Topic
Production engineering
About: Production engineering is a research topic. Over the lifetime, 2657 publications have been published within this topic receiving 37409 citations.
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TL;DR: In this article, the authors present some examples of the application of FEM in different branches of manufacturing technology: cutting with a geometrically defined and an undefined cutting edge; electro-erosion technology; metal forming processes; tribology.
90 citations
TL;DR: The research areas covered in this article include Design Cost; Manufacturing Cost; Operating Cost; Life Cycle Cost; Risk and Uncertainty management and Affordability Engineering.
Abstract: The article aims to identify the scientific challenges and point out future research directions on Cost Engineering. The research areas covered in this article include Design Cost; Manufacturing Cost; Operating Cost; Life Cycle Cost; Risk and Uncertainty management and Affordability Engineering. Collected information at the Academic Forum on Cost Engineering held at Cranfield University in 2008 and further literature review findings are presented. The forum set the scope of the Cost Engineering research, a brainstorming was held on the forum and literatures were further reviewed to understand the current and future practices in cost engineering. The main benefits of the article include coverage of the current research on cost engineering from different perspectives and the future research areas on Cost Engineering.
89 citations
Book•
01 Jan 1978
TL;DR: The history and perpective of industrial engineering is described in this article, where the authors present a survey of industrial and systems engineering methods and their application in the field of industrial management.
Abstract: I. HISTORY AND PERSPECTIVE OF INDUSTRIAL ENGINEERING. 1. History of Engineering and Development of Industrial Engineering. 2. Industrial and Systems Engineering. II. INDUSTRIAL AND SYSTEMS ENGINEERING METHODOLOGIES. 3. Manufacturing Engineering. 4. Facilities Location and Layout. 5. Material Handling, Distribution, and Routing. 6. Work Design and Organizational Performance -- Work Measurement. 7. Operations Planning and Control. 8. Quality Control. 9. Financial Compensation. 10. CAD/CAM, Robotics, and Automation. 11. Human Factors. 12. Resource Management. 13. Financial Management and Engineering Economy. 14. Deterministic Operations Research. 15. Probabilistic Models. 16. Simulation. 17. Project Management. III. INTEGRATED SYSTEMS DESIGN. 18. Systems Concepts. 19. Management Systems Design. 20. Computers and Information Systems. 21. Personnel Management. APPENDICES. A. Probability and Statistics. B. Tables. Index.
86 citations
86 citations
TL;DR: In this article, the authors examine the contributions of human resource and organizational practices to the development and supply chain management interface of the semiconductor industry and highlight the importance of these practices for learning-based improvement in manufacturing.
85 citations