基于参数化造型的柔性材料形变设计研究
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摘要
为了适应日益丰富、复杂的人机交互形式,扩展产品造型的维度,文章利用柔性材料特性,研究了基于参数化造型的形变设计方法,并将该方法应用于智能交互产品,达到产品材料、形态、结构、交互方式的统一。文章首先利用柔性材料特性,分析了生成参数化造型的折叠结构;其次,探索了如何利用充气技术来驱动折叠结构形变;最后,阐述了将柔性材料形变应用于产品设计的可能性。参数化形变的造型有利于提升产品加工效率并适应更多产品状态,对造型的空间适应性、功能性、智能性、可持续性的建立起到积极作用。
In order to adapt to the increasingly rich and complex human-computer interaction forms and expand the dimensions of product modeling, this paper studies the deformation design method based on parametric modeling by utilizing the characteristics of flexible materials, and applies the method to intelligent interactive products to achieve the unification of product materials, forms, structures and interaction modes. Firstly, the folded structure of parametric modeling is analyzed by using the characteristics of flexible materials. Secondly, how to use inflatable technology to drive folding structure deformation is explored. Finally, the possibility of applying deformation of flexible material to product design is discussed. Parametric modeling is conducive to improving the processing efficiency of products and adapting to more product states, and plays a positive role in the establishment of spatial adaptability, functionality, intel igence and sustainability of modeling.
In order to adapt to the increasingly rich and complex human-computer interaction forms and expand the dimensions of product modeling, this paper studies the deformation design method based on parametric modeling by utilizing the characteristics of flexible materials, and applies the method to intelligent interactive products to achieve the unification of product materials, forms, structures and interaction modes. Firstly, the folded structure of parametric modeling is analyzed by using the characteristics of flexible materials. Secondly, how to use inflatable technology to drive folding structure deformation is explored. Finally, the possibility of applying deformation of flexible material to product design is discussed. Parametric modeling is conducive to improving the processing efficiency of products and adapting to more product states, and plays a positive role in the establishment of spatial adaptability, functionality, intel igence and sustainability of modeling.
引文
[1]汪沙娜.基于参数化驱动的产品造型设计应用研究[J].包装工程,2017(6):100-104.
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[11]张晓琪,杨九瑞.基于3D打印技术的柔性结构设计[J].设计,2016,29(21):116-117.
[12]修朴华.产品设计中折叠结构的应用与研究[J].设计,2017,30(15):44-45.
[2] Oxman N,Rosenberg J L. Material-based design computation an inquiry into digital simulation of physical material properties as design generators[J]. International journal of architectural computing,2007,5(1):25-44.
[3] Yao L,Ou J,Cheng C Y,et al. bioLogic:Natto Cells as Nanoactuators for Shape Changing Interfaces[J]. 2015.
[4] Wang G,Cheng T,Do Y,et al. Printed Paper Actuator:A Low-cost Reversible Actuation and Sensing Method for Shape Changing Interfaces[C]//Proceedings of the 2018 CHI Conference on Human Factors in Computing Systems.ACM,2018:569.
[5]张周捷. Triangulation系列椅子[J].缤纷,2013(z1):160-160.
[6]王玉新,王永山,金玲.基于美学特征的参数化产品外形设计[J].机械设计,2007,24(7):38-41.
[7]卞京.产品造型设计的参数化探讨[D].中国美术学院,2012.
[8]王男,王佩国.参数化设计在产品造型设计中的应用研究[J].设计,2014(7):37-38.
[9]孟妍.从符号学角度看折叠结构在设计中的应用[J].设计艺术研究,2014(4):79-83.
[10]刘帅.折叠形式在产品包装设计上的应用研究[J].艺术科技,2014(5):231-232.
[11]张晓琪,杨九瑞.基于3D打印技术的柔性结构设计[J].设计,2016,29(21):116-117.
[12]修朴华.产品设计中折叠结构的应用与研究[J].设计,2017,30(15):44-45.
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