![]() Finally, a frst insight into mechanical properties of the composite panel are experimentally and numerically investigated and evaluated under surface load. Here, partial production steps executed by an industrial robot arm, such as large-format additive manufacturing, mechanical surface preparation, bonding and assembly process are explained. The research shows a parametric design process to enable the seamless integration of digital analytic tools.įurthermore, this process shows the potentials and challenges of the digital manufacturing of a thin glass composite panel. It explains the idea of a digital “fle-to-factory”-workfow which includes Computer-Aided Design (CAD), Engineering (CAE) and Manufacturing (CAM). This paper presents an exploratory attempt on the digital manufacturing of thin glass composite façade panels with an industrial robot. Based on the sandwich theory, the fexible thin glass can be combined with a 3D-printed open-cell polymer core to form a very rigid yet lightweight composite element. In addition to the ecological benefts of more efcient use of resources, architects can anticipate new design freedoms with thin glass. The use of thin glass promises to enable a variety of construction industry pursuits. Source: Architecture, Structures and Construction, Springer
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |