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Journal articles on the topic 'Template for Sustainable Product Development'

Author: Grafiati
Published: 4 June 2021
Last updated: 2 February 2022

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1

Ny, Henrik, Sophie Hallstedt, Karl-Henrik Robèrt, and Göran Broman. "Introducing Templates for Sustainable Product Development." Journal of Industrial Ecology 12, no. 4 (August 2008): 600–623. http://dx.doi.org/10.1111/j.1530-9290.2008.00061.x.

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Barin, Gabriela Borin, Thalita Santos Bispo, Iara de Fátima Giminenez, and Ledjane Silva Barreto. "Carbon Nanostructures Synthesize from Coconut Coir Dust Mediated by Layered Clays through Hydrothermal Process." Materials Science Forum 727-728 (August 2012): 1355–59. http://dx.doi.org/10.4028/www.scientific.net/msf.727-728.1355.

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Brazil has a large potential for energy generation and development of new materials from renewable resources through eco-friendly routes, which presents an alternative for construction of an eco-technological platform, where the entire lifecycle of the material or industrial product be sustainable. The proposal of the present work was synthesize carbon nanostructures from coconut coir dust and via template synthesis mediated by layered clays through hydrothermal process. The obtained materials were characterized by Raman Spectroscopy, Fourier Transform Infrared Spectroscopy and Scanning Electron Microscope (SEM). Carbon phase formation was indicated by infrared results with bands at 1444 cm-1and 1512 cm-1assigned to C=C of aromatic groups. Raman spectroscopy results showed presence of carbonaceous species by the appearance of D and G bands assigned to disordered and graphitic crystallites, respectively. SEM results showed overlapping sheets and plates formation. High Resolution Transmission Electron Microscopy measures are in progress.
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Acharya, Shakuntala, Kiran Ghadge, B. S. C. Ranjan, Suman Devadula, and Amaresh Chakrabarti. "Evaluating the effectiveness of InDeaTe tool in supporting design for sustainability." Artificial Intelligence for Engineering Design, Analysis and Manufacturing 34, no. 1 (February 2020): 45–54. http://dx.doi.org/10.1017/s0890060419000337.

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AbstractIn today's aggressive global market, innovation is key for success and design solutions require not only to achieve competitive edge, but also to address the growing environmental, social, and economic needs of the community at large. Consideration of these three pillars of sustainability makes a design inclusive, and life cycle thinking is found to be a promising approach across the literature. However, most supports for design address certain facets or aid singular tasks, and the use of design methods and tools, which have the potential to significantly improve the design process, is low due to inappropriate use and selection of these methods. InDeaTe (Innovation Design database and Template) is a holistic, knowledge-driven, computer-based tool for design of sustainable systems, such as products, manufacturing systems andservice systems and has been developed to address and integrate the aspects of sustainability on a singular design platform. It comprises of the generic design process Template that imbibes life cycle thinking into the process by incorporating consideration of every life cycle phase in each design stage, where design activities are performed iteratively. It further supports the design process by aiding the use and selection of appropriate design methods and tools in concurrence with the primary motivation of improving sustainability of the system with the aid of the InDeaTe Design Database. This paper discusses the ontological underpinnings behind the conceptualization of the InDeaTe methodology and the development of the supporting tool. The paper further reports empirical findings from six different case studies conducted for evaluating the effectiveness of InDeaTe tool in supporting design for sustainability (DfS). The results show that InDeaTe tool has potential in supporting DfS.
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Chen, Canxi, Abhishek Chaudhary, and Alexander Mathys. "Dietary Change Scenarios and Implications for Environmental, Nutrition, Human Health and Economic Dimensions of Food Sustainability." Nutrients 11, no. 4 (April 16, 2019): 856. http://dx.doi.org/10.3390/nu11040856.

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Demand side interventions, such as dietary change, can significantly contribute towards the achievement of 2030 national sustainable development goals. However, most previous studies analysing the consequences of dietary change focus on a single dimension of sustainability (e.g., environment) using a limited number of indicators and dietary scenarios. A multi-dimension and multi-indicator analysis can identify the potential trade-offs. Here, starting from the current food consumption data (year 2011), we first designed nine alternative dietary scenarios (healthy Swiss diet, healthy global diet, vegetarian, vegan, pescatarian, flexitarian, protein-oriented and meat-oriented diets and a food greenhouse gas tax diet). Next we calculated three nutritional quality (nutrient balance score, disqualifying nutrient score, percent population with adequate nutrition), five environmental (greenhouse gas, water, land, nitrogen and phosphorus use), one economic (daily food expenditure) and one human health indicator (DALYs) for current and alternative diets. We found that transition towards a healthy diet following the guidelines of Swiss society of nutrition is the most sustainable option and is projected to result in 36% lesser environmental footprint, 33% lesser expenditure and 2.67% lower adverse health outcome (DALYs) compared with the current diet. On the other extreme, transition towards a meat or protein oriented diet can lead to large increases in diet related adverse health outcomes, environmental footprint, daily food expenditure and a reduction in intakes of essential nutrients (for Vitamin C, Fibre, Potassium and Calcium). We found that shifting to the vegetarian and vegan diet scenarios might lead to a reduction in intakes of certain micronutrients currently supplied primarily by animal-sourced foods (Vitamin B12, Choline and Calcium). Results show that achieving a sustainable diet would entail a high reduction in the intake of meat and vegetable oils and a moderate reduction in cereals, roots and fish products and at the same time increased intake of legumes, nuts, seeds, fruits and vegetables. We identify several current data and research gaps that need to be filled in order to get more accurate results. Overall, our analysis underscores the need to consider multiple indicators while assessing the dietary sustainability and provides a template to conduct such studies in other countries and settings. Future efforts should focus on assessing the potential of different interventions and policies that can help transition the population from current to sustainable dietary patterns.
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van Weenen, J. C. "Towards sustainable product development." Journal of Cleaner Production 3, no. 1-2 (January 1995): 95–100. http://dx.doi.org/10.1016/0959-6526(95)00062-j.

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6

Hanssen, O. J. "Sustainable product systems—experiences based on case projects in sustainable product development." Journal of Cleaner Production 7, no. 1 (February 1999): 27–41. http://dx.doi.org/10.1016/s0959-6526(98)00032-8.

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7

Chen, Gang, Hong Chao Zhang, and Chang Yong Chu. "Decision Analysis in Sustainable Product Development." Advanced Materials Research 468-471 (February 2012): 370–73. http://dx.doi.org/10.4028/www.scientific.net/amr.468-471.370.

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As one of the main contributors to global environmental degradation, mechatronic industry must take the responsibility of improving the environmental performance of its products. Compared with further development of green technology, setting environmental protection willingly and seriously as one of the engineering optimization objectives are also important. This paper analyzes the decision making processes from the viewpoint of product life cycle and serves the purpose of reaching a balance between economic profit and environmental performance for each life cycle participator.
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8

Wang, Cheng Jun, and Mei Rong Wang. "Sustainable Development of Agricultural Product Logistics." Applied Mechanics and Materials 522-524 (February 2014): 1817–21. http://dx.doi.org/10.4028/www.scientific.net/amm.522-524.1817.

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As a large agricultural country, agricultural economic development determines the development of the national economy, and the logistics of agricultural products but restricts agricultural economic development, China's economic development is incompatible with the rural economy, largely agricultural logistics relationship enough disorders due. In this paper, according to the anti-agricultural own characteristics, the condition of the rural economy, the situation of logistics development, management system and development like logistics, be unbalanced urban and rural development and other factors put forward five agricultural logistics development model of sustainable development, and the corresponding development mechanism.
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9

Cooper, Tim. "Product Development Implications of Sustainable Consumption." Design Journal 3, no. 2 (July 2000): 46–57. http://dx.doi.org/10.2752/146069200789390150.

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10

Marques, P. Carmona, M. Januário Charmier, and J. Oliveira Santos. "A Survey on Sustainable Product Development." Procedia Manufacturing 39 (2019): 1307–16. http://dx.doi.org/10.1016/j.promfg.2020.01.328.

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Hoffmann, Esther. "Consumer integration in sustainable product development." Business Strategy and the Environment 16, no. 5 (2007): 322–38. http://dx.doi.org/10.1002/bse.577.

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12

Shalij, P. R., G. V. Prabhushankar, and P. L. Biju. "Sustainable path modelling: a tool for sustainable product development." International Journal of Industrial and Systems Engineering 25, no. 3 (2017): 297. http://dx.doi.org/10.1504/ijise.2017.10002579.

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13

Onuma, Ayumi. "Sustainable consumption, sustainable development, and green net national product." Environmental Economics and Policy Studies 2, no. 3 (September 1999): 187–97. http://dx.doi.org/10.1007/bf03353910.

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14

Haid, Marco, and Julia N. Albrecht. "Sustainable Tourism Product Development: An Application of Product Design Concepts." Sustainability 13, no. 14 (July 16, 2021): 7957. http://dx.doi.org/10.3390/su13147957.

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This study examines sustainable tourism products in tourism destinations. Based on concepts of sustainable product design, our study proposes a framework for sustainable tourism products by adapting an existing Design for Sustainability Framework to consider and analyze the characteristics and themes of sustainable (tourism) products as well as their impact and scope. Using a pragmatic qualitative approach, 15 semi-structured interviews with destination managers from the German-speaking Alpine region formed the empirical basis of the study. The results emphasize key themes and multiple characteristics associated with sustainable tourism products in tourist destinations, addressing all sustainability components and design innovation levels. This study is the first to apply existing sustainable product design concepts to destination contexts and discuss their applicability for sustainable tourism products. For practitioners, this study provides support for the development of sustainable tourism products and contributes to a better understanding of the effects and levels of these products as well as sustainability marketing.
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Heintz, Juliette, Jean-Pierre Belaud, Nishant Pandya, Moises Teles Dos Santos, and Vincent Gerbaud. "Computer aided product design tool for sustainable product development." Computers & Chemical Engineering 71 (December 2014): 362–76. http://dx.doi.org/10.1016/j.compchemeng.2014.09.009.

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16

Nijhof, Andre, Marjolein Bakker, and Henk Kievit. "The role in encroachment of the sustainability aspects of value propositions." European Journal of Marketing 53, no. 10 (October 7, 2019): 2126–45. http://dx.doi.org/10.1108/ejm-11-2017-0879.

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Purpose This paper aims to elucidate what concepts of encroachment in business-to-consumer markets explain the market share increase of companies with sustainability value propositions. It documents the encroachment field, analyses the practice of ten companies and proposes and defines the additional concept of transparency encroachment. Design/methodology/approach Semi-structured interviews were conducted with representatives of companies with an increase in customers and market share due to their sustainability value proposition. These were supplemented with secondary data, like documented interviews, sustainability reports and reports on market development. The interview transcripts and secondary data notes were coded using template analysis. Findings As the literature on encroachment assumes that new value propositions take away market share from incumbents due to advantages for customers, it is questionable whether it can explain how value propositions with advantages for society as a whole can encroach markets. The results of this study show that the dominant forms of encroachment in the current literature – high-end encroachment, low-end encroachment and business model encroachment – can only partly explain encroachment through sustainability value propositions. An additional encroachment form is identified: transparency encroachment. Research limitations/implications This research adds greater clarity to what companies do when they encroach markets with sustainability value propositions. Furthermore, the pattern of transparency encroachment is discussed to define the common aspects of this concept and to argue why these aspects are needed for encroachment. It implies that marketing activities should start from the perception that customers are allies – and not kings – in the development toward higher levels of sustainability. Practical implications The paper offers practical implications insofar as it deconstructs three aspects of transparency encroachment that are enacted by companies. Customer awareness, unique experience and customer contribution are all needed to enact transparency encroachment. It is argued that other companies introducing sustainability value propositions to encroach markets should find their own application of these three aspects to create the potential for successful encroachment. Social implications Because of the focus on sustainability aspects of value propositions, this study generates knowledge about the marketing and encroachment of products with a relatively positive impact on society. Adoption of the identified concept of transparency encroachment contributes to sustainable development. Originality/value To date, there has been very little marketing research that explores the role of sustainability value propositions in the encroachment of markets. Nonetheless, nowadays customers seem to look beyond their own benefits and are increasingly demanding a new approach that builds upon the sustainability aspects of products. This research adds greater clarity to encroachment through sustainability value propositions.
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Natrayan, L., and MSenthil Kumar. "SUSTAINABLE LIGHTWEIGHT MATERIAL DESIGN IN PRODUCT DEVELOPMENT." International Journal of Advanced Research 6, no. 7 (July 31, 2018): 83–92. http://dx.doi.org/10.21474/ijar01/7339.

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18

Turan, Faiz Mohd, Kartina Johan, and Nik Hisyamudin Muhd Nor. "Criteria Assessment Model for Sustainable Product Development." IOP Conference Series: Materials Science and Engineering 160 (November 2016): 012004. http://dx.doi.org/10.1088/1757-899x/160/1/012004.

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19

Lu, B., J. Zhang, D. Xue, and P. Gu. "Systematic Lifecycle Design for Sustainable Product Development." Concurrent Engineering 19, no. 4 (October 13, 2011): 307–24. http://dx.doi.org/10.1177/1063293x11424513.

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20

Thomé, Antônio Márcio Tavares, Annibal Scavarda, Paula Santos Ceryno, and Arne Remmen. "Sustainable new product development: a longitudinal review." Clean Technologies and Environmental Policy 18, no. 7 (March 28, 2016): 2195–208. http://dx.doi.org/10.1007/s10098-016-1166-3.

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21

Gmelin, Harald, and Stefan Seuring. "Determinants of a sustainable new product development." Journal of Cleaner Production 69 (April 2014): 1–9. http://dx.doi.org/10.1016/j.jclepro.2014.01.053.

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22

Mani, Mahesh, Bjorn Johansson, Kevin W. Lyons, Ram D. Sriram, and Gaurav Ameta. "Simulation and analysis for sustainable product development." International Journal of Life Cycle Assessment 18, no. 5 (January 9, 2013): 1129–36. http://dx.doi.org/10.1007/s11367-012-0538-0.

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23

Vijayan, S. C., P. R. Shalij, and P. L. Biju. "Sustainable product development using balanced scorecard perspectives." IOP Conference Series: Materials Science and Engineering 1114, no. 1 (March 1, 2021): 012060. http://dx.doi.org/10.1088/1757-899x/1114/1/012060.

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24

Miranda, Jhonattan, Roberto Pérez-Rodríguez, Vicente Borja, Paul K. Wright, and Arturo Molina. "Sensing, smart and sustainable product development (S3 product) reference framework." International Journal of Production Research 57, no. 14 (November 21, 2017): 4391–412. http://dx.doi.org/10.1080/00207543.2017.1401237.

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25

Monastyrnaya, Elena, Gwenola Yannou Le Bris, Bernard Yannou, and Gaëlle Petit. "A template for sustainable food value chains." International Food and Agribusiness Management Review 20, no. 4 (July 24, 2017): 461–76. http://dx.doi.org/10.22434/ifamr2015.0061.

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This paper proposes a template to assist food value chain actors in their collaborative efforts to develop common sustainable strategies and business models. Inspired by the simplicity of the Business Model Canvas, the template reintroduces sustainable practices as a support for management solutions for sustainable food value chains. The template requires cooperation between actors and stakeholders and comprises three steps: (1) identification of needs for sustainability; (2) development of value chain practices aimed to deliver sustainable value, and assignment of responsibilities to actors for these practices; and (3) formulation of a sustainable value proposition. The template also allows a simple graphical representation of sustainability in value chains, which helps improve communication between actors, and allows stakeholders to be kept informed. The template is applied to a sustainable pork value chain to illustrate how it captures various aspects of sustainability in the pork industry.
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Roy, Robin. "Sustainable product-service systems." Futures 32, no. 3-4 (April 2000): 289–99. http://dx.doi.org/10.1016/s0016-3287(99)00098-1.

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Wang, Yufan, and Haili Zhang. "Achieving Sustainable New Product Development by Implementing Big Data-Embedded New Product Development Process." Sustainability 12, no. 11 (June 8, 2020): 4681. http://dx.doi.org/10.3390/su12114681.

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Literature suggests that new product development (NPD) has an impact on sustainable organizational performance. Yet, previous studies in NPD have mainly been based on “experience-driven”, not data-driven, decision-making in the NPD process. We develop a research model to examine how the big data-embedded NPD process affects the sustainable innovation performance of NPD projects. We test the proposed model and conduct the cross-national comparison using data collected on 1858 NPD projects in the United States of America (USA), the United Kingdom (UK), and Australia. The research findings suggest that big data-embedded business analysis, product design, and product testing increase sustainable innovation performance in all three countries. The study findings also reveal several surprising results: (1) in the USA, big data-embedded product testing has the highest effect on sales growth and gross margin, (2) in Australia, big data-embedded commercialization has the highest effect on sales growth and gross margin, and (3) in the UK, big data-embedded commercialization has the highest effect on second-year sales growth, first-year, and third-year gross margin; in addition, big data-embedded product testing has the highest effect on third-year sales growth and second-year gross margin.
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Visalyaputra, Krisda, and Kochoke Poonikom. "The Sustainable Culture in Industrial Product Development Team." International Journal of Environmental, Cultural, Economic, and Social Sustainability: Annual Review 2, no. 6 (2007): 89–94. http://dx.doi.org/10.18848/1832-2077/cgp/v02i06/54274.

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Kara, Sami, Suphunnika Ibbotson, and Berman Kayis. "Sustainable product development in practice: an international survey." Journal of Manufacturing Technology Management 25, no. 6 (July 1, 2014): 848–72. http://dx.doi.org/10.1108/jmtm-09-2012-0082.

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Purpose – Improved environmental performance of products and services have lately become one of the main strategic and operational goals of manufacturers. This is due to influences from various stakeholders including government, consumers, societies and the business partners. Evidently, different manufacturers differently implement their environmental practices for sustainable product development depending on various driving factors such as customer awareness, legislation, economic benefits and competitive strategies, etc. In theory, manufacturers can efficiently undertake sustainable product development by implementing life cycle thinking into their system. This way, they can monitor the environment hot spots throughout a product life cycle and be able to minimise the environmental impact effectively. Therefore, several researchers have focused on developing tools and strategies to support the manufacturers in implementing sustainable manufacturing and product development studies. However, in reality, each manufacturer may operate their manufacturing system differently to accommodate different demands and constraints induced by firm characteristics and its regional location. Their attempts to implement the sustainable tools and strategies to their companies would also be different. Thus far, a number of studies have studied the implementation for a specific company. No studies have examined the relationship between their decisions and implementation for different characteristics of firms and different manufacturing locations. Therefore, the purpose of this paper is to comprehensively investigate the practices of manufacturers towards sustainable product development. Design/methodology/approach – A detailed statistical analysis was conducted on the survey data gathered from 330 manufacturing organisations in 13 countries. The research questions mainly cover implementation approaches, decision tools and techniques used and main driving forces at the strategic and operational levels concerning environmental practices in sustainable product development. This is to bridge the gaps between the research outputs and implementations in practice for the developed sustainable strategies and tools. Results highlighted interesting relationships of the implementations across different geographical regions (locations) as well as types and sizes of manufacturers. They can be used to shed some light for future research direction, the dominant driving forces of consumers and regulations importance towards the manufacturer practices to improve not only the environmental performance but also their social responsibility. In total, 12 null hypotheses were formulated to test the relationships as well as the correlations between the manufacturing characteristics and the research questions which cover several driving forces in implementing the environmental strategies. Findings – The results of this large-scale global research highlighted that different geographical/manufacturing regions are driven mainly by legislation, competition and consumer pressures whilst manufacturers of different sizes utilise various decision tools. Design tools such as LCA, DFE and ECQFD methods are likely to be utilised in the medium-and high-complexity product development by OEM and ETM manufacturers. Environmental responsibility plays an important role and also enhanced by other driving forces such as the economic benefits, the long-term survival in the market and the company image. Research limitations/implications – Future work may include some or all of the following; such as respondents of this survey may be re-contacted and comparative data can be gathered from these manufacturers to capture the changes over the years. Further investigation of the sustainable supply chain management approaches, influences of dynamic driving forces and the environmental practices towards cleaner production practices such as improving energy efficiency, minimising waste, recycling scraps and reusing product as well as the product recovery practices for used products would be beneficial to gather and evaluate. This would support to address the current trends and emerging practices. Practical implications – Results highlighted interesting relationships and thus provide some answers on strategies adopted by many manufacturers for the sustainability approaches and implementations across different geographical regions (locations) as well as types and sizes of manufacturers. The wave of change towards sustainability is clearly on enterprises, industries, communities and governments for thinking about solutions to increase the awareness in environmental sustainability thus reduce carbon footprint. In some areas there is clear progress but for many, this process is just beginning. Social implications – There is an overwhelming amount of information, methods and opinions, and proliferation of initiatives. It is in this climate that not only manufacturers but society must provide a practical and effective way to develop and disseminate the skills and knowledge required to fuel an environmentally sustainable economy. To achieve this, results of global surveys like this paper may support manufacturers who need to work with communities and stay well connected to their stakeholders. This may lead to developing training packages that accurately reflect industry needs and provide leadership in communities and workforce development. Originality/value – There is generally an understanding of the sustainable product development and the use and role of tools and techniques to improve environmental performance of manufacturers at micro-level (within companies based on selected product, process, environmental tools and manufacturing characteristics). Whereas, a large-scale research like this paper, to present the status of sustainable product and process development approaches used by manufacturers located around the globe, of different sizes, types within existing operational and corporate strategies and eco-design initiatives have not been detailed.
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Curwen, Lisa G., Juyeon Park, and Ajoy K. Sarkar. "Challenges and Solutions of Sustainable Apparel Product Development." Clothing and Textiles Research Journal 31, no. 1 (January 2013): 32–47. http://dx.doi.org/10.1177/0887302x12472724.

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31

NAGATA, Katsuya. "Concept of the Product Design for Sustainable Development." Journal of the Society of Mechanical Engineers 100, no. 947 (1997): 1030–33. http://dx.doi.org/10.1299/jsmemag.100.947_1030.

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32

Berawi, Mohammed Ali. "Sustainable Technology Development in Product and Service Designs." International Journal of Technology 5, no. 2 (January 1, 2014): 98. http://dx.doi.org/10.14716/ijtech.v5i2.407.

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Beng, Lee Guang, and Badrul Omar. "Integrating axiomatic design principles into sustainable product development." International Journal of Precision Engineering and Manufacturing-Green Technology 1, no. 2 (April 2014): 107–17. http://dx.doi.org/10.1007/s40684-014-0015-2.

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34

Yamaguchi, Rintaro, and Shunsuke Managi. "New Financing for Sustainable Development." Journal of Environment & Development 26, no. 2 (January 9, 2017): 214–39. http://dx.doi.org/10.1177/1070496516687344.

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We propose that national governments could issue bonds whose interest payments are linked to green net national product (gNNP) or, almost equivalently, to inclusive wealth. The main intention of this new financial instrument is to entice investors and the national government to invest in human and natural capital for which the corresponding financial assets currently do not exist. As the concept of wealth expands to include human and natural capital, so should the corresponding assets side in the balance sheet of nations. While the argument for gross national product (GNP)–linked bonds focuses on trimming public debt toward fiscal sustainability, the proposed bonds aim to ensure long-term sustainability. The theoretical link associated with welfare economics is also more plausible. Moreover, it could lead to the virtuous cycle of increased government expenditure directed toward inclusive wealth, expanding tax revenue, increased coupon payment to investors, and increased social well-being.
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Aliakbari Nouri, Fahimeh, Mohsen Shafiei Nikabadi, and Laya Olfat. "Sustainable service supply chain practices (SSSCPs): a framework development." International Journal of Productivity and Performance Management 69, no. 4 (July 4, 2019): 813–33. http://dx.doi.org/10.1108/ijppm-09-2018-0314.

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Purpose The purpose of this paper is to develop a framework of sustainable service supply chain management (SCM) processes and practices in the multi-dimensional construct. It tries to provide a template for those sustainability general key practices that can be scheduled and budgeted in different service sectors. Design/methodology/approach To provide an applicable framework, its adaptability to most service settings should be ensured. In this regard, at first, the related literature on service SCM processes and sustainability practices of SCM are reviewed. To modify and confirm the extracted list, it is distributed to experts. After summarizing experts’ opinions, an initial list of the sustainable service supply chain practices (SSSCPs) is provided. Finally, the Fuzzy Delphi Method is applied to construct the framework for hospital supply chain (SC). Findings It suggests that the SSSCPs can be constructed in terms of seven major processes: managing the sustainable supplier, sustainable employee, sustainable customer, sustainable service performance, sustainable service operations, sustainable external relations, and sustainable knowledge, information and technology. Practical implications The framework can be employed as a template of sustainability practices for individual member firms of service SCs to identify and implement the key practices toward sustainability. Originality/value Reviewing the literature indicates that determining what is unique about the sustainable SCM in the service sector is immature. The paper is a preliminary effort to identify the general sustainability practices, in incorporating all sustainability dimensions in service SC processes.
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Gmelin, Harald, and Stefan Seuring. "Achieving sustainable new product development by integrating product life-cycle management capabilities." International Journal of Production Economics 154 (August 2014): 166–77. http://dx.doi.org/10.1016/j.ijpe.2014.04.023.

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37

Scholl, Gerd. "SUSTAINABLE PRODUCT POLICY IN EUROPE." European Environment 6, no. 6 (November 1996): 183–93. http://dx.doi.org/10.1002/(sici)1099-0976(199611)6:6<183::aid-eet91>3.0.co;2-f.

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38

Zhang, Dong Min, W. H. Liao, X. S. Cheng, Y. Guo, and S. X. An. "An Enhanced Product Representation Model and Multi-Level Case Base for Rapid Product Development." Materials Science Forum 628-629 (August 2009): 191–96. http://dx.doi.org/10.4028/www.scientific.net/msf.628-629.191.

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An enhanced product representation model was introduced, and it was specified with the sets of property, the sets of the multiplicity of modules, and the sets of relationships among them. A multi-case base corresponding complex product decomposition was established. Cases were defined and edited on customization template, which improved efficiency of developing multi-case base. For an example, a design tool for diesel engine development based on multi-case base was developed, and diesel engine product development could be more rapidly.
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39

Ek, Peter. "Continuous product development for sustainable performance in digital markets." Academy of Management Proceedings 2018, no. 1 (August 2018): 14452. http://dx.doi.org/10.5465/ambpp.2018.14452abstract.

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40

Fernandes, Pâmela Teixeira, and Osiris Canciglieri. "Sustainable Product Design: The Development of a Conceptual Model." Applied Mechanics and Materials 518 (February 2014): 335–42. http://dx.doi.org/10.4028/www.scientific.net/amm.518.335.

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This paper presents the development of a conceptual model for Method Integrated Product Development Oriented for Sustainability. The proposed method aims to assist designers in the development process, generating design alternatives directed at sustainable development and full life cycle of the product. This research was limited to application of the method to a product category through a case study. The research objective is to present the process of development and application of the method. The results indicate that the proposed method provides the development process to insert the rationale for the development of sustainability-oriented products as a complement to traditional design requirements in existing models of product development. It is believed that its application to other product designs is promising for the development of sustainable solutions.
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Kaebernick, H., S. Kara, and M. Sun. "Sustainable product development and manufacturing by considering environmental requirements." Robotics and Computer-Integrated Manufacturing 19, no. 6 (December 2003): 461–68. http://dx.doi.org/10.1016/s0736-5845(03)00056-5.

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Salari, Meysam, and Nadia Bhuiyan. "A proposed approach to improve current sustainable product development." Journal of Industrial and Production Engineering 33, no. 5 (May 5, 2016): 297–307. http://dx.doi.org/10.1080/21681015.2016.1172122.

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43

De Coster, Rebecca, and Richard J. Bateman. "Sustainable product development strategies: business planning and performance implications." Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture 226, no. 10 (August 16, 2012): 1665–74. http://dx.doi.org/10.1177/0954405412455123.

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44

Kumar, Sachin, Anchit Goel, and Gaurav Kumar Singh. "Intricate Analysis of Potential Materials for Sustainable Product Development." European Journal of Sustainable Development 8, no. 4 (October 1, 2019): 114. http://dx.doi.org/10.14207/ejsd.2019.v8n4p114.

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Raw materials are scarce and are exponentially depleting. Material usage and product disposal both lead to improvidence of raw ingredients for products. We use materials for manufacturing new products while simultaneously throwing away used non-biodegradable products which pollute the environment. The world of designing and manufacturing needs to use new material(s) which can be selected using the methodology proposed in the research text. To select the best material for a product, its environmental impact, cost and properties that decide the quality of a product are plotted in a 3 dimensional space. Now the threshold limit of quality defining properties is obtained through experimentation. Cutoff cost is decided through market research and then environmental impact is minimized. The material beyond the cutoff planes is rejected and the best among the remaining materials is selected. The product developed using this method for material selection will contain the negative environmental impact during manufacture, use and expenditure of used products and thus helping sustainable development.Keywords: Sustainability, Life Cycle Analysis, Material selection, Cost optimization, Environmental Repercussion, Mechanical properties
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Gerstlberger, Wolfgang, Mette Praest Knudsen, and Ian Stampe. "Sustainable Development Strategies for Product Innovation and Energy Efficiency." Business Strategy and the Environment 23, no. 2 (July 11, 2013): 131–44. http://dx.doi.org/10.1002/bse.1777.

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Melander, Lisa. "Achieving Sustainable Development by Collaborating in Green Product Innovation." Business Strategy and the Environment 26, no. 8 (May 30, 2017): 1095–109. http://dx.doi.org/10.1002/bse.1970.

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Romli, Awanis, Paul Prickett, Rossitza Setchi, and Shwe Soe. "Integrated eco-design decision-making for sustainable product development." International Journal of Production Research 53, no. 2 (September 18, 2014): 549–71. http://dx.doi.org/10.1080/00207543.2014.958593.

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Tukker, Arnold. "First EU network on sustainable product-service development launched." International Journal of Life Cycle Assessment 8, no. 2 (March 2003): 112. http://dx.doi.org/10.1007/bf02978437.

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Chang, Danni, C. K. M. Lee, and Chun-Hsien Chen. "Review of life cycle assessment towards sustainable product development." Journal of Cleaner Production 83 (November 2014): 48–60. http://dx.doi.org/10.1016/j.jclepro.2014.07.050.

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50

Winkler, Wolfgang. "Sustainable product development based on second law of thermodynamics." Applied Energy 88, no. 9 (September 2011): 3248–56. http://dx.doi.org/10.1016/j.apenergy.2011.03.020.

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