系统建模语言
过程(计算)
组分(热力学)
系统工程
涡轮叶片
本体论
计算机科学
工程类
涡轮机
建筑
领域(数学分析)
软件工程
机械工程
统一建模语言
艺术
数学分析
哲学
物理
数学
软件
认识论
视觉艺术
热力学
程序设计语言
操作系统
作者
S. Nematiyan,Mohammad Hossein Sabour,M. Moradli,Mansour Tabatabaie
标识
DOI:10.1016/j.engfailanal.2023.107709
摘要
The concept of Systems Engineering (SE) is widely used in modern times, with approaches based on analyzing the levels and processes of a system. SE approaches are elaborate based on the interpretation of the system's levels and analyzing the whole process. Although such methods are usually used in the analysis of organizations or enormous systems, this effort attempts to show that the same SE analytical tools can be useable in the deepest level of a system. The study focuses on investigating the failure process of a turbine blade, which is considered a system component. The first essential issue in analyzing a system is its interactions with the environment and its effects on the system's internal cybernetics. The study identifies failure processes that cause structural damage as well-defined and tangible processes of microsystem interactions. The research provides a comprehensive architecture of possible failures in an aircraft's jet engine's hot section turbine blades, utilizing a systemic approach and SE tools such as SysML-based models and Domain Mapping Matrices (DMM) to allocate causes of these failures. This research aims to propose an allocated SE-oriented architecture of Failure-Causes in jet engine turbine blades that is more suitable for use in programming.
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