articulo 6
TRANSCRIPT
UNIVERSIDAD DE LA COSTA
DEPARTAMENTO DE CIENCIAS BÁSICAS
FACULTAD DE INGENIERÍA
ARTICULO No 6
SISTEMAS DE MANUFACTURA INGENIERÍA: UN ENFOQUE UNIFICADO PARA LA TECNOLOGÍA DE FABRICACIÓN, GESTIÓN DE LA
PRODUCCIÓN, LA ECONOMÍA INDUSTRIAL
INTEGRANTES:
YALITH VANESSA ANGULO RAMOS
PRESENTADO AL DOCENTE LUIS CARLOS PATERNINA T. EN LA ASIGNATURA DE PROCESOS INDUSTRIALES
UNIVERSIDAD DE LA COSTA, CUC
FACULTAD DE INGENIERÍA
PROGRAMA DE INGENIERÍA INDUSTRIAL
BARRANQUILLA
2015
UNIVERSIDAD DE LA COSTA
DEPARTAMENTO DE CIENCIAS BÁSICAS
FACULTAD DE INGENIERÍA
MANUFACTURING SYSTEMS ENGINEERING: A UNIFIED APPROACH TO MANUFACTURING TECHNOLOGY, PRODUCTION
MANAGEMENT, INDUSTRIAL ECONOMICS
The author is well-known for having promoted manufacturing systems engineering, with publication of the first edition of his book. This is the thoroughly updated new edition which has incorporated the recent research and industrial progresses. This book is intended to integrate manufacturing technology, production management and industrial economy and is organized into seven parts with thirty six chapters.
Part I, Essentials of Manufacturing Systems, provides the concepts and the principles of manufacturing systems and manufacturing systems engineering. Fundamental frameworks of integrated manufacturing and management systems are displayed in chapter 5. Part II, Process Systems for Manufacturing, covers the production process technology-`material flow' as well as `technological information flow*', which is the most essential activity in production'manufacturing. Process planning and design, layout planning and design, and logistic planning and design are also mentioned. Part III, Management Systems for Manufacturing, focuses on the principles of production management technology-`managerial information flow'. Aggregate production planning, production scheduling, production control including just-in-time (JIT) production, and quality engineering including quality control (QC) and quality function deployment (QFD) are discussed.
Part IV, Value Systems for Manufacturing, explains production economy-`flow of value/costs' against the `flow of materials' and the `flow of information'. Part V, Automation Systems for Manufacturing, describes the theoretical aspect and the present state of FA and CIM in connection with Part II. A real-life example of an unmanned factory is explained in chapter 25. Part VI, Information Systems for Manufacturing, explains parts-oriented production systems, computerized production scheduling, on-line production control systems and computer-based production management systems. Part VII, Social Systems for Manufacturing, describes the important themes particularly from the social view point. They are social production
UNIVERSIDAD DE LA COSTA
DEPARTAMENTO DE CIENCIAS BÁSICAS
FACULTAD DE INGENIERÍA
structure, global manufacturing, manufacturing excellence for the future production perspectives, etc. Almost all chapters show examples and each chapter concludes with references and supplementary reading.
In conclusion, I believe that this is a wonderful introductory text for engineering students. This book also could be a great eye-opener for practitioners of manufacturing engineering and operations management to the tremendous benefits of integrated thinking. Those familiar with TQM will find this book a welcome addition to their library.
Production efficiency, sustainability, integration of virtual processes and real production, and new automation and drive technology products, software, and services are among anticipated highlights from Siemens AG Industry Automation at the SPS IPC Drives automation trade fair held in Nuremberg, Germany. Siemens will be supplying answers to the current and future challenges facing the manufacturing industry under its trade fair banner - Making Things Right. While energy efficiency is included in individual products, the Profinet Ethernet protocol has an energy extension that allows networked control of machines to save energy. Industrial security services can investigate networks and scrutinize processes in the plant. Condition monitoring services can use data present in software components combined with other data and derive optimal maintenance. Siemens is also expanding its industrial identification portfolio with a new RFID (radio frequency identification) solution for the identification and management of tools for machine tools.
Production efficiency, sustainability, integration of virtual processes and real production, and new automation and drive technology products, software, and services are among anticipated highlights from Siemens AG Industry Automation at the SPS IPC Drives automation trade fair, Nov. 26-28, Nuremberg, Germany. Siemens will be supplying answers to the current and future challenges facing the manufacturing industry under its trade fair banner "Making Things Right."
"Our aim this year is to illustrate to visitors how to improve their production-from design, through engineering and operation to maintenance," explained Heinz Eisenbeiss, director of the Siemens
UNIVERSIDAD DE LA COSTA
DEPARTAMENTO DE CIENCIAS BÁSICAS
FACULTAD DE INGENIERÍA
booth at this year's show. Siemens expects to show its latest developments in automation and drive technology, new industrial software and services, and the production worlds of the future. Virtual processes for the development of products and systems are set to become ever more closely integrated with real production, underpinned by the need for greater engineering efficiency and lower energy consumption, the company said.
In an Oct. 8 web-based press conference preview, Eisenbeiss presented an overview of this year's Siemens booth and reported on various new products.
Totally Integrated Automation from Siemens saves up to 30% over other options, Eisenbeiss said, because Siemens has built its software bottom-up from scratch to be one framework, one architecture, with an extremely powerful library of capabilities. "When you build a machine, you can simply help yourself from the library." When planning a system with control, a drive, human-machine interface (HMI), the software simply works. Version 13 of TIA portal includes team engineering functions to manage larger complex projects. Parts can be merged for joint commissioning.
While energy efficiency is included in individual products, the Profinet Ethernet protocol has an energy extension that allows networked control of machines to save energy. Tools to track and reduce carbon dioxide use and footprint are available. "Energy management systems can use data to tell operators where optimization potentials are. Services can help customers apply these concepts," he said. Also, an energy efficiency truck tours Europe 11 months of the year to show the potential of these applications.
Energy analytics is a special service to optimize energy and support operators and show how scalability should be approached for energy monitoring and optimization. Annual savings of 5%-10% is possible, as these services provide regular reports summarizing optimization and outline what the next steps should be for greater savings.
Industrial security services can investigate networks and scrutinize processes in the plant. Condition monitoring services can use data present in software components combined with other data and derive optimal maintenance.
UNIVERSIDAD DE LA COSTA
DEPARTAMENTO DE CIENCIAS BÁSICAS
FACULTAD DE INGENIERÍA
REFERENCIES.
AuthorAffiliation
HIROSHI YUI
Ryukoku University
Subject: Book reviews; Process engineering; Integrated approach
Classification: 5310: Production planning & control; 9000: Short article
Publication title: Total Quality Management
Volume: 10
Issue: 6
Pages: 940
Number of pages: 1
Publication year: 1999
Publication date: Aug 1999
Year: 1999
Publisher: Taylor & Francis Ltd.
Place of publication: Abingdon
Country of publication: United Kingdom
Publication subject: Business And Economics--Management
ISSN: 09544127
UNIVERSIDAD DE LA COSTA
DEPARTAMENTO DE CIENCIAS BÁSICAS
FACULTAD DE INGENIERÍA
Source type: Scholarly Journals
Language of publication: English
Document type: PERIODICAL
Accession number: 01871993
ProQuest document ID: 219819102
Document URL: http://search.proquest.com/docview/219819102?accountid=43787
Copyright: Copyright Carfax Publishing Company Aug 1999
Last updated: 2011-09-19
Database: ABI/INFORM Global; ProQuest Research Library
Palabras claves: tecnología, gestión de producción, manufactura, desarrollo, evaluación, sistemas, necesidades, control.
Comentario: El artículo está relacionado a la ingeniería de sistemas de fabricación, la tecnología de fabricación, gestión de la producción y la economía industrial; describen que estos sistemas de proceso cubren el flujos detallados de los proceso de producción de tecnología que a su vez se encuentran relacionados con la información tecnológica que detalla al material por medio de actividades de planificación, diseño, logística y producción donde se enmarcan las mejoras continuas y productos de calidad dentro de una organización.