Aluminium Matrix Composite Materials Reinforced by 3D-Printed Ceramic Preforms

Abstract: This article employed the fused deposition modelling (FDM) method and gas-pressure infiltration to manufacture alumina/AlSi12 composites. Porous ceramic skeletons were prepared by FDM 3D printing of two different alumina powder-filed filaments. The organic component was removed using a combination of solvent and heat debinding, and the materials were then sintered at 1500 °C to complete the process. Thermogravimetric tests and DTA analysis were performed to develop an appropriate degradation and sintering prog… Show more

“…This can be improved by engineering the existing materials' properties by optimising the machine parameters and developing composite materials by adding fillers or fibres along with the feedstock materials. Most used fillers are wood fibres [3,4], carbon fibres [5,6], ceramics [7][8][9], and metal particles [10,11]. The strength of the fabricated parts cannot be obtained completely by optimising the control parameters; therefore, additional material strength can be introduced by making the reinforcement with the existing materials [12].…”

Mechanical properties of sandwich products obtained by 3D printing from PLA-PLA/Al2O3

“…This can be improved by engineering the existing materials' properties by optimising the machine parameters and developing composite materials by adding fillers or fibres along with the feedstock materials. Most used fillers are wood fibres [3,4], carbon fibres [5,6], ceramics [7][8][9], and metal particles [10,11]. The strength of the fabricated parts cannot be obtained completely by optimising the control parameters; therefore, additional material strength can be introduced by making the reinforcement with the existing materials [12].…”

Mechanical properties of sandwich products obtained by 3D printing from PLA-PLA/Al2O3

Mechanical Properties and Microstructure Analysis of Al-6061 Metal Matrix Prepared with Alumina and Silicon Carbide Powders

Advances in 3D printing of structural and functional ceramics: Technologies, properties, and applications