臺灣博碩士論文加值系統

隨著航空製造業的蓬勃起飛，我國航空製造業也開始跟著全球性的發展。透過國機國造「新式高教機」的零件自主研製案，本研究開始進行了航空板金零件的開發與量產，根據AS9100航太品質系統的規範，為了使產品擁有高度的品質與穩定性，在開發與量產的過程需要相當謹慎，過程當中都需要依照規範下去執行。內文將以符合AS9100航太品質標準規範的航空板金零件開發與量產透過實際案例呈現，再將數位生管系統與航空板金零件的量產流程進行整合。運用一套高度客製化的數位生管系統內的專案管理、訂單管理、製令管理、物料管理等模組，完整的操作了航空板金零件的量產流程，且這些執行流程皆是符合AS9100航太品質管理系統的規範。在先前量產流程未數位化時，常常因為人員溝通上的誤差造成不必要的損失，透過此數位生管系統操作完航空板金零件量產的流程後，因數位生管系統的即時性、準確性與可預測性，使操作人員在執行的過程當中可以很迅速的得到所需的資訊並且減少了許多人為因素的錯誤，許多內部文件與產生的報表透過系統的數位化，在過程當中減少了相當大量的紙張用量。

With the booming aviation manufacturing industry, Taiwan's aviation manufacturing industry has also begun to follow global development. Through the "T-5 Brave Eagle" aviation parts independent development project, this research has started the development and mass production of aviation sheet metal parts. According to the specifications of the AS9100 Aerospace Quality System, in order to make the product have a high degree of quality and stability, the development and mass production process need to be very careful, and the process needs to be implemented in accordance with the specifications. The content will be presented through actual cases in the development and mass production of aviation sheet metal parts that comply with AS9100 Aerospace Quality System standards, and then the digital production control system will be integrated with the mass production process of aviation sheet metal parts. The project management, sales order management, manufacturing order management, material management, etc, in a highly customized digital production control system are used to completely operate the mass production process of aviation sheet metal parts, and these processes are in line with AS9100 Aerospace Quality System. When the previous mass production process was not digitized, unnecessary losses were often caused by errors in personnel communication. After operating the mass production process of aviation sheet metal parts through this digital production control system the operator can quickly get what information he needs during the execution process and reduce a lot of human error. Many internal documents and generated reports are digitized through the system, reducing the amount of paper used in the process.

摘要 i
ABSTRACT ii
誌謝 iv
目錄 v
圖目錄 viii
表目錄 xii
第一章 緒論 1
1.1. 前言 1
1.2. 文獻回顧 2
1.3. 研究動機、目的與方法 7
1.4. 論文架構 8
第二章 航空產業概況 9
2.1 航空產業之發展 9
2.1.1 全球航空產業發展趨勢 10
2.1.2 我國航空產業發展趨勢 12
第三章 AS9100航太品質系統 17
3.1 品質管理系統之演進 17
3.2 AS9100品質管理系統 22
3.2.1 AS9100品質管理系統介 23
3.2.2 AS9100品質管理系統需求 24
3.3 AS9100品質管理系統認證 26
第四章 ERP資源管理系統 27
4.1. ERP系統之演進 27
4.2. ERP系統之功能架構 32
4.3. ERP系統之功能模組 32
4.4. 數位生管系統 34
4.4.1 數位生管系統架構 34
第五章 航空板金零件實際案例 39
5.1 案例介紹 39
5.1.1 中心簡介 39
5.1.2 系統導入目的 39
5.2 航空板金零件開發流程 40
5.2.1 合約階段 41
5.2.2 開發階段 43
5.2.3 採購與試模階段 49
5.3 航空板金零件量產流程 54
5.3.1 訂單與客供料 55
5.3.2 生管排程 58
5.3.3 量產首件製作 60
5.3.4 完成後續量產 62
5.3.5 成品檢驗&出貨 64
第六章 數位生管系統應用於航空板金零件量產案例 67
6.1 訂單與客供料 68
6.2 生管排程 75
6.3 量產首件製作 80
6.4 完成後續量產 85
6.5 成品檢驗 87
6.6 成品出貨 89
第七章 結論 92
第八章 參考文獻 93

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