Long-term in vivo imaging of experience-dependent synaptic plasticity in adult cortex

Open-cell cellular structures have a high potential for use in automotive, railway, ship and aerospace industry as crash energy absorbers. This paper focuses on the influence of the second phase filler material as a way to further increase the capability of cellular material energy absorption. The behaviour of ductile (aluminium alloy) and brittle (polymer) cellular structures with regular topology with and without the pore filler (silicon rubber) under quasistatic and dynamic compressive loading conditions has been experimentally studied and evaluated. The base material properties of the aluminium alloy and the polymer were obtained with separate experimental testing. The use of second phase filler material resulted in significant changes in cellular material behaviour. It was observed that the pore filler material increases the capability of energy absorption and furthermore improves and stabilises the response of a brittle cellular structures.

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Comparison of infrared and 3D digital image correlation techniques applied for mechanical testing of materials

Krstulović‐Opara

Surjak

Vesenjak

et al. 2015

Infrared Physics & Technology

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Comparison of fatigue crack retardation methods

Domazet

1996

Engineering Failure Analysis

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Cell shape effect evaluation of polyamide cellular structures

2010

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Željko Domazet

Thermal imaging and Thermoelastic Stress Analysis of impact damage of composite materials

Experimental Study of Open-Cell Cellular Structures with Elastic Filler Material

Comparison of infrared and 3D digital image correlation techniques applied for mechanical testing of materials

Comparison of fatigue crack retardation methods

Cell shape effect evaluation of polyamide cellular structures

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