Mechanical Transformation to Support Design for Environmentally Significant Behaviour

Son, Jungik

27 November 2012

This thesis aims to discover possibilities of using products that mechanically transform to support environmentally significant behaviour (ESB), a term that refers to intentional behaviour of an individual to change the natural world. The first half of the work explored the potential relationship between mechanical transformation principles and certain ESBs. This exploration found that implementing transformative mechanisms in products enabled spontaneous use of the products in unanticipated situations. For example, a collapsible reusable shopping bag helped users avoid purchasing disposable bags when they went to grocery stores impulsively. The second half studied a variety of organisms to identify transformation patterns in nature. These patterns were summarized in a two-dimensional matrix to facilitate conceptual design of transformable products. In summary, this work showed that mechanical transformation facilitates at least three types of ESB, and also developed a new tool to assist designers in developing conceptual transformable products that can support ESBs.

Design for environment

product design

transformation principles

environmentally significant behaviour

0548

Mechanical Transformation to Support Design for Environmentally Significant Behaviour

Son, Jungik

27 November 2012

This thesis aims to discover possibilities of using products that mechanically transform to support environmentally significant behaviour (ESB), a term that refers to intentional behaviour of an individual to change the natural world. The first half of the work explored the potential relationship between mechanical transformation principles and certain ESBs. This exploration found that implementing transformative mechanisms in products enabled spontaneous use of the products in unanticipated situations. For example, a collapsible reusable shopping bag helped users avoid purchasing disposable bags when they went to grocery stores impulsively. The second half studied a variety of organisms to identify transformation patterns in nature. These patterns were summarized in a two-dimensional matrix to facilitate conceptual design of transformable products. In summary, this work showed that mechanical transformation facilitates at least three types of ESB, and also developed a new tool to assist designers in developing conceptual transformable products that can support ESBs.

Design for environment

product design

transformation principles

environmentally significant behaviour

0548