Title of article
Compression behavior of micro-scale truss structures formed from self-propagating polymer waveguides Original Research Article
Author/Authors
Alan J. Jacobsen، نويسنده , , William Barvosa-Carter، نويسنده , , Steven Nutt، نويسنده ,
Issue Information
دوهفته نامه با شماره پیاپی سال 2007
Pages
10
From page
6724
To page
6733
Abstract
The structure–property relationships in newly developed polymer micro-truss structures were investigated, correlating compressive behavior with structural features, including density, cell size and truss angle. These open-cellular polymer micro-truss structures were formed from an interpenetrating array of self-propagating polymer waveguides. Compression experiments verified that the effective modulus scaled linearly with the measured relative density of the micro-trusses and was reliably predicted from a simple analytical model. However, the measured peak strength at initial truss member buckling was well below the values predicted from inelastic buckling theory, which was attributed to imperfections in the structure and the nonlinear compressive behavior of the solid polymer. In addition, a micro-truss structure was post cured at a higher temperature in an oxidizing environment which suppressed the tendency for truss members to prematurely buckle. The polymer modulus increased by approximately 40% and the peak strength of the micro-truss structure nearly doubled to 5.9 MPa.
Keywords
Mechanical properties , Polymer waveguides , Cellular solids , Lithography , rapid prototyping
Journal title
ACTA Materialia
Serial Year
2007
Journal title
ACTA Materialia
Record number
1143355
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