Structural shapes that can be described by geometric primitives such as bars and plates are commonly encountered in mechanical, aerospace and civil structures. In this thesis, I determine the optimal layout of a set of geometric primitives within a design envelope using topology optimization techniques. To perform the structural and sensitivity analyses of these structures, the geometric primitives are mapped onto a continuous density field defined over a fixed finite element grid via the geometry projection method. As a result, the optimal topology can be more easily fabricated by joining stock structural shapes through various means. Previous works on geometry projection methods only consider minimum compliance for structures made of bars...
Topology optimization aims to design a structure by seeking the optimal material layout within a giv...
Topology optimization technique has been used as an efficient tool that optimizes material layout wi...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/77094/1/AIAA-1994-1597-914.pd
Structural shapes that can be described by geometric primitives such as bars and plates are commonly...
Topology optimization is a mathematical process that systematically searches for the 'best possible'...
Over the years, several optimization techniques were widely used to find the optimum shape and size ...
Topology optimization techniques have been applied to structural design problems in order to determi...
The contribution of this work centers on the establishment of a novel topology optimization framewor...
Topology optimization is a widely-used technique for finding the most favorable, internal structural...
Our contribution consists of three parts: a gradient-based parameter-free shape optimization method;...
During the last two decades, computational structural optimization methods have emerged, as computat...
Topology optimization is a valuable tool that can assist engineers in the design of many complex pro...
Thesis (M.S.)--Massachusetts Institute of Technology, Dept. of Mechanical Engineering, 1994.Includes...
Topology optimization is a systematic, free-form approach to the design of structures. It simultaneo...
Shape and topology optimization of a linearly elastic structure is discussed using a modification of...
Topology optimization aims to design a structure by seeking the optimal material layout within a giv...
Topology optimization technique has been used as an efficient tool that optimizes material layout wi...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/77094/1/AIAA-1994-1597-914.pd
Structural shapes that can be described by geometric primitives such as bars and plates are commonly...
Topology optimization is a mathematical process that systematically searches for the 'best possible'...
Over the years, several optimization techniques were widely used to find the optimum shape and size ...
Topology optimization techniques have been applied to structural design problems in order to determi...
The contribution of this work centers on the establishment of a novel topology optimization framewor...
Topology optimization is a widely-used technique for finding the most favorable, internal structural...
Our contribution consists of three parts: a gradient-based parameter-free shape optimization method;...
During the last two decades, computational structural optimization methods have emerged, as computat...
Topology optimization is a valuable tool that can assist engineers in the design of many complex pro...
Thesis (M.S.)--Massachusetts Institute of Technology, Dept. of Mechanical Engineering, 1994.Includes...
Topology optimization is a systematic, free-form approach to the design of structures. It simultaneo...
Shape and topology optimization of a linearly elastic structure is discussed using a modification of...
Topology optimization aims to design a structure by seeking the optimal material layout within a giv...
Topology optimization technique has been used as an efficient tool that optimizes material layout wi...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/77094/1/AIAA-1994-1597-914.pd