Abstract
In promoting the SDGs (Sustainable Development Goals), increasing attention has been given to environmental pollution and abnormal climate issues. In particular, a large number of products made of plastic materials have caused harm to the environment. Secondly, with the improvement of average spending power, many parents are more willing to buy toys for their children. However, the lifespan of kid’s toys is often short, and most materials are made of plastic, which also causes issues as they are not easy to break down and are difficult to recycle. This study investigates the concept of the product life cycle in kid’s toys and explores the decision-making factors of green design. First, analysis and induction were conducted through literature collection. Through semi-structured interviews with experts, the design dimensions related to the green design of kid’s toys and the elements that affect the willingness of consumption by consumption values and behavior were obtained. After the questionnaire survey and data analysis, the design factors and purchasing decision factors of green design for the product life cycle and consumption values and behavior of kid’s toys were obtained. Finally, combined with kid’s toy design, green design, product life cycle and consumers’ consumption values and behavior, the decision-making factors for the green design of kid’s toys were extracted, which included (1) using non-toxic materials; (2) designing for maintainability and disassembly of the toy; (3) refining the toys to be artistic and collectable; (4) upgrading the educational functions of toys; (5) improving the recycling of toys; (6) emphasizing green packing; (7) creating a green brand and increasing product visibility; and (8) advocating the value of green design for toys. In addition to supplying green design considerations for kid’s toys to designers and companies, the results can also be used as an important reference with regard to the research topics of product life cycle, toy design and development for the sustainable designs of products.
Subject
Process Chemistry and Technology,Chemical Engineering (miscellaneous),Bioengineering
Cited by
3 articles.
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