Keywords
Critical characteristics
Cost optimization
Submitted : 2025-08-27
Accepted : 2025-09-11
Published : 2025-09-26
Abstract
This research aims to demonstrate that, while adhering to the baseline of safety regulations, effective cost-optimized control of safety-critical parts can be achieved through strategies such as precise classification, process method optimization, supply chain collaboration, and data-driven approaches.
References
National Defense Commission of Science, Technology Industry, 2024, Classification of Characteristics: GJB 190A-2024. China Standards Press, Beijing.
National Defense Commission of Science, Technology Industry, 2025, Quality Control of Critical and Important Items: GJB 909A-2005. China Standards Press, Beijing.
International Automotive Task Force, 2016, Quality Management System Requirements for Automotive Production and Relevant Service Parts Organizations: IATF16949-2016. IATF, 18 + 29 + 31 + 35 + 39 + 50 + 52–54 + 56 + 59–60.
Liu YJ, 2016, Research on Aircraft Design Quality Control. Heilongjiang Science and Technology Information, 2016(15): 123.
AIAG & VDA, 2019, Failure Mode and Effects Analysis FMEA Handbook: 1st Edition 2019. Automotive Industry Action Group, 1–138.
Qian SL, Nie L, Cao Y, 2022, Research on Characteristic Analysis of Electronic Equipment and Quality Control Method of Critical Parts. Electronic Quality, 2022(10): 120–126.
Automotive Industry Action Group, 2005, Statistical Process Control Reference Manual (2nd ed.).
Liu JF, Zhang S, Wang Y, et al., 2013, Discussion on Prompting Continuous Improvement through Data Analysis in Mechanical and Electrical Manufacturing Enterprises. Journal of Henan Mechanical and Electrical Engineering College, 21(3): 31–33 + 43.
ISO, 2015, Quality Management Systems Requirements: ISO 9001: 2015.
SAE, 2016, Quality Management Systems-requirements for Aviation, Space, And Defense Organizations: AS 9100D. SAE International, Warrendale.