Sustainable Improvements for Customized Platform Effectiveness in Garment Production
Author:
Ji Yong1, Jiang Gaoming1, Cong Honglian2
Affiliation:
1. Engineering Research Center for Knitting Technology, Ministry of Education , Jiangnan University , Jiangsu, Wuxi , 214122 , China 2. International Joint Research Laboratory for Noval Knitting Structural Materials at Jiangnan University
Abstract
Abstract
This study uses sustainable development theory to analyze China’s garment industry, which has been under pressure of high energy consumption, excess capacity and environmental pollution. The purpose of this work is to explore customized platform effectiveness on fashion design and production by the integration of clothing ceo-design (CED) and clothing life cycle evaluation. By cooperation and data analyses, garment companies come into being, which provides information for the study on customized platform effectiveness. Meanwhile, this paper begins with addressing the potential problems for fashion design, production and inventory management, making a distinction between garment virtual design (GVD)and personalized garment customization (PGC) and suggesting a useful computer-aided approach for fashion design and production process. The data and information were gathered from garment companies in China. This work presents the findings from case study research into sustainable improvements for fashion design and production in the garment industry; in this way, the level of customized platform may be compared and analyzed, which is a significant growth point of sustainable improvements for this research and practice domain.
Publisher
Walter de Gruyter GmbH
Subject
General Materials Science
Reference32 articles.
1. [1] Yang, G., Zhang, G., Wang, H. (2015). Current state of sludge production, management, treatment and disposal in China. Water Research, 78, 60-73.10.1016/j.watres.2015.04.002 2. [2] Yong, J. Y., Klemeš, J. J., Varbanov, P. S., Huisingh, D. (2016). Cleaner energy for cleaner production: Modelling, simulation, optimisation and waste management. Journal of Cleaner Production, 111(8), 1-16.10.1016/j.jclepro.2015.10.062 3. [3] Wang, J., Ning, X., Ruijing, L. I., Wen, W., Yang, Z., Ruizhe, H. E., Liu, J. (2015). Pollution characteristics of aromatic hydrocarbons and ecological risk assessment of the sludge in the typical textile dyeing wastewater treatment process. Environmental Chemistry, 34(6), 1201-1208. 4. [4] Subic, A., Shabani, B., Hedayati, M., Crossin, E. (2013). Performance analysis of the capability assessment tool for sustainable manufacturing. Sustainability, 5(8), 3543-3561.10.3390/su5083543 5. [5] Peterson, J., Mujanovic, M., Mattila, H. (2015). Mass customisation of flat knitted fashion products: Simulation of the co-design process. Autex Research Journal, 11(11), 6-13.
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