Sustainable product development processes in fashion: Supply chains structures and classifications

2021 ◽  
Vol 231 ◽  
pp. 107911
Author(s):  
Yi-Ning Fung ◽  
Hau-Ling Chan ◽  
Tsan-Ming Choi ◽  
Rong Liu
2021 ◽  
Vol 1 ◽  
pp. 1491-1500
Author(s):  
Anna Diaz Tena ◽  
Josef-Peter Schoeggl ◽  
Tatiana Reyes ◽  
Rupert J. Baumgartner

AbstractOver the last years, academic literature has made significant progress on the development of key concepts, identifying circular product typologies, developing assessment methods, and exploring the synergies with manufacturing trends such as digitalisation or environmental management. Nevertheless, less attention has been paid on describing process model changes necessary for the implementation of circular product development. For this reason, this paper presents the circular Sustainable Product Development (cSPD) morphological field, aimed at providing implementation guidance to business and industry. It describes possible reconfigurations of the Sustainable Product Development (SPD) process model to further integrate circularity R-strategies, design scopes, design guidelines, inter- and intra-organisational actors and criteria for evaluation. With this framework, we intend to identify the most defining parameters in the process model and assign them a discrete number of categorical values so that different combinations explain the generation of prevalent circular product typologies in the manufacturing of durable goods.


2021 ◽  
Vol 13 (5) ◽  
pp. 2484
Author(s):  
Chi-Hung Lo

Many industries are labor-intensive and energy- and resource-consuming. A sustainable development plan is necessary for the industries as industrial structures have been changing recently. Taiwan’s shoe industry also has experienced such changes and requires a sustainable product development plan for continuous development. Therefore, this study aims to propose a new method by introducing a model of sustainable product development to facilitate the sustainable development of the industry. By taking air-cushioned casual shoe production as an example, this study suggested the refined Kano quality model for exploring the product attributes that improved the customers’ satisfaction. The refined Kano model that was established with interviews and questionnaire surveys was effective to define the product attributes that contributed to satisfying the customers and understanding their perception of product attributes. In the air-cushioned casual shoe production, the model found function, design, innovation, marketing, and service to be important for manufacturers to develop products with limited. It also suggested the priority be put on the attributes of high value-added quality, key quality, and potential quality. The model helped manufacturers decide which product attributes they need to invest in and develop. The relation of product attributes and consumer satisfaction for a sustainable product development model was also found by using the refined Kano model. The result of this study is expected to apply to various industries for establishing an appropriate sustainable product development model.


Technovation ◽  
2021 ◽  
pp. 102239
Author(s):  
Julio Cesar Ferro de Guimarães ◽  
Eliana Andréa Severo ◽  
Charbel Jose Chiappetta Jabbour ◽  
Ana Beatriz Lopes de Sousa Jabbour ◽  
Ariane Ferreira Porto Rosa

Author(s):  
Samuel Suss ◽  
Vincent Thomson

Product development processes of complex products are complex themselves and particularly difficult to plan and manage effectively. Although many organizations manage their product development processes by monitoring the status of documents that are created as deliverables, in fact the progress of the process is in large part based on the actual information flow which is required to develop the product and produce the documents. A vital element in making product development processes work well is the correct understanding of how information flows and how to facilitate its development. In this paper we describe an executable stochastic model of the product development process that incorporates the salient features of the interplay between the information development, exchange and progress of the technical work. Experiments with the model provide insight into the mechanisms that drive these complex processes.


2014 ◽  
Vol 71 ◽  
pp. 362-376 ◽  
Author(s):  
Juliette Heintz ◽  
Jean-Pierre Belaud ◽  
Nishant Pandya ◽  
Moises Teles Dos Santos ◽  
Vincent Gerbaud

Author(s):  
B. Lu ◽  
P. Gu ◽  
S. Spiewak

Sustainable product development (SPD) requires that product design achieve minimal or zero environmental impact, while satisfying other design criteria such as functionality, quality, desirable features, and acceptable cost and time to market. Therefore, environmental evaluations must be incorporated into the design stage. This research is aimed at the development of a new approach to lifecycle design and evaluation. This paper proposes a framework to optimize functional, environmental, and economic (FEE) performance towards sustainable design. Based on the three dimensions of FEE, a systematic lifecycle design process model is proposed, which consists of: the three FEE requirements; two design objects (physical structure and lifecycle structure); and, the FEE evaluation streams of LCQ (functional lifecycle quality), LCA (environmental lifecycle assessment) and LCC (economic lifecycle costing). A new concept, called process-based analysis (PBA) is defined, and used as the base for FEE evaluations.


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