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Effect of Zeolite Addition on the Production of a Cast Porous Composite Based on AC-AlSi11 Silumin

J.M. Borowiecka-Jamrozek M. Kargul
Archives of Foundry Engineering | 2022 | vol. 22 | No 4 | 96-101 | DOI: 10.24425/afe.2022.143956
Keywords metal matrix composites casting zeolite Syntactic foam Aluminium alloy
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Abstract

The paper presents the application of the casting method for the production of porous composites, called syntactic foams, of the casting alloy - solid particles type. This method was used to produce composites based on Al alloys reinforced with particles of clinoptilolite, a natural mineral from the zeolite group. Before the casting process, tests were carried out on the morphology, physicochemical properties and chemical composition of the zeolite, which was obtained from a rock called zeolite tuff, mined in a quarry in Kucin, (VSK PRO-ZEO s.r.o., Slovakia). Observations of the microstructure of the produced composites were also carried out using a scanning electron microscope. Diffractometric tests of zeolite rock as delivered for research and of the produced samples reinforced with zeolite particles were also carried out. Initial studies of the density and porosity of the produced composites were performed. The usefulness of the presented method of composite production was assessed on the basis of the conducted structural tests, with particular emphasis on the particle distribution in the alloy matrix.
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Bibliography

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Authors and Affiliations

J.M. Borowiecka-Jamrozek
1
ORCID: ORCID
M. Kargul
1
ORCID: ORCID
  1. The Kielce University of Technology, Poland

Fabrication Optimization of Al 7075/Expanded Glass Syntactic Foam by Cold Chamber Die Casting

C. Bolat A. Goksenli
Archives of Foundry Engineering | 2020 | vol. 20 | No 3 | 112-118 | DOI: 10.24425/afe.2020.133339
Keywords Syntactic foams Aluminium alloys Expanded glass Cold chamber die casting Process optimization
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Abstract

Recently, aluminum matrix syntactic foams (AMSFs) have become notably attractive for many different industrial areas like automotive, aerospace, construction and defense. Owing to their low density, good compression response and perfect energy absorption capacity, these advanced composite materials are also considered as strong alternatives to traditional particle reinforced composites and metal foams. This paper presents a promising probability of AMSF fabrication by means of industrial cold chamber die casting method. In this investigation, contrary to other literature studies restricted in laboratory scale, fully equipped custom-build cold chamber die casting machine was used first time and all fabrication steps were designed just as carried out in the real industrial high pressure casting applications. Main casting parameters (casting temperature, injection pressure, piston speed, filler pre-temperature and piston waiting time) were optimized in order to obtain flawless AMSF samples. The density alterations of the syntactic foams were analyzed depending upon increasing process values of injection pressure, piston speed and piston waiting time. In addition, macroscopic and microscopic investigations were performed to comprehend physical properties of fabricated foams. All these efforts showed almost perfect infiltration between filler particles at the optimized injection parameters.

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Authors and Affiliations

C. Bolat
A. Goksenli

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