Bibliografías temáticas / Remanufacturing

Literatura académica sobre el tema "Remanufacturing"

Autor: Grafiati

Publicado: 4 de junio de 2021

Última modificación: 8 de junio de 2024

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Artículos de revistas sobre el tema "Remanufacturing"

Guo, Tianyi, Chaonan Li y Yan Chen. "Remanufacturing Strategy under Cap-and-Trade Regulation in the Presence of Assimilation Effect". Sustainability 14, n.º 5 (1 de marzo de 2022): 2878. http://dx.doi.org/10.3390/su14052878.

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In this paper, we consider the choice of remanufacturing strategy of a monopolist original equipment manufacturer under the cap-and-trade regulation in the presence of the assimilation effect. We model the manufacturer’s optimal decision-makings and associated profits under three different remanufacturing strategies. Our results indicate that the assimilation effect reduces the manufacturer’s motivation to become engaged in remanufacturing. Specifically, there exists a threshold for the intensity of the assimilation effect for the manufacturer to enter remanufacturing. First, when the assimilation effect is below the threshold, the manufacturer should choose to remanufacture. Otherwise, the manufacturer should only produce new products. Second, the value of the threshold for the assimilation effect is further determined by the remanufacturing’s emission advantage and the carbon trading price. In addition, when the intensity of the assimilation effect is high enough, the carbon trading price and carbon emission advantage no longer impacts the remanufacturing strategy. Lastly, our numerical examples reveal that ignoring the assimilation effect can lead to up to 56.2% loss of potential profit for the manufacturer.

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Bernard, Sophie. "Remanufacturing". Journal of Environmental Economics and Management 62, n.º 3 (noviembre de 2011): 337–51. http://dx.doi.org/10.1016/j.jeem.2011.05.005.

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Zhu, Sheng, Ju Kun Yao y Pei Zhi Cui. "Study and Application of Virtual Remanufacturing". Advanced Materials Research 346 (septiembre de 2011): 216–21. http://dx.doi.org/10.4028/www.scientific.net/amr.346.216.

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Virtual Remanufacturing is an important technology of remanufacturing engineering, which has a distinct benefit to improve remanufacturing development. On the base of definition and characteristics analysis of virtual remanufacturing, this paper puts forward the virtual remanufacturing framework, key technologies and development environment, and describes the main application fields of virtual remanufacturing, which will provide a reference for virtual remanufacturing exploitation and development.

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Zhou, Yan, Xue-Qi Liu y Kar-Hung Wong. "Remanufacturing Policies Options for a Closed-Loop Supply Chain Network". Sustainability 13, n.º 12 (10 de junio de 2021): 6640. http://dx.doi.org/10.3390/su13126640.

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Due to the need for resource utilization and environmental protection, remanufacturing is used as an effective means to achieve a circular economy. To focus on the production and sales of new products, manufacturers outsource the remanufacturing of used products to remanufacturers. Aiming at helping manufacturers to choose between self-remanufacturing and outsourcing remanufacturing policies, a closed-loop supply chain network equilibrium model considering the remanufacturing policy options is established. The equilibrium decision-making is obtained by using the variational inequality method. Furthermore, the criteria for manufacturers to choose between the two remanufacturing policies based on different factors such as recovery rates of the used products, remanufacturing costs, and environmental impact parameters, are given. Numerical examples show the following results: (1) When compared with self-remanufacturing policy, outsourcing remanufacturing policy can save resources, increase the sales of products, and have a smaller environmental impact. (2) When the recycling rate of used products is low, choosing an outsourcing remanufacturing policy can increase the sales of products. When the recycling rate is high, choosing a self-remanufacturing policy can get more profits. (3) When the costs of a self-remanufacturing policy and an outsource-remanufacturing policy are quite different, choosing the outsourcing remanufacturing policy can save resources and protect the environment.

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Moosmayer, Dirk C., Muhammad Dan-Asabe Abdulrahman, Nachiappan Subramanian y Lars Bergkvist. "Strategic and operational remanufacturing mental models". International Journal of Operations & Production Management 40, n.º 2 (2 de enero de 2020): 173–95. http://dx.doi.org/10.1108/ijopm-12-2018-0684.

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Purpose Remanufacturing is the only end-of-life (EOL) treatment process that results in as-new functional and aesthetic quality and warranty. However, applying mental model theory, the purpose of this paper is to argue that the conception of remanufacturing as an EOL process activates an operational mental model (OMM) that connects to resource reuse, environmental concern and cost savings and is thus opposed to a strategic mental model (SMM) that associates remanufacturing with quality improvements and potential price increases. Design/methodology/approach The authors support the argument by empirically assessing consumers’ multi-attribute decision process for cars with remanufactured or new engines among 202 car buyers in China. The authors conduct a conjoint analysis and use the results as input to simulate market shares for various markets on which these cars compete. Findings The results suggest that consumers on average attribute reduced utility to remanufactured engines, thus in line with the OMM. However, the authors identify a segment accounting for about 30 per cent of the market with preference for remanufactured engines. The fact that this segment has reduced environmental concern supports the SMM idea that remanufactured products can be bought for their quality. Research limitations/implications A single-country (China) single-brand (Volkswagen) study is used to support the conceptualised mental models. While this strengthens the internal validity of the results, future research could improve the external validity by using more representative sampling in a wider array of empirical contexts. Moreover, future work could test the theory more explicitly. Practical implications By selling cars with remanufactured engines to customers with a SMM that values the at least equal performance of remanufactured products, firms can enhance their profit from remanufactured products. In addition, promoting SMM enables sustainable business models for the sharing economy. Originality/value As a community, the authors need to more effectively reflect on shaping mental models that disconnect remanufacturing from analogies that convey inferior quality and performance associations. Firms can overcome reduced utility perceptions not only by providing discounts, i.e. sharing the economic benefits of remanufacturing, but even more by increasing the warranty, thus sharing remanufacturing’s performance benefit and reducing consumers’ risk, a mechanism widely acknowledged in product diffusion but neglected in remanufacturing so far.

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Zhou, Xin Yuan, Pei Jing Shi, Wen Yu Wang y Bo Hai Liu. "Research Process of Remanufacturing Standard System". Applied Mechanics and Materials 513-517 (febrero de 2014): 4244–47. http://dx.doi.org/10.4028/www.scientific.net/amm.513-517.4244.

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In order to develop remanufacturing industry in China, building a perfect system of remanufacturing standard is an urgent need, which can ensure the stable and reliable quality of remanufacturing product. In this paper, a system framework of remanufacturing standard was put forward, based on the demands of remanufacturing industry development in China. Remanufacturing standards were divided into three levels, such as generic technology standards of cross-industry, important industry and major products. And then the remanufacturing standard system was analyzed and explained.

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Zhou, Wei y Chao Ke. "A Mass-Customization-Based Remanufacturing Scheme Design Method for Used Products". Sustainability 14, n.º 16 (14 de agosto de 2022): 10059. http://dx.doi.org/10.3390/su141610059.

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Remanufacturing scheme design (RSD) is an essential step in the restoration and upgrading of used products. However, the quantity of remanufactured products is growing rapidly, and customers have personalized demands for remanufactured products that lead to shorter design cycles. In addition, the used products are scrapped due to their own defects, such as performance failure and functional degradation, which correspond to the inherent remanufacturing demand (IRD) of used products. Faced with large quantities of used products, how to quickly develop reasonable remanufacturing schemes for satisfying customers’ individual demands and the IRD is an urgent problem to be solved. To address these issues, a mass customization-based RSD method is proposed. First, remanufacturing demand comprising customer demand and the IRD is analyzed to determine the RSD targets and remanufacturing types. Then, the RSD methods are intelligently selected based on the remanufacturing types, which include restorative remanufacturing, upgrade remanufacturing and hybrid remanufacturing, while the hybrid contains restorative remanufacturing and upgrade remanufacturing. Moreover, the restorative remanufacturing scheme is generated to satisfy the restorative remanufacturing targets based on reverse engineering (RE) and the tool contact point path section line (TCPPSL) method. After used products are restored, case-based reasoning (CBR) is used to retrieve the case that best matches the upgrade remanufacturing targets, while the grey relational analysis (GRA) algorithm is applied to calculate the similarity between cases. Finally, the feasibility of this method is verified by considering the RSD of a used lathe. The results indicated that the proposed approach can rapidly help designers to obtain remanufacturing solutions for satisfying the customer demand and IRD.

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Shahbazi, Sasha, Kerstin Johansen y Erik Sundin. "Product Design for Automated Remanufacturing—A Case Study of Electric and Electronic Equipment in Sweden". Sustainability 13, n.º 16 (12 de agosto de 2021): 9039. http://dx.doi.org/10.3390/su13169039.

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Remanufacturing is one of the main practices toward a circular economy and industrial sustainability. Remanufacturing is highly dependent on how circular products are designed and developed. Remanufacturing can also benefit from automation for efficiency, accuracy and flexibility. This paper, via a multiple case study, connects the three areas of remanufacturing, product design and automation and investigates how circular product design can facilitate automation remanufacturing processes. First, circular product design guidelines are discussed with regard to remanufacturing. Second, potential areas for automation at three remanufacturers of electric and electronic equipment are pinpointed. Finally, design guidelines are connected to the identified potential automation areas in each remanufacturing process and discussed together. According to our results, the main incentives for automating remanufacturing processes are mainly related to the work environment, efficiency and quality. In addition, several design guidelines can facilitate automated remanufacturing processes; for instance, the standardization of components, fasteners and remanufacturing tools across different models and brands can also facilitate automated remanufacturing, where products can easily and nondestructively be disassembled by a robot or a machine.

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Liu, Yun, Bin Shi Xu, Pei Jing Shi y Bo Hai Liu. "A Research on Remanufacturing Products Quality Control". Advanced Materials Research 314-316 (agosto de 2011): 2162–67. http://dx.doi.org/10.4028/www.scientific.net/amr.314-316.2162.

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The quality of remanufacturing products, which is always restricting the development of remanufacturing industry, is one of sixty-four-dollar questions. By detecting the cores, process control in remanufacturing production and certificating remanufacturing products, quality control of remanufacturing products is studied. Because of cores different in original states, remanufacturing is in low-volume on the whole. Based on Bayesian posterior analysis, the paper improves the control chart and uses the previous data to monitor the production process. Finally, some advances are given to remanufacturing product certification.

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Caterino, Mario, Marcello Fera, Roberto Macchiaroli y Duc Truong Pham. "Cloud remanufacturing: Remanufacturing enhanced through cloud technologies". Journal of Manufacturing Systems 64 (julio de 2022): 133–48. http://dx.doi.org/10.1016/j.jmsy.2022.06.003.

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Tesis sobre el tema "Remanufacturing"

Östlin, Johan. "On Remanufacturing Systems : Analysing and Managing Material Flows and Remanufacturing Processes". Doctoral thesis, Linköpings universitet, Monteringsteknik, 2008. http://urn.kb.se/resolve?urn=urn:nbn:se:liu:diva-11932.

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The aim of remanufacturing is to retrieve a product’s inherent value when the product no longer fulfils the user’s desired needs. By taking advantage of this inherent value through different product recovery alternatives, there is a potential for both economically and environmental advantageous recovery of products. Remanufacturing is a complex business due to the high degree of uncertainty in the production process, mainly caused by two factors: the quantity and the quality of returned products. These factors have implications both on the external processes, e.g. coordinating input of returned products with the demand for remanufactured products, as well as the internal processes that coordinates the operations within the factory walls. This additional complexity needs to be considered when organising the remanufacturing system. The objective of this dissertation is to explore how remanufacturing companies can become more competitive through analysing and managing material flows and remanufacturing processes. The first issue discussed in this dissertation is the drivers that make companies interested in remanufacturing products in the first place. The conclusion is that the general drivers are profit, company policy and the environmental drivers. In a general sense, the profit motivation is the most prevalent business driver, but still there are situations where this motivation is secondary to policy and environmental drivers. Secondly, the need to balance the supply of returned products with the demand for remanufactured products shows that the possible remanufacturing volumes for a product are dependent on the shape of the supply and demand distributions. By using a product life cycle perspective, the supply and demand situations can be foreseen and support is given on possible strategies in these different supply and demand situations. Thirdly, how used products are gathered from customers is categorised by seven different customer relationship types. These types all have different effects on the remanufacturing system, and the characteristics of these relationships are disused in detail. When considering the remanufacturing process within the factory walls, a generic remanufacturing process was developed that divides the remanufacturing process into five different phases; pre-disassembly, disassembly, reprocessing, reassembly and the post-assembly phase. These different phases are separated by three different key decision points in the process that also have a major impact on the material planning of the process. For the remanufacturing material planning and production planning, the possibility to apply lean principles can be difficult. One foundation for implementing lean principles in new production is the existence of standardised processes that are stable and predictable. In the remanufacturing system, the possibilities to realise a predictable process is limited by the “normal” variations in quantity and the quality of the returned cores. Even though lean principles can be problematic to implement in the remanufacturing environment, this dissertation proposes a number of solutions that can be used to make the remanufacturing process leaner.

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Östlin, Johan. "On remanufacturing systems : analysing and managing material flows and remanufacturing processes /". Linköping : Department of Management and Engineering, Linköpings universitet, 2008. http://urn.kb.se/resolve?urn=urn:nbn:se:liu:diva-11932.

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Dunkel, Mathias. "Methodenentwicklung für lean remanufacturing". Aachen Shaker, 2007. http://d-nb.info/987862596/04.

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Dunkel, Mathias. "Methodenentwicklung für Lean Remanufacturing /". Aachen : Shaker, 2008. http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&doc_number=016700053&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA.

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Boustani, Avid. "Remanufacturing and energy savings". Thesis, Massachusetts Institute of Technology, 2010. http://hdl.handle.net/1721.1/58461.

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Thesis (S.M.)--Massachusetts Institute of Technology, Dept. of Mechanical Engineering, 2010.
Cataloged from PDF version of thesis.
Includes bibliographical references (p. 205-213).
The substantial growth in industrial production, demand for materials, and population has led to an increasing need for sustainable manufacturing processes to mitigate the negative impacts on the environment and meet the needs of future generations. One proposed direction is remanufacturing, which is a process whereby used products having reached their end-of-life, are restored back to useful service-life. Remanufacturing utilizes the energy and embedded value retained in a product upon reaching end-of-life. Remanufacturing can close the loop between disposal and supply chains, extend the service lifetime of products, conserve resources, and help mitigate environmental consequences attributed to landfilling. Moreover, by preserving the geometrical architecture of cores, remanufacturing can reduce the needs for raw material processing and many manufacturing processes, hence, saving energy. A critical issue to consider when evaluating energy savings in remanufacturing is the product use phase: how well does the remanufactured device perform in the use phase compared to a similar new product from an energy standpoint? To answer this question, we utilize Life Cycle Assessments framework. Using this methodology, we quantify cumulative energy demands of a remanufactured product during its lifecycle and compare it to an equivalent new product. We conduct an analysis of lifecycle energy savings of remanufacturing for 19 different products in 8 distinct product case studies (4 product case studies discussed in detail in this thesis).
(cont.) By performing lifecycle evaluations we conclude that remanufacturing can be a net energy-saving option for products that have energy requirements dominated by the production phase. Moreover, our energy analysis sheds light on the importance of considering use phase while evaluating the energy savings potential of remanufacturing. We conclude that from a total life cycle perspective, remanufacturing may be a net energy saving as well as a net energy expending end-of-life option. We argue that in investigating energy savings of remanufacturing as an end-of-life option, one should also evaluate large-scale critical factors in order to effectively address the systems challenges associated with remanufacturing. Our retrospective approach signifies the importance of studying critical factors such as technological improvements, policy interventions, economic incentives, and business models in order to draw inferences about energy and economic savings potential of remanufacturing. In addition, we argue that the generalized claims about remanufacturing as the ultimate end-of-life option are not only subject to dynamic global changes, but also restricted by the limitations in the lifecycle environmental methodologies. Lastly, we conclude that the evaluations for product remanufacturing and energy savings are more valuable and justified if conducted on a case-by-case basis.
by Avid Boustani.
S.M.

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Cuppernull, Michael J. 1957. "Aircraft remanufacturing process improvement analysis". Thesis, Massachusetts Institute of Technology, 1999. http://hdl.handle.net/1721.1/88823.

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Mitra, Supriya Ranjan. "Essays on competitive strategy in remanufacturing". Related electronic resource: Current Research at SU : database of SU dissertations, recent titles available full text, 2006. http://proquest.umi.com/login?COPT=REJTPTU0NWQmSU5UPTAmVkVSPTI=&clientId=3739.

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Langella, Ian M. "Planning demand-driven disassembly for remanufacturing". Wiesbaden : Dt. Univ.-Verl, 2007. http://www.gbv.de/dms/zbw/526943912.pdf.

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Lindahl, Mattias, Erik Sundin y Johan Östlin. "Environmental issues with the remanufacturing industry". Linköpings universitet, Institutionen för konstruktions- och produktionsteknik, 2006. http://urn.kb.se/resolve?urn=urn:nbn:se:liu:diva-35502.

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Researchers often regard remanufacturing as an environmentally beneficial end-of-life option. There have been, however, few environmental measurements performed in the area. The aim of this paper is to identify general environmental pros and cons with remanufacturing. This is done through the analysis of practical examples in remanufacturing industries. Life Cycle Assessment methodology has been used for the environmental validations. The first conclusion, based on the industrial cases and the literature review, is that remanufacturing is preferable from a material resource perspective when compared with manufacturing of new products. The second conclusion is that remanufacturing is preferable from a more overarching perspective for some of the investigated cases, but it is not possible to draw any general conclusions since the companies studied are few and benefits from remanufacturing are highly context-related.

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Amezquita, Tony. "Lean remanufacturing in the automotive industry". Thesis, Georgia Institute of Technology, 1996. http://hdl.handle.net/1853/23166.

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Libros sobre el tema "Remanufacturing"

W, Fargher John S. y APICS--The Educational Society for Resource Management., eds. Remanufacturing resource book. Falls Church, VA: APICS, 1996.

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Remanufacturing Seminar (1991 Minneapolis, Minn.). Remanufacturing Seminar proceedings. Falls Church, VA: The Society, 1991.

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Fera, Marcello, Mario Caterino, Roberto Macchiaroli y Duc Truong Pham, eds. Advances in Remanufacturing. Cham: Springer Nature Switzerland, 2024. http://dx.doi.org/10.1007/978-3-031-52649-7.

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Golinska-Dawson, Paulina y Frank Kübler, eds. Sustainability in Remanufacturing Operations. Cham: Springer International Publishing, 2018. http://dx.doi.org/10.1007/978-3-319-60355-1.

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Xing, Bo. Computational intelligence in remanufacturing. Hershey, PA: IGI Global publications, 2013.

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M, Gupta Surendra, ed. Remanufacturing modeling and analysis. Boca Raton: CRC Press, 2012.

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Spencer, Michael S. Production management in remanufacturing. Alexandria, VA: APICS Educational & Research Foundation, 2000.

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Li, Weidong y Sheng Wang, eds. Sustainable Manufacturing and Remanufacturing Management. Cham: Springer International Publishing, 2019. http://dx.doi.org/10.1007/978-3-319-73488-0.

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Kenna, Karen M. Remanufacturing hardwood lumber for exports. Atlanta, GA: U.S. Dept. of Agriculture, Forest Service, Cooperative Forestry, 1989.

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Kenna, Karen M. Remanufacturing hardwood lumber for exports. Atlanta, GA: U.S. Dept. of Agriculture, Forest Service, Cooperative Forestry, 1989.

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Capítulos de libros sobre el tema "Remanufacturing"

Ortegon, Katherine, Loring Nies y John W. Sutherland. "Remanufacturing". En CIRP Encyclopedia of Production Engineering, 1–4. Berlin, Heidelberg: Springer Berlin Heidelberg, 2016. http://dx.doi.org/10.1007/978-3-642-35950-7_6612-3.

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MatsumotoDr., Mitsutaka y Winifred IjomahDr. "Remanufacturing". En Handbook of Sustainable Engineering, 389–408. Dordrecht: Springer Netherlands, 2013. http://dx.doi.org/10.1007/978-1-4020-8939-8_93.

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Ortegon, Katherine, Loring Nies y John W. Sutherland. "Remanufacturing". En CIRP Encyclopedia of Production Engineering, 1428–30. Berlin, Heidelberg: Springer Berlin Heidelberg, 2019. http://dx.doi.org/10.1007/978-3-662-53120-4_6612.

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Ortegon, Katherine, Loring Nies y John W. Sutherland. "Remanufacturing". En CIRP Encyclopedia of Production Engineering, 1044–47. Berlin, Heidelberg: Springer Berlin Heidelberg, 2014. http://dx.doi.org/10.1007/978-3-642-20617-7_6612.

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Gang, Song, Liu Liming y Xu Kuangdi. "Welding Remanufacturing". En The ECPH Encyclopedia of Mining and Metallurgy, 1–2. Singapore: Springer Nature Singapore, 2023. http://dx.doi.org/10.1007/978-981-19-0740-1_1406-1.

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Laili, Yuanjun, Yongjing Wang, Yilin Fang y Duc Truong Pham. "Introduction to Remanufacturing". En Springer Series in Advanced Manufacturing, 1–6. Cham: Springer International Publishing, 2021. http://dx.doi.org/10.1007/978-3-030-81799-2_1.

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Jun, Yongsung y Yungchul Yoo. "Analysis of Elementary Technology Considering the Remanufacturing of Used Machinery: A Case Study". En Lecture Notes in Mechanical Engineering, 94–102. Cham: Springer International Publishing, 2023. http://dx.doi.org/10.1007/978-3-031-28839-5_11.

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AbstractGlobally, the circular economy is emerging as a key issue for industrial innovation by enhancing the efficiency of resource use and promoting resource circulation. Remanufacturing is to recover the product after use to maintain its original performance through a series of production processes. Machine tools experience various operational problems such as malfunction, damage to parts, and deterioration after the service life has elapsed. Remanufacturing technology has several common technologies that can solve similar failures among different items, and can be largely divided into existing remanufacturing process technology and technology for upgrading the performance of a machine. A systematic technical background is needed to ensure the performance and reliability of remanufacturing products, but so far there are few cases of research on machine tool remanufacturing in Korea.Therefore, in this study, machinery items with high frequency of use and marketability among machine tools were reviewed as targets for remanufacturing. For the remanufacturing of used machine tools, failures to be solved by functional characteristics of target parts were identified, and remanufacturing elementary technologies were classified and analyzed, respectively. In addition, basic studies such as major performance, Failure Mode and Effect Analysis (FMEA) were conducted for the used machine tools.

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Liu, WeiWei, Bin Zhang, Ming Zheng Li, Yanzeng Li y Hong-Chao Zhang. "Study on Remanufacturing Cleaning Technology in Mechanical Equipment Remanufacturing Process". En Re-engineering Manufacturing for Sustainability, 643–48. Singapore: Springer Singapore, 2013. http://dx.doi.org/10.1007/978-981-4451-48-2_105.

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Karvonen, Iris, Kim Jansson y Mikko Uoti. "Promoting Remanufacturing through Collaboration". En IFIP Advances in Information and Communication Technology, 599–608. Berlin, Heidelberg: Springer Berlin Heidelberg, 2013. http://dx.doi.org/10.1007/978-3-642-40543-3_63.

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Yang, S. S., S. K. Ong y A. Y. C. Nee. "Product Design for Remanufacturing". En Handbook of Manufacturing Engineering and Technology, 3195–217. London: Springer London, 2014. http://dx.doi.org/10.1007/978-1-4471-4670-4_72.

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Actas de conferencias sobre el tema "Remanufacturing"

Lund, R. T. y W. M. Hauser. "Remanufacturing - an American perspective". En 5th International Conference on Responsive Manufacturing - Green Manufacturing (ICRM 2010). IET, 2010. http://dx.doi.org/10.1049/cp.2010.0404.

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Shi Peijing, Wang Hongmei, Zhang Wei y Xu Binshi. "Advanced Automatic Remanufacturing Technology". En 2013 Fifth International Conference on Measuring Technology and Mechatronics Automation (ICMTMA 2013). IEEE, 2013. http://dx.doi.org/10.1109/icmtma.2013.48.

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Krill, Malte y Deborah Thurston. "Remanufacturing: Impacts of Sacrificial Cylinder Liners". En ASME 2003 International Design Engineering Technical Conferences and Computers and Information in Engineering Conference. ASMEDC, 2003. http://dx.doi.org/10.1115/detc2003/dfm-48144.

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Remanufacturing presents tremendous potential for recovering the economic value of manufactured components, and improving the environment. Some design features make remanufacturing less expensive, and/or increase the proportion of components that can be remanufactured. For example, sacrificial components can be used to protect key parts from wear. However, tradeoffs are sometimes involved, and product designers need tools to support design for remanufacturing. This paper presents models for estimating the costs and environmental impacts of employing sacrificial components (cylinder liners) in engine blocks. These models are incorporated into a spreadsheet-based design decision tool. Three illustrative examples demonstrate that 1) remanufacturing lowers overall costs when two lifecycles are considered, 2) sacrificial cylinder liners should be employed for small (2 liter) engines, and their superiority increases with multiple remanufacturing cycles, and 3) for large engines (5.3 liter) using cylinder liners is equally preferred to not using them, with respect to both overall cost and environmental impacts.

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Kang, Changmuk y Yoo S. Hong. "Dynamic Disassembly Planning for Remanufacturing of Multiple Types of Products". En ASME 2010 International Design Engineering Technical Conferences and Computers and Information in Engineering Conference. ASMEDC, 2010. http://dx.doi.org/10.1115/detc2010-28657.

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With the increased need for remanufacturing of end-of-life products, achieving economic efficiency in remanufacturing is urgently needed. The purpose of this study was to devise a cost-minimization plan for disassembly and remanufacturing of end-of-life products returned by consumers. A returned end-of-life product is disassembled into remanufacturable parts, which are supposed to be used for new products after being remanufactured. Each end-of-life product is disassembled into parts at variable levels as needed, taking into account not only disassembly but also manufacturing, remanufacturing, and holding inventory of remanufacturable parts. This study proposes a linear programming model for derivation of the optimal disassembly plan for each returned product, under deterministically known demand and return flows. For the purposes of an illustrative example, the proposed model was applied to the formulation of an optimal disassembly and remanufacturing plan of ‘Fuser Assembly’ of laser printers. The solution reveals that variable-level disassembly of products saves a significant remanufacturing cost compared with full disassembly.

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Kim, Hyung-Ju, Vineet Raichur y Steven J. Skerlos. "Economic and Environmental Assessment of Automotive Remanufacturing: Alternator Case Study". En ASME 2008 International Manufacturing Science and Engineering Conference collocated with the 3rd JSME/ASME International Conference on Materials and Processing. ASMEDC, 2008. http://dx.doi.org/10.1115/msec_icmp2008-72490.

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Remanufacturing is a process that restores old products to perform like new, while saving energy, reducing consumption of natural resources, and lowering environmental emissions. By extending the product life cycle, remanufacturing approaches enable closed loop material cycles that are ultimately necessary for a sustainable society. This paper provides some description of the current automotive remanufacturing enterprise, with a particular emphasis on key vehicle components that are currently remanufactured. The analysis yields two major conclusions. First, market price of a remanufactured component in the automotive sector is surprisingly uncorrelated with the number of companies engaged in remanufacturing that component — at least for companies registered with the Automotive Parts Remanufacturing Association (ARPA). Second, and less surprisingly, we find that remanufacturing reduces environmental burden significantly over new production. This improvement, for the case of the alternator used as a case study, can easily exceed one order of magnitude in the categories of material use, energy consumption, and greenhouse gas (GHG) emissions that are considered here.

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Lambert, A. J. D. "Disassembly Aimed at Product Remanufacturing". En ASME 2001 International Design Engineering Technical Conferences and Computers and Information in Engineering Conference. American Society of Mechanical Engineers, 2001. http://dx.doi.org/10.1115/detc2001/cie-21252.

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Abstract This paper describes a new approach for lot size optimisation for multiple product configurations to meet the demand on the different components that are present in it. Commonality and multiplicity are dealt with. The method is placed within the framework of general disassembly sequence planning with an emphasis on the minimisation and further processing of the required amount of product data. A case has been worked out for demonstrating the method. Some recommendations for further extension of the method are given.

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Cui Peizhi, Yao Jukun y Zhu Sheng. "Information-based remanufacturing upgrade study". En 5th International Conference on Responsive Manufacturing - Green Manufacturing (ICRM 2010). IET, 2010. http://dx.doi.org/10.1049/cp.2010.0409.

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Wang, Yongjing. "Robotic disassembly and remanufacturing automation". En 2022 27th International Conference on Automation and Computing (ICAC). IEEE, 2022. http://dx.doi.org/10.1109/icac55051.2022.9911128.

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Yao, Jukun, Xiaojun Shi, Sheng Zhu y Peizhi Cui. "Reverse Logistics Management for Remanufacturing". En 2008 4th International Conference on Wireless Communications, Networking and Mobile Computing (WiCOM). IEEE, 2008. http://dx.doi.org/10.1109/wicom.2008.1456.

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Zhou, Ziqiang, Guohong Dai, Chaobin Hu y Xiangyan Zhang. "Technology Architecture of Intelligent Remanufacturing". En 6th International Workshop of Advanced Manufacturing and Automation. Paris, France: Atlantis Press, 2016. http://dx.doi.org/10.2991/iwama-16.2016.59.

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Informes sobre el tema "Remanufacturing"

Hilton, Brian. Design for Remanufacturing. Office of Scientific and Technical Information (OSTI), noviembre de 2021. http://dx.doi.org/10.2172/1876418.

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Ferrer, Geraldo. Material Planning for Remanufacturing Defense Assets. Fort Belvoir, VA: Defense Technical Information Center, marzo de 2008. http://dx.doi.org/10.21236/ada529441.

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Ferrer, Geraldo. Material Planning for Remanufacturing Defense Assets. Fort Belvoir, VA: Defense Technical Information Center, agosto de 2009. http://dx.doi.org/10.21236/ada513800.

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Sordelet, Daniel y Ondrej Racek. Energy Reductions Using Next-Generation Remanufacturing Techniques. Office of Scientific and Technical Information (OSTI), febrero de 2012. http://dx.doi.org/10.2172/1035482.

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Feng, Shaw C., Hanmin Lee, Che B. Joung, Thomas Kramer, Parisa Ghodous y Ram D. Sriram. Information model for disassembly for reuse, recycle, and remanufacturing. Gaithersburg, MD: National Institute of Standards and Technology, 2011. http://dx.doi.org/10.6028/nist.ir.7772.

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Peters, Brett A. Use of Simulation-Based Analysis, Prepiction and Control in Remanufacturing Facilities. Fort Belvoir, VA: Defense Technical Information Center, diciembre de 2000. http://dx.doi.org/10.21236/ada392079.

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Rudert, Steffen y Udo Buscher. On the complexity of the economic lot-sizing problem with rework of defectives. Technische Universität Dresden, 2022. http://dx.doi.org/10.25368/2022.322.

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In this paper, we will show that the economic lot-sizing problem with rework of defectives is NP-hard. Therefore, we reduce it to the well-known PARTITION problem. This is in line with the findings for similar models that in-vestigate lot-sizing with remanufacturing.

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Moody, John, Charles J. Gatchell, Elizabeth S. Walker y Powsiri Klinkhachorn. User's guide to UGRS: the Ultimate Grading and Remanufacturing System (version 5.0). Radnor, PA: U.S. Department of Agriculture, Forest Service, Northeastern Research Station, 1998. http://dx.doi.org/10.2737/ne-gtr-254.

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