Zahra Sabetgadam; Babak Alemi; Amir Hossein Sadeghpour; Alireza Pachenari
Abstract
Optimization of form and structure have always been challenging for civil engineers and architects. In this regard, most natural (biological) materials of which mechanical properties ...
Read More
Optimization of form and structure have always been challenging for civil engineers and architects. In this regard, most natural (biological) materials of which mechanical properties are often outstand, are inspiring. One of these materials is the bone. The structure of the bone is like a helix. In this article, the helix structure of the bone is analyzed to understand the mechanism of carrying its imposed load. According to the analyzes, in order to optimize structure of a truss column, this structure by different degrees of orientation is designed. After this, the structures are analyzed by modeling these structures in SAP2000 software. According to the movement of the structure, the study concludes that in some degrees of orientation the helix column is more optimized than conventional columns. In other words, the weight of the helix column is less than conventional columns and therefore needs less material and is optimized from an economic perspective.