摘要
Abstract
To explore the feasibility of combining bio-computational design methods with algae-based materials in fashion and furniture design,and to propose an innovative design method based on this combination.By analyzing two design projects,using reaction-diffusion algorithms and 3D printing technology,we investigate the performance of algae-based materials at different scales and in various applications.Project one focuses on fashion product design based on the human body,while project two involves furniture design exemplified by an end table,assessing the diversity and adaptability of these methods.The study finds that combining bio-computational design with algae-based materials shows significant advantages in morphological complexity,material sustainability,and production efficiency.The fashion product project demonstrates high precision and complexity,while the furniture design project showcases material scalability and environmental adaptability.The integration of bio-computational design and algae-based materials offers a new path for sustainable design,presenting a new design method.This approach not only shows innovation in form and function but also excels in environmental protection and resource efficiency,with broad application prospects and research value.关键词
生物计算设计/海藻基材料/可持续设计/3D打印/循环经济Key words
Biological computational design/Seaweed based materials/Sustainable design/3D printing/Circular economy分类
信息技术与安全科学
