned failure modes. Axi-symmetric assumption for FEA is employed for simplification while contact between bolted joint is accounted for. Efficient procedure is developed to evaluate failure probability which consists of finding first an Most Probable Failure Point(MPP) using First-Order Reliability Method(FORM), next making a response surface model around the MPP using Latin Hypercube Sampling(LHS), and finally calculating failure probability by employing Importance Sampling.

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      참고문헌 (Reference)

      1 Zheng, W, "Structural Reliability Design on Solid Rocket Motor Case" AIAA 1-5, 1993

      2 Wells, W.W., "Solid Rocket Booster Reliability Guidebook - Volume Ⅱ - Probabilistic Design and Analysis Methods for Solid Rocket Booster" 364-, 1996

      3 Budynas, G. R., "Shigley's Mechanical Engineering Design" Mcgraw Hill 1088-, 2011

      4 Sutton, P. G., "Rocket Propulsion Elements 8th edition" John Wiley & Sons, Inc 768-, 2010

      5 Kuran, B, "Reliability Based Design Optimization of A Solid Rocket Motor Using Surrogate Models" AIAA 1-19, 2007

      6 Bozkaya, K, "Reliability Analysis of a Solid Rocket Motor Based on Response Surface Method and Monte Carlo Simulation" AIAA 17-, 2005

      7 Kim, W.B., "Reliability Analysis of Solid Rocket Motor under Bayesian Framework" AIAA 1-9, 2012

      8 Yang, J.N., "Reliability Analysis and Quality Assurance of Rocket Motor Case Considering Proof Testing" AIAA 1-10, 1993

      9 Smith, J. P., "Quick Simulation: A Review of Importance Sampling Techniques in communications Systems" 15 (15): 597-613, 1997

      10 Mahadevan S., "Probability, Reliability, and Statistical Methods in Engineering Design" John Wiley & Sons, INC 304-, 2000

      1 Zheng, W, "Structural Reliability Design on Solid Rocket Motor Case" AIAA 1-5, 1993

      2 Wells, W.W., "Solid Rocket Booster Reliability Guidebook - Volume Ⅱ - Probabilistic Design and Analysis Methods for Solid Rocket Booster" 364-, 1996

      3 Budynas, G. R., "Shigley's Mechanical Engineering Design" Mcgraw Hill 1088-, 2011

      4 Sutton, P. G., "Rocket Propulsion Elements 8th edition" John Wiley & Sons, Inc 768-, 2010

      5 Kuran, B, "Reliability Based Design Optimization of A Solid Rocket Motor Using Surrogate Models" AIAA 1-19, 2007

      6 Bozkaya, K, "Reliability Analysis of a Solid Rocket Motor Based on Response Surface Method and Monte Carlo Simulation" AIAA 17-, 2005

      7 Kim, W.B., "Reliability Analysis of Solid Rocket Motor under Bayesian Framework" AIAA 1-9, 2012

      8 Yang, J.N., "Reliability Analysis and Quality Assurance of Rocket Motor Case Considering Proof Testing" AIAA 1-10, 1993

      9 Smith, J. P., "Quick Simulation: A Review of Importance Sampling Techniques in communications Systems" 15 (15): 597-613, 1997

      10 Mahadevan S., "Probability, Reliability, and Statistical Methods in Engineering Design" John Wiley & Sons, INC 304-, 2000

      11 Cruse, T. A., "Probabilistic Structural Analysis Methodology and Applications to Advanced Space Propulsion System Components" 1 (1): 365-372, 1990

      12 Morio, J., "Non-Parametric Adaptive Importance Sampling for the Probability Estimation of a Launch Impact Position" 96 (96): 178-183, 1997

      13 Balesdent, M., "Kriging-Based Adaptive Importance Sampling Algorithm for Rare Event Estimation" 44 : 1-10, 2013

      14 Tao, Y., "Design of a Micro Solid Rocket Motor" AIAA 1-7, 1997

      15 Young-Gwi Choi, "A Study on Size Optimization of Rocket Motor Case using the modified 2D Axisymmetric Finite Element Model" 한국정밀공학회 11 (11): 901-907, 2010

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