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This book includes the introduction of emerging manufacturing technologies and planning cases with established technologies. The planning of eco-efficient process chains is crucial for manufacturing companies. However, in the state-of-the-art planning, various barriers exist towards the integration of the environmental dimension. Against this background, a concept for the integration of classic lean and environmental criteria into the three planning phases of process chains is presented. During concept planning, the Technology Assessment Tool supports planners in the identification of eco-efficient technologies. During rough planning, the Value Stream Design Tool enables the derivation of a production line based on workpiece characteristics. For detailed planning, tools for eco-efficient machine and process chain configuration are provided. Three case studies from large-scale automotive component manufacturing with established and emerging technologies demonstrate the tool applicability.
Book Synopsis Planning of Eco-efficient Process Chains for Automotive Component Manufacturing by : Christopher Schmidt
Download or read book Planning of Eco-efficient Process Chains for Automotive Component Manufacturing written by Christopher Schmidt and published by Springer Nature. This book was released on 2021-01-04 with total page 179 pages. Available in PDF, EPUB and Kindle. Book excerpt: This book includes the introduction of emerging manufacturing technologies and planning cases with established technologies. The planning of eco-efficient process chains is crucial for manufacturing companies. However, in the state-of-the-art planning, various barriers exist towards the integration of the environmental dimension. Against this background, a concept for the integration of classic lean and environmental criteria into the three planning phases of process chains is presented. During concept planning, the Technology Assessment Tool supports planners in the identification of eco-efficient technologies. During rough planning, the Value Stream Design Tool enables the derivation of a production line based on workpiece characteristics. For detailed planning, tools for eco-efficient machine and process chain configuration are provided. Three case studies from large-scale automotive component manufacturing with established and emerging technologies demonstrate the tool applicability.
This book provides for the first time an overview on the current approaches and applications of energy aspects in production and logistics by the use of simulation techniques. During the last decade, the importance of energy in the material flow processes has become more and more important. The pressure to reduce the environmental footprint of production and logistics systems will even intensify in future. Therefore, enterprises have started to integrate the use of energy into their planning processes much more than before, even designing feedback loops, e.g., from energy control to production control. This receives additional attention with the increasing use of renewable, but less reliable, energy sources. Care must be taken to establish processes that aim to use energy when it is available. As an example, many industrial processes like melting or coating have significant energy demands, but could vary the point of time of its consumption within specific limits, leading to a very high complexity. It discusses the construction and application of energy-specific performance indicators and analyzes the input information that needs to be acquired before implementing suitable models. On this basis, concrete technical solutions are introduced.
Book Synopsis Energy-Related Material Flow Simulation in Production and Logistics by : Sigrid Wenzel
Download or read book Energy-Related Material Flow Simulation in Production and Logistics written by Sigrid Wenzel and published by Springer Nature. This book was released on 2024-01-15 with total page 208 pages. Available in PDF, EPUB and Kindle. Book excerpt: This book provides for the first time an overview on the current approaches and applications of energy aspects in production and logistics by the use of simulation techniques. During the last decade, the importance of energy in the material flow processes has become more and more important. The pressure to reduce the environmental footprint of production and logistics systems will even intensify in future. Therefore, enterprises have started to integrate the use of energy into their planning processes much more than before, even designing feedback loops, e.g., from energy control to production control. This receives additional attention with the increasing use of renewable, but less reliable, energy sources. Care must be taken to establish processes that aim to use energy when it is available. As an example, many industrial processes like melting or coating have significant energy demands, but could vary the point of time of its consumption within specific limits, leading to a very high complexity. It discusses the construction and application of energy-specific performance indicators and analyzes the input information that needs to be acquired before implementing suitable models. On this basis, concrete technical solutions are introduced.
This is an open access book. It gathers the proceedings of the 18th Global Conference on Sustainable Manufacturing, held on October 5-7, 2022, as a hybrid event, in/from Berlin, Germany. With a focus on manufacturing advances and practices driving the circular economy, the chapters selected for this book report on sustainable manufacturing technologies for the mobility, energy and construction sector, and for machines and equipments, covering applications of artificial intelligence and industry 4.0. Moreover, they discuss energy-efficient process, waste reuse, and CO2 neutral production, giving a special emphasis to developing sustainable manufacturing in emerging countries. This book offers extensive and timely information for both researchers and professionals in the field of manufacturing and business development.
Book Synopsis Manufacturing Driving Circular Economy by : Holger Kohl
Download or read book Manufacturing Driving Circular Economy written by Holger Kohl and published by Springer Nature. This book was released on 2023-05-27 with total page 1105 pages. Available in PDF, EPUB and Kindle. Book excerpt: This is an open access book. It gathers the proceedings of the 18th Global Conference on Sustainable Manufacturing, held on October 5-7, 2022, as a hybrid event, in/from Berlin, Germany. With a focus on manufacturing advances and practices driving the circular economy, the chapters selected for this book report on sustainable manufacturing technologies for the mobility, energy and construction sector, and for machines and equipments, covering applications of artificial intelligence and industry 4.0. Moreover, they discuss energy-efficient process, waste reuse, and CO2 neutral production, giving a special emphasis to developing sustainable manufacturing in emerging countries. This book offers extensive and timely information for both researchers and professionals in the field of manufacturing and business development.
The changing manufacturing environment requires more responsive and adaptable manufacturing systems. The theme of the 4th International Conference on Changeable, Agile, Reconfigurable and Virtual production (CARV2011) is “Enabling Manufacturing Competitiveness and Economic Sustainability”. Leading edge research and best implementation practices and experiences, which address these important issues and challenges, are presented. The proceedings include advances in manufacturing systems design, planning, evaluation, control and evolving paradigms such as mass customization, personalization, changeability, re-configurability and flexibility. New and important concepts such as the dynamic product families and platforms, co-evolution of products and systems, and methods for enhancing manufacturing systems’ economic sustainability and prolonging their life to produce more than one product generation are treated. Enablers of change in manufacturing systems, production volume and capability scalability and managing the volatility of markets, competition among global enterprises and the increasing complexity of products, manufacturing systems and management strategies are discussed. Industry challenges and future directions for research and development needed to help both practitioners and academicians are presented.
Book Synopsis Enabling Manufacturing Competitiveness and Economic Sustainability by : Hoda A. ElMaraghy
Download or read book Enabling Manufacturing Competitiveness and Economic Sustainability written by Hoda A. ElMaraghy and published by Springer Science & Business Media. This book was released on 2011-09-29 with total page 674 pages. Available in PDF, EPUB and Kindle. Book excerpt: The changing manufacturing environment requires more responsive and adaptable manufacturing systems. The theme of the 4th International Conference on Changeable, Agile, Reconfigurable and Virtual production (CARV2011) is “Enabling Manufacturing Competitiveness and Economic Sustainability”. Leading edge research and best implementation practices and experiences, which address these important issues and challenges, are presented. The proceedings include advances in manufacturing systems design, planning, evaluation, control and evolving paradigms such as mass customization, personalization, changeability, re-configurability and flexibility. New and important concepts such as the dynamic product families and platforms, co-evolution of products and systems, and methods for enhancing manufacturing systems’ economic sustainability and prolonging their life to produce more than one product generation are treated. Enablers of change in manufacturing systems, production volume and capability scalability and managing the volatility of markets, competition among global enterprises and the increasing complexity of products, manufacturing systems and management strategies are discussed. Industry challenges and future directions for research and development needed to help both practitioners and academicians are presented.
Manuela Krones develops a method that supports factory planners in generating energy-efficient planning solutions. The method provides qualitative description concepts for factory planning tasks and energy efficiency knowledge as well as an algorithm-based linkage between these measures and the respective planning tasks. Its application is guided by a procedure model which allows a general applicability in the manufacturing sector. The results contain energy efficiency measures that are suitable for a specific planning task and reveal the roles of various actors for the measures’ implementation.
Book Synopsis A Method to Identify Energy Efficiency Measures for Factory Systems Based on Qualitative Modeling by : Manuela Krones
Download or read book A Method to Identify Energy Efficiency Measures for Factory Systems Based on Qualitative Modeling written by Manuela Krones and published by Springer. This book was released on 2017-05-11 with total page 245 pages. Available in PDF, EPUB and Kindle. Book excerpt: Manuela Krones develops a method that supports factory planners in generating energy-efficient planning solutions. The method provides qualitative description concepts for factory planning tasks and energy efficiency knowledge as well as an algorithm-based linkage between these measures and the respective planning tasks. Its application is guided by a procedure model which allows a general applicability in the manufacturing sector. The results contain energy efficiency measures that are suitable for a specific planning task and reveal the roles of various actors for the measures’ implementation.
The changing manufacturing environment requires more responsive and adaptable manufacturing systems. The theme of the 5th International Conference on Changeable, Agile, Reconfigurable and Virtual production (CARV2013) is "Enabling Manufacturing Competitiveness and Economic Sustainability. Leading edge research and best implementation practices and experiences, which address these important issues and challenges, are presented. The proceedings include advances in manufacturing systems design, planning, evaluation, control and evolving paradigms such as mass customization, personalization, changeability, re-configurability and flexibility. New and important concepts such as the dynamic product families and platforms, co-evolution of products and systems, and methods for enhancing manufacturing systems' economic sustainability and prolonging their life to produce more than one product generation are treated. Enablers of change in manufacturing systems, production volume and capability, scalability and managing the volatility of markets, competition among global enterprises and the increasing complexity of products, manufacturing systems and management strategies are discussed. Industry challenges and future directions for research and development needed to help both practitioners and academicians are presented. About the Editor Prof. Dr.-Ing. Michael F. Zaeh, born in 1963, has been and is Professor for and Manufacturing Technology since 2002 and, together with Prof. Dr.-Ing. Gunther Reinhart, Head of the Institute for Machine Tools and Industrial Management (iwb) at the Technische Universitaet Muenchen (TUM). After studying general mechanical engineering, he was doctoral candidate under Prof. Dr.-Ing. Joachim Milberg at TUM from 1990 until 1993 and received his doctorate in 1993. From 1994 to 1995, he was department leader under Prof. Dr.-Ing. Gunther Reinhart. From 1996 to 2002, he worked for a machine tool manufacturer in several positions, most recently as a member of the extended management. Prof. Dr.-Ing. Michael F. Zaeh is an associated member of the CIRP and member of acatech, WGP and WLP. His current researches include among others Joining and Cutting Technologies like Laser Cutting and Welding as well as Friction Stir Welding, Structural Behaviour and Energy Efficiency of Machine Tools and Manufacturing Processes like Additive Manufacturing.
Book Synopsis Enabling Manufacturing Competitiveness and Economic Sustainability by : Michael F. Zaeh
Download or read book Enabling Manufacturing Competitiveness and Economic Sustainability written by Michael F. Zaeh and published by Springer Science & Business Media. This book was released on 2013-09-12 with total page 472 pages. Available in PDF, EPUB and Kindle. Book excerpt: The changing manufacturing environment requires more responsive and adaptable manufacturing systems. The theme of the 5th International Conference on Changeable, Agile, Reconfigurable and Virtual production (CARV2013) is "Enabling Manufacturing Competitiveness and Economic Sustainability. Leading edge research and best implementation practices and experiences, which address these important issues and challenges, are presented. The proceedings include advances in manufacturing systems design, planning, evaluation, control and evolving paradigms such as mass customization, personalization, changeability, re-configurability and flexibility. New and important concepts such as the dynamic product families and platforms, co-evolution of products and systems, and methods for enhancing manufacturing systems' economic sustainability and prolonging their life to produce more than one product generation are treated. Enablers of change in manufacturing systems, production volume and capability, scalability and managing the volatility of markets, competition among global enterprises and the increasing complexity of products, manufacturing systems and management strategies are discussed. Industry challenges and future directions for research and development needed to help both practitioners and academicians are presented. About the Editor Prof. Dr.-Ing. Michael F. Zaeh, born in 1963, has been and is Professor for and Manufacturing Technology since 2002 and, together with Prof. Dr.-Ing. Gunther Reinhart, Head of the Institute for Machine Tools and Industrial Management (iwb) at the Technische Universitaet Muenchen (TUM). After studying general mechanical engineering, he was doctoral candidate under Prof. Dr.-Ing. Joachim Milberg at TUM from 1990 until 1993 and received his doctorate in 1993. From 1994 to 1995, he was department leader under Prof. Dr.-Ing. Gunther Reinhart. From 1996 to 2002, he worked for a machine tool manufacturer in several positions, most recently as a member of the extended management. Prof. Dr.-Ing. Michael F. Zaeh is an associated member of the CIRP and member of acatech, WGP and WLP. His current researches include among others Joining and Cutting Technologies like Laser Cutting and Welding as well as Friction Stir Welding, Structural Behaviour and Energy Efficiency of Machine Tools and Manufacturing Processes like Additive Manufacturing.
Industrial Product-Service Systems (IPS2), which is defined as “an integrated industrial product and service offering that delivers value in use,” has expanded rapidly over the last decade. IPS2 has allowed us to achieve both high added value and high productivity and has enriched our QOL by improving the performance of products and services. We are now struggling with many awkward issues related to sustainability, but IPS2 is expected to be the “philosopher’s stone” for solving these issues. Following the pattern of conferences held in Cranfield in 2009, Linköping in 2010, and Braunschweig in 2011, the fourth International CIRP Conference on Industrial Product-Service Systems, held on November 8-9, 2012, in Tokyo, will cover various aspects of IPS2. Topics planned for this year’s conference reflect the latest IPS2 information in both the natural sciences and humanities and include case studies from various industries. IPS2 is still a relatively new field, so it is important to keep track of the entire context in order to promote more cross-sectional cooperation between multimodal fields and disciplines. The fourth International CIRP Conference on Industrial Product-Service Systems will serve as a vital platform for such collaborations and the discussion of new scientific ideas.
Book Synopsis The Philosopher's Stone for Sustainability by : Yoshiki Shimomura
Download or read book The Philosopher's Stone for Sustainability written by Yoshiki Shimomura and published by Springer Science & Business Media. This book was released on 2012-09-19 with total page 539 pages. Available in PDF, EPUB and Kindle. Book excerpt: Industrial Product-Service Systems (IPS2), which is defined as “an integrated industrial product and service offering that delivers value in use,” has expanded rapidly over the last decade. IPS2 has allowed us to achieve both high added value and high productivity and has enriched our QOL by improving the performance of products and services. We are now struggling with many awkward issues related to sustainability, but IPS2 is expected to be the “philosopher’s stone” for solving these issues. Following the pattern of conferences held in Cranfield in 2009, Linköping in 2010, and Braunschweig in 2011, the fourth International CIRP Conference on Industrial Product-Service Systems, held on November 8-9, 2012, in Tokyo, will cover various aspects of IPS2. Topics planned for this year’s conference reflect the latest IPS2 information in both the natural sciences and humanities and include case studies from various industries. IPS2 is still a relatively new field, so it is important to keep track of the entire context in order to promote more cross-sectional cooperation between multimodal fields and disciplines. The fourth International CIRP Conference on Industrial Product-Service Systems will serve as a vital platform for such collaborations and the discussion of new scientific ideas.
Increasing costs, consumer awareness, and environmental legislation have driven industry to reduce its resource consumption and the impact from that consumption. So, both traditional economic objectives (e.g., cost, time, and quality) and environmental objectives (e.g., CO2 emissions) have become strategically relevant for the manufacturing sector. For many manufacturing companies, production systems have a major influence on the environmental footprint of a product and therefore represent a major opportunity to minimize the company's overall environmental impact. Currently within industry, there is not an accurate, effective, or widely accepted method to assess the resource consumption of process chains used to manufacture a product. As a result, this information is often not considered when making decisions about what processes to use. A considerable part of the energy and resource demand in manufacturing is determined during production planning. An important component of this planning is determining the process chains to be used. Process chains are a combined sequence of specifically arranged, single processes used to manufacture a product. As manufacturing processes are very resource intensive, it is now necessary to assess the resource consumption as well as the economics of these process chains. Because of this, additional information must be considered when selecting the process chains used to manufacture a product. Many life cycle assessment (LCA) tools focus on the materials and final disposition of a product, but do not include detailed information or data on the manufacturing required to fabricate the product. Sustainability impacts of discrete manufacturing processes and product value streams are needed to develop more complete LCAs. The development of a methodology and user tool to quantify sustainability impacts, leading to the identification of gaps and opportunities, is essential to facilitate decision making to support sustainability in manufacturing facilities. To address these issues, this dissertation proposes an approach to evaluate and quantify the resource use in addition to the environmental and economic impacts associated with discrete manufacturing processes as part of a complex process chain. A methodology to evaluate multiple process chain configurations will be presented. First, a database of industrial assessment metrics was compiled. This database allows users to sort and select from a list of key metrics in order to choose the metrics that are relevant for the performance that they want to measure. Next, an industrial assessment methodology was developed. This methodology gives users an overview of the key areas to address when conducting an industrial assessment. This methodology, which was applied to three case studies, can be used in combination with the key metrics. In the second part of the dissertation, a resource consumption assessment and mapping methodology for complex manufacturing process chains was developed. This systematic methodology was developed to identify and quantify the resource consumption (energy, water, materials) for discrete manufacturing processes. The processes mapped include: welding (manual and robotic), cutting (plasma arc and laser), rework (air carbon arc cutting and hand grinding), and machining (milling). Next, a model consisting of database modules for each process was developed. This model quantifies the sustainability impacts (energy, water, and material consumption, waste generation, emissions, and resource consumption cost) of manufacturing process chains. The model was validated using a case study with Caterpillar Inc. for a process chain including welding, plasma arc cutting, laser cutting, and milling. Next, a process chain assessment tool was created. This tool enables manufacturers to assess the resource consumption and associated impacts of multiple fabrication process chain configurations. This enables a more comprehensive assessment compared to other software tools. Finally, a methodology modeled after the Six Sigma DMAIC (Define, Measure, Analyze, Improve, Control) process was presented to show how to translate the results from the model and tool to an Environmental Value Stream Map and to translate those results into improvements in manufacturing systems. This methodology was validated on a machining operation in a Caterpillar facility. This research has developed and evaluated an effective approach for the analysis of energy, water, and other resource use in multiple processes in a manufacturing process chain. This allows manufacturers to better understand the resource consumption and environmental and economic impacts of fabrication process chains used to make a product. This dissertation helps to provide the technical understanding and tools to enable designers and manufacturing engineers to create manufacturing systems that are truly more sustainable. The implementation of this work can be directly applied to assessing and optimizing manufacturing process chains and the work presented in this dissertation directly contributes to the realization of a sustainable and prosperous manufacturing sector.
Book Synopsis An Environmental and Economic Trade-off Analysis of Manufacturing Process Chains to Inform Decision Making for Sustainability by : Stefanie Robinson
Download or read book An Environmental and Economic Trade-off Analysis of Manufacturing Process Chains to Inform Decision Making for Sustainability written by Stefanie Robinson and published by . This book was released on 2013 with total page 243 pages. Available in PDF, EPUB and Kindle. Book excerpt: Increasing costs, consumer awareness, and environmental legislation have driven industry to reduce its resource consumption and the impact from that consumption. So, both traditional economic objectives (e.g., cost, time, and quality) and environmental objectives (e.g., CO2 emissions) have become strategically relevant for the manufacturing sector. For many manufacturing companies, production systems have a major influence on the environmental footprint of a product and therefore represent a major opportunity to minimize the company's overall environmental impact. Currently within industry, there is not an accurate, effective, or widely accepted method to assess the resource consumption of process chains used to manufacture a product. As a result, this information is often not considered when making decisions about what processes to use. A considerable part of the energy and resource demand in manufacturing is determined during production planning. An important component of this planning is determining the process chains to be used. Process chains are a combined sequence of specifically arranged, single processes used to manufacture a product. As manufacturing processes are very resource intensive, it is now necessary to assess the resource consumption as well as the economics of these process chains. Because of this, additional information must be considered when selecting the process chains used to manufacture a product. Many life cycle assessment (LCA) tools focus on the materials and final disposition of a product, but do not include detailed information or data on the manufacturing required to fabricate the product. Sustainability impacts of discrete manufacturing processes and product value streams are needed to develop more complete LCAs. The development of a methodology and user tool to quantify sustainability impacts, leading to the identification of gaps and opportunities, is essential to facilitate decision making to support sustainability in manufacturing facilities. To address these issues, this dissertation proposes an approach to evaluate and quantify the resource use in addition to the environmental and economic impacts associated with discrete manufacturing processes as part of a complex process chain. A methodology to evaluate multiple process chain configurations will be presented. First, a database of industrial assessment metrics was compiled. This database allows users to sort and select from a list of key metrics in order to choose the metrics that are relevant for the performance that they want to measure. Next, an industrial assessment methodology was developed. This methodology gives users an overview of the key areas to address when conducting an industrial assessment. This methodology, which was applied to three case studies, can be used in combination with the key metrics. In the second part of the dissertation, a resource consumption assessment and mapping methodology for complex manufacturing process chains was developed. This systematic methodology was developed to identify and quantify the resource consumption (energy, water, materials) for discrete manufacturing processes. The processes mapped include: welding (manual and robotic), cutting (plasma arc and laser), rework (air carbon arc cutting and hand grinding), and machining (milling). Next, a model consisting of database modules for each process was developed. This model quantifies the sustainability impacts (energy, water, and material consumption, waste generation, emissions, and resource consumption cost) of manufacturing process chains. The model was validated using a case study with Caterpillar Inc. for a process chain including welding, plasma arc cutting, laser cutting, and milling. Next, a process chain assessment tool was created. This tool enables manufacturers to assess the resource consumption and associated impacts of multiple fabrication process chain configurations. This enables a more comprehensive assessment compared to other software tools. Finally, a methodology modeled after the Six Sigma DMAIC (Define, Measure, Analyze, Improve, Control) process was presented to show how to translate the results from the model and tool to an Environmental Value Stream Map and to translate those results into improvements in manufacturing systems. This methodology was validated on a machining operation in a Caterpillar facility. This research has developed and evaluated an effective approach for the analysis of energy, water, and other resource use in multiple processes in a manufacturing process chain. This allows manufacturers to better understand the resource consumption and environmental and economic impacts of fabrication process chains used to make a product. This dissertation helps to provide the technical understanding and tools to enable designers and manufacturing engineers to create manufacturing systems that are truly more sustainable. The implementation of this work can be directly applied to assessing and optimizing manufacturing process chains and the work presented in this dissertation directly contributes to the realization of a sustainable and prosperous manufacturing sector.
The two volumes IFIP AICT 414 and 415 constitute the refereed proceedings of the International IFIP WG 5.7 Conference on Advances in Production Management Systems, APMS 2013, held in University Park, PA, USA, in September 2013. The 133 revised full papers were carefully reviewed and selected for inclusion in the two volumes. They are organized in 4 parts: sustainable production, sustainable supply chains, sustainable services, and ICT and emerging technologies.
Book Synopsis Advances in Production Management Systems. Sustainable Production and Service Supply Chains by : Vittal Prabhu
Download or read book Advances in Production Management Systems. Sustainable Production and Service Supply Chains written by Vittal Prabhu and published by Springer. This book was released on 2013-09-05 with total page 536 pages. Available in PDF, EPUB and Kindle. Book excerpt: The two volumes IFIP AICT 414 and 415 constitute the refereed proceedings of the International IFIP WG 5.7 Conference on Advances in Production Management Systems, APMS 2013, held in University Park, PA, USA, in September 2013. The 133 revised full papers were carefully reviewed and selected for inclusion in the two volumes. They are organized in 4 parts: sustainable production, sustainable supply chains, sustainable services, and ICT and emerging technologies.
This book constitutes the refereed proceedings of the IFIP TC 5 International Conference on Digital Product and Process Development Systems, NEW PROLAMAT 2013, held in Dresden, Germany, in October 2013. The conference succeeds the International Conference on Programming Languages for Machine Tools, PROLAMAT 2006, held in Shanghai, China in 2006. In order to demonstrate the new orientation toward IT innovations, the acronym PROLAMAT has been changed into NEW PROLAMAT and is now interpreted as Project Research on Leading-Edge Applications and Methods for Applied Technology. The 42 revised papers were carefully reviewed and selected for inclusion in the volume. They have been organized in the following topical sections: digital product and process development; additive manufacturing; quality management; standardization and knowledge management developments; and simulation of procedures and processes.
Book Synopsis Digital Product and Process Development Systems by : George L. Kovacs
Download or read book Digital Product and Process Development Systems written by George L. Kovacs and published by Springer. This book was released on 2013-10-07 with total page 442 pages. Available in PDF, EPUB and Kindle. Book excerpt: This book constitutes the refereed proceedings of the IFIP TC 5 International Conference on Digital Product and Process Development Systems, NEW PROLAMAT 2013, held in Dresden, Germany, in October 2013. The conference succeeds the International Conference on Programming Languages for Machine Tools, PROLAMAT 2006, held in Shanghai, China in 2006. In order to demonstrate the new orientation toward IT innovations, the acronym PROLAMAT has been changed into NEW PROLAMAT and is now interpreted as Project Research on Leading-Edge Applications and Methods for Applied Technology. The 42 revised papers were carefully reviewed and selected for inclusion in the volume. They have been organized in the following topical sections: digital product and process development; additive manufacturing; quality management; standardization and knowledge management developments; and simulation of procedures and processes.
