System Engineering2 |
HIRAMOTO, Takashi |
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【Aerospace Engineering・2nd semester】
19-1-0317-3035 |
1. |
Outline |
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In this lecture, the students will understand the reliability and safety of systems and learn the process of failure analysis, the method of analyzing and predicting reliability based on statistics, and analytical methods such as FMEA and FTA for design phase.
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2. |
Objectives |
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The objective of the lecture are to understand the basic idea of reliability engineering and to acquire the overview of technical methods for reliability evaluation. (1) To understand the significance of reliability in mechanical design (2) To understand the concept of reliability evaluation (3) To understand statistical analysis method using reliability data (4) To understand and utilize design methods to be implemented at design time
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3. |
Grading Policy |
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Homework: 20%, Quizzes: 80%
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4. |
Textbook and Reference |
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Textbook: 講義資料は基本的に講義ごとにLMSに掲載 Reference: 真壁肇「新版 信頼性工学入門」(日本規格協会)ISBN-13: 978-4542503489 田中健次「入門 信頼性」(日科技連)ISBN-13: 978-4817192936 福井 泰好「信頼性工学(第2版) 確率・統計の信頼性への適用」(森北出版)ISBN-13: 978-4627665729
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5. |
Requirements (Assignments) |
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6. |
Note |
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7. |
Schedule |
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1. Systems engineering and Reliability engineering |
2. Reliability |
3. Maintainability |
4. Dependability |
5. Probability and Statistics |
6. Probability distribution function and Reliability Function |
7. Lifetime distribution and Failure rate |
8. Exponential distribution |
9. Weibull distribution |
10. Failure analysis |
11. Failure Mode Effect Analysis (FMEA) |
12. Fault Tree Analysis (FTA) |
13. Reliability testing |
14. Reliability design |
15. Reliability engineering in aerospace industry |
|
1. |
Outline |
|
In this lecture, the students will understand the reliability and safety of systems and learn the process of failure analysis, the method of analyzing and predicting reliability based on statistics, and analytical methods such as FMEA and FTA for design phase.
|
2. |
Objectives |
|
The objective of the lecture are to understand the basic idea of reliability engineering and to acquire the overview of technical methods for reliability evaluation. (1) To understand the significance of reliability in mechanical design (2) To understand the concept of reliability evaluation (3) To understand statistical analysis method using reliability data (4) To understand and utilize design methods to be implemented at design time
|
3. |
Grading Policy |
|
Homework: 20%, Quizzes: 80%
|
4. |
Textbook and Reference |
|
Textbook: 講義資料は基本的に講義ごとにLMSに掲載 Reference: 真壁肇「新版 信頼性工学入門」(日本規格協会)ISBN-13: 978-4542503489 田中健次「入門 信頼性」(日科技連)ISBN-13: 978-4817192936 福井 泰好「信頼性工学(第2版) 確率・統計の信頼性への適用」(森北出版)ISBN-13: 978-4627665729
|
5. |
Requirements (Assignments) |
|
|
6. |
Note |
|
|
7. |
Schedule |
|
1. Systems engineering and Reliability engineering |
2. Reliability |
3. Maintainability |
4. Dependability |
5. Probability and Statistics |
6. Probability distribution function and Reliability Function |
7. Lifetime distribution and Failure rate |
8. Exponential distribution |
9. Weibull distribution |
10. Failure analysis |
11. Failure Mode Effect Analysis (FMEA) |
12. Fault Tree Analysis (FTA) |
13. Reliability testing |
14. Reliability design |
15. Reliability engineering in aerospace industry |
|
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