Abstract
The axiomatic design plays a critical role in transferring FRs into DPs and organising scattered design information. Nowadays, the axiomatic design is commonly applied to student engineering design education. Although it assists design organisation, some procedures can be challenging for invoice students. This paper is written to reflect benefits, challenges and potential mistakes when the axiomatic design is applied by invoice students. The reflection is based on a case study, a student lead battery thermal controller (BTC) on a high-altitude balloon is used as the example. Relevant background about the high-altitude balloon was introduced at first. Previous essential information of customer domain and functional domain was clarified before the axiomatic design. Design parameters(DPs) were generated with Morphological Chart to compose candidate concepts. FR-DP matrix was used to evaluate the independence of functional requirements(FRs). Candidate concepts were then selected by probability density function graphs. The most proper concept then was out of Pugh’s Matrix. Through this axiomatic design application, benefits, challenges and potential mistakes were reflected for invoice students. Benefits included convenient errors correction and competent concepts generation. Challenges contain the DPs performance value determination and physical integration of concept. Potential mistakes include generation of inconsistent performance value for bottom-level FRs and invalid DPs.
Highlights
As the bridge between functional domain and concept domain, the axiomatic design is commonly used to generate well-organised engineering design concepts and assist decision making
Invoice students might find it challenging to apply several procedures properly. Considering this feature, for students’ engineering design education of the axiomatic design, educators should think of possible challenges for invoice students
This paper majorly focuses on the axiomatic design application itself
Summary
As the bridge between functional domain and concept domain, the axiomatic design is commonly used to generate well-organised engineering design concepts and assist decision making. Invoice students might find it challenging to apply several procedures properly. Considering this feature, for students’ engineering design education of the axiomatic design, educators should think of possible challenges for invoice students. In correspondence to these challenges, special educational strategies should be applied to help students apply the axiomatic design properly. Due to these features, some education institutes and students launch high-altitude balloons to execute science experiments and engineering tasks
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