The following paper deals with the production of Interpenetrating Phase Composites (IPC) using semi-solid forming technology. Therefore, adequate ceramic foams were selected and infiltrated by processing the aluminium alloy A356 in the semi-solid state. In the studies presented in this paper, the infiltrations of two ceramic materials (Al2O3 and SiC) with three different pore sizes (10, 20 and 30 ppi) were investigated. During the forming process the liquid phase fraction of the aluminium was varied to analyze infiltration effects in relation to the raw material´s liquid phase fraction. Afterwards, microsections of the produced specimens were analyzed in order to characterize their microstructure and the quality of infiltration. The results showed that completely filled composite components with good mechanical properties can be produced by infiltrating ceramic preforms with a semi-solid aluminium alloy.
%0 Conference Paper
%1 seyboldt2016
%A Seyboldt, C
%A Liewald, M
%A Heydt, D
%B Key Engineering Materials
%D 2016
%I Trans Tech Publications Ltd
%K Ceramic_Preforms Interpenetrating_Phase_Composites Metal_Matrix_Composites Semi-Solid_Forming
%P 502-509
%R 10.4028/www.scientific.net/KEM.716.502
%T Production of Aluminium Based Interpenetrating Phase Composites Using Semi-Solid Forming
%V 716
%X The following paper deals with the production of Interpenetrating Phase Composites (IPC) using semi-solid forming technology. Therefore, adequate ceramic foams were selected and infiltrated by processing the aluminium alloy A356 in the semi-solid state. In the studies presented in this paper, the infiltrations of two ceramic materials (Al2O3 and SiC) with three different pore sizes (10, 20 and 30 ppi) were investigated. During the forming process the liquid phase fraction of the aluminium was varied to analyze infiltration effects in relation to the raw material´s liquid phase fraction. Afterwards, microsections of the produced specimens were analyzed in order to characterize their microstructure and the quality of infiltration. The results showed that completely filled composite components with good mechanical properties can be produced by infiltrating ceramic preforms with a semi-solid aluminium alloy.
@inproceedings{seyboldt2016,
abstract = {The following paper deals with the production of Interpenetrating Phase Composites (IPC) using semi-solid forming technology. Therefore, adequate ceramic foams were selected and infiltrated by processing the aluminium alloy A356 in the semi-solid state. In the studies presented in this paper, the infiltrations of two ceramic materials (Al2O3 and SiC) with three different pore sizes (10, 20 and 30 ppi) were investigated. During the forming process the liquid phase fraction of the aluminium was varied to analyze infiltration effects in relation to the raw material´s liquid phase fraction. Afterwards, microsections of the produced specimens were analyzed in order to characterize their microstructure and the quality of infiltration. The results showed that completely filled composite components with good mechanical properties can be produced by infiltrating ceramic preforms with a semi-solid aluminium alloy.},
added-at = {2022-02-22T16:37:17.000+0100},
author = {Seyboldt, C and Liewald, M and Heydt, D},
biburl = {https://puma.ub.uni-stuttgart.de/bibtex/249bb3e02ab71d133fea7395a721ec081/ubtestnutzer1},
booktitle = {Key Engineering Materials},
doi = {10.4028/www.scientific.net/KEM.716.502},
interhash = {ec2c8da438779c531db878af30bc2ff5},
intrahash = {49bb3e02ab71d133fea7395a721ec081},
keywords = {Ceramic_Preforms Interpenetrating_Phase_Composites Metal_Matrix_Composites Semi-Solid_Forming},
pages = {502-509},
publisher = {Trans Tech Publications Ltd},
series = {Key Engineering Materials},
timestamp = {2022-02-22T15:37:17.000+0100},
title = {Production of Aluminium Based Interpenetrating Phase Composites Using Semi-Solid Forming},
volume = 716,
year = 2016
}