Add to ORKGThis thesis presents the results of an investigation into the response of two types of aluminium foam (ALPORAS and Cymat) to quasi-static, impact, and blast loading. The design of experiments and experimental results are reported
Copyright © 2015 by The Minerals, Metals & Materials Society. All rights reserved.The mechanical res...
Closed-cell aluminium foam is a well-known engineering cellular structure due to its outstanding com...
Closed-cell aluminium foams were fabricated and characterised at different strain rates. Quasi-stati...
This paper presents experimental work to characterise the dynamic behaviour of aluminium matrix synt...
Understanding the impact response of aluminium foams is essential for assessing their energy absorpt...
Dynamic response of ALPORAS aluminium foam has been investigated experimentally and numerically. The...
The aim of this study is proper description of stress-strain behaviour of the metal foam structure ...
The present research numerically investigates shock propagation through closed-cell aluminium foam v...
The thesis is about the characterization of the microstructure of several aluminium foams and its re...
Porous metals and particularly aluminium foams are attractive materials for crash applications wher...
Cellular materials like aluminum foam which is the subject of interest here are generally characteri...
The use of foam has the potential for energy absorption enhancement. Many types of materials can be ...
Cellular material such as aluminium foam has been considered as a potential material for energy abso...
The dynamic compressive response of closed-cell (CYMAT™) stabilised aluminium alloy foams (SAF) has ...
Cellular material such as aluminium foam has been considered as a potential material for energy abso...
Copyright © 2015 by The Minerals, Metals & Materials Society. All rights reserved.The mechanical res...
Closed-cell aluminium foam is a well-known engineering cellular structure due to its outstanding com...
Closed-cell aluminium foams were fabricated and characterised at different strain rates. Quasi-stati...
This paper presents experimental work to characterise the dynamic behaviour of aluminium matrix synt...
Understanding the impact response of aluminium foams is essential for assessing their energy absorpt...
Dynamic response of ALPORAS aluminium foam has been investigated experimentally and numerically. The...
The aim of this study is proper description of stress-strain behaviour of the metal foam structure ...
The present research numerically investigates shock propagation through closed-cell aluminium foam v...
The thesis is about the characterization of the microstructure of several aluminium foams and its re...
Porous metals and particularly aluminium foams are attractive materials for crash applications wher...
Cellular materials like aluminum foam which is the subject of interest here are generally characteri...
The use of foam has the potential for energy absorption enhancement. Many types of materials can be ...
Cellular material such as aluminium foam has been considered as a potential material for energy abso...
The dynamic compressive response of closed-cell (CYMAT™) stabilised aluminium alloy foams (SAF) has ...
Cellular material such as aluminium foam has been considered as a potential material for energy abso...
Copyright © 2015 by The Minerals, Metals & Materials Society. All rights reserved.The mechanical res...
Closed-cell aluminium foam is a well-known engineering cellular structure due to its outstanding com...
Closed-cell aluminium foams were fabricated and characterised at different strain rates. Quasi-stati...