Environmental Regulations Impose New Product Lifecycle Information Requirements

Messina, John V.; Simmon, Eric D.; Aronoff, Matthew L.

doi:10.1007/978-1-84628-976-7_42

Cited by 3 publications

(4 citation statements)

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“…Also from a political view, the tightening environmental legislation in the EU and US sets new requirements for sustainable manufacturing and end-of-life considerations of all kinds of goods produced (e.g. machinery, medicine, chemicals, food, and other sectors) and the responsibility of the manufacturer is emphasized [11]. As a response to these pressures, the concepts and practices of sustainable PSS [12], closed-loop manufacturing/production/supply chains [13] and closed-loop PLM [14][15] have been developed in recent years.…”

Section: Plm In Customer-centric Manufacturingmentioning

confidence: 99%

Lifecycle-Based Requirements of Product-Service System in Customer-Centric Manufacturing

Papinniemi

Fritz

Hannola

et al. 2014

IFIP Advances in Information and Communication Technology

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Abstract. Managing through-life information of products and services has become an important competitive means in customer-centric industries. The need for managing new types of product-service requirements for sustainability, traceability and performance have widened the traditional perspective of PLM information to integrate new issues, e.g. service information. In this study we examine how the diverse and through-life requirements information could better be integrated in product and business processes of customer-centric manufacturing. The study is based on a literature review and two case interviews. The objective is to elicit requirements information for Product-Service System (PSS). The study introduces the concepts of product-service system, and outlines through-life requirements in customer-centric business. PSS is a new concept for customer-centric business to improve the performance of sustainability, traceability, reusability and repeatability.

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Section: Plm In Customer-centric Manufacturingmentioning

confidence: 99%

Lifecycle-Based Requirements of Product-Service System in Customer-Centric Manufacturing

Papinniemi

Fritz

Hannola

et al. 2014

IFIP Advances in Information and Communication Technology

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“…7 Nowadays, incorporating HSs restriction into products quality evaluation plays a vital role in realizing the 4Rs of products, namely, reduce, reuse, recycle, and recovery, to sustain a friendly ecosystem. 8 Many countries have initiated various green regulations such as Directives of Restriction of Hazardous Substances (RoHS), 9 End-of-Life Vehicles by the EU, 10 Electronic Waste Recycling Act SB20/50 by California, USA, 11 and the EU's new Circular Economy Action Plan. 12 These green directives and actions regulate entities and processes across the supply chain to practice sustainable paths that safeguard social and environmental well-being.…”

Section: Introductionmentioning

confidence: 99%

“…Many countries have initiated various green regulations such as Directives of Restriction of Hazardous Substances (RoHS), 9 End‐of‐Life Vehicles by the EU, 10 Electronic Waste Recycling Act SB20/50 by California, USA, 11 and the EU's new Circular Economy Action Plan 12 . These green directives and actions regulate entities and processes across the supply chain to practice sustainable paths that safeguard social and environmental well‐being.…”

Section: Introductionmentioning

confidence: 99%

Integrated green‐and‐quality inspection schemes for green product quality with six‐sigma yield assurance and risk management

Shu

Wang

Hsu

2023

Quality & Reliability Eng

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Due to worldwide awareness of the sustainable environment, research on green production and distribution has grown within academic and industrial communities. For an eco‐friendly environment, limiting hazardous substances (HSs) concentration in products quality assessment is one of the most crucial strategies to achieve the 4Rs of the products, namely, Reduction, Reuse, Recycle, and Recovery. Trustworthy inspection, evaluation, and validation methods to ensure multiprocess yield and risk of acquiring green product quality are desired for the industry. However, the existing methods use arbitrary inspection sizes, levels of capability, and ignore controls for both Types I and II risks. To overcome these drawbacks and pursue Six‐Sigma green capability suppliers, this study establishes a multiprocess performance chart, called the green product quality analysis chart (GPQAC), to inspect and analyze green product submissions. GPQAC implements variables sampling plans based on unilateral and bilateral process capability indices. The chart operates at given Six‐Sigma green and quality compliance and simultaneously controlled Type I and Type II risks. The required sample size and rejection and acceptance capability zones are determined from the multiprocess optimization taking into account the Bonferroni correction. This determination enables GPQAC to aggregate the overall status of a group of processes and assess the ability of the supplier processes to execute efficiently and economically relative to the customer specifications. We also establish web‐based GPQAC graphs using a cloud‐computing program for lot disposition. Finally, a real‐world case illustrates the utility of the GPQAC integrated variables sampling scheme in enhancing environmental sustainability.

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“…It restricts the use of six substances used within electronics products: lead, mercury, cadmium, hexavalent chromium, polybrominated biphenyls, and polybrominated diphenyls. While most companies have avoided immediate repercussions from RoHS, there are more environmental regulations on the way, each with new data requirements [2].…”

Section: Introductionmentioning

confidence: 99%

Improving environmental information handling and data exchange within the electronics industry

Simmon

Messina

2008

2008 IEEE International Symposium on Electronics and the Environment

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Environmental regulations impacting the electronics industry are driving the need for new data management systems to track environmental data including material data. This paper describes efforts to take a holistic approach in managing this information by working with industry standards organizations and applying system design philosophies to the standards development process.Index Terms-Material content, information management, data exchange, supply chain

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Environmental Regulations Impose New Product Lifecycle Information Requirements

Cited by 3 publications

References 0 publications

Lifecycle-Based Requirements of Product-Service System in Customer-Centric Manufacturing

Lifecycle-Based Requirements of Product-Service System in Customer-Centric Manufacturing

Integrated green‐and‐quality inspection schemes for green product quality with six‐sigma yield assurance and risk management

Improving environmental information handling and data exchange within the electronics industry

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