Course detail
Reliability and Maintainability of Aircraft
FSI-OSD-A Acad. year: 2023/2024 Winter semester
The course offers a general overview on modern methods of safety and reliability assessment with special attention on an aircraft and aircraft systems. This includes reliability analyses, calculations, estimates and test methods. Emphasis is put on the main properties of dependability: reliability, availability and safety.
Language of instruction
English
Number of ECTS credits
4
Supervisor
Department
Entry knowledge
Students are expected to have mastered the basics in statistics and probability calculations and they have at least basic knowledge of aerospace engineering (structure and systems of an aircraft).
Rules for evaluation and completion of the course
To meet requirements for the course-unit credit award it is necessary to attend 80% of compulsory seminars, to hand in student works and meet requirements of 2 written tests.
The attendance at seminars is compulsory. In case of justified absence, the seminar may be compensated by an individual assignment.
Aims
The main course objective is to give students an introduction to procedures and methods used to ensure safety and dependability of an aircraft (and other industrial products).
The course provides students with basic knowledge of the area of dependability (reliability and maintainability) of aircraft. This includes information about modern methods and procedures for safety assessment (reliability analyses, etc) and information about international standards and airworthiness requirements.
The study programmes with the given course
Programme MPA-SAP: Space Applications, Master's, compulsory
Programme N-AST-A: Aerospace Technology, Master's, compulsory
Type of course unit
Lecture
26 hours, optionally
Teacher / Lecturer
Syllabus
1.Concept of dependability (reliability and maintainability) assurance in aerospace engineering.
2.Terms and definitions in dependability.
3.Mathematics used in dependability. Basics of systems dependability.
4.Inherent dependability of products. Dependability (with focus on reliability) of non-repaired systems.
5.FMEA/FMECA.
6.Reliability Block Diagrams (RBD).
7.Fault Tree Analysis (FTA).
8.Dependability of repaired systems. State Space Method (SSM).
9.Reliability analyses and airworthiness certification.
10.Software reliability. Introduction to the reliability of space devices.
11.Evaluation of reliability tests and operational data.
12.Evaluation of reliability tests and operational data.
13. Software tools in dependability.
Exercise
13 hours, compulsory
Teacher / Lecturer
Syllabus
1-2.Application of probability principles for the purpose of component reliability calculation.
3-5.Inherent reliability calculations for complex systems.
6.Application of FMEA/FMECA.
7-8.Application of reliability block diagrams (RBD) and fault trees (FTA).
9-11.Certification analysis of a representative aircraft system.
12-13.Evaluation of reliability tests and operational data.