Abstract
When developing new materials many aspects of sustainability are relevant, especially when the ultimate goal is mass production. More efficient energy storage and transmission are important parts of a larger product life cycle design and the confines of the circular economy, including environmental and social concerns. For example, due to environmental, geopolitical, and health concerns, it is important to choose materials that are easily accessible, as opposed to materials requiring complicated extraction, storage, and transportation methods. Equally important is the abundance of the material, as the mass production and use of a product are not sustainable if its raw components are scarce. This requires material scientists to be aware of how their design affects the later life cycle stages of the materials they develop. Very few studies cover whether material scientists take these type of questions into consideration. To resolve this, material scientists were questioned on various sustainability aspects. Results show that most of the questioned scientists have little to no awareness of what effects mass production of their developed materials might have regarding greenhouse gases or the workforce, or what their material’s recyclability or longevity might be. The results indicate that these questioned material scientists are not fully aware of several imperative sustainability aspects and do not fully consider the impacts of their designs. To increase instilling and evaluating awareness of sustainability aspects on life cycle design, two improvements are: increasing sustainability education by lifelong learning, and adding sustainability concerns as a required component to grants and funding.
Highlights
Sustainability has many meanings depending on the subject under consideration
“Sustainable design of a new material” as used in this study can refer to a new material itself, a new device to measure materials, or even a new manufacturing process, all relating to the research and development of materials science
This section firstly describes the construction of a frame‐ work based on existing literature used for the develop‐ ment of the questions posed to material scientists, and secondly describes how the respondent’s answers were gathered and scored
Summary
In this study “sustainable design” refers to designing materials and manufacturing processes in such a way as to minimize consumption and waste, while supporting fairness and prosperity for all (see “sustainable lifestyles” as defined by the United Nations Environment Programme [1]). As seen, this requires taking into account the entire life cycle of a mate‐ rial, from conception to waste. This requires taking into account the entire life cycle of a mate‐ rial, from conception to waste It requires considering multiple dimensions of sustainability that are affected: economic, environmental, and social.
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