PT Journal
AU Vlach, T
   Cais, J
   Chvalnikova, V
   Slezak, M
   Brejcha, J
   Burket, T
   Fink, D
   Sviantek, J
TI Influence of High-melting-point Metals on the Mechanical Properties of Selected Al-Si Alloys
SO Manufacturing Technology Journal
PY 2026
BP 95
EP 105
VL 26
IS 1
DI 10.21062/mft.2026.008
DE Al-Si alloys; Intermetallics; High-melting-point metals; Hardness; Tensile strength
AB This article is dedicated to exploring the potential enhancement of mechanical properties, such as hardness and tensile strength, in selected Al-Si alloys (AlSi7Mg0.3, AlSi7Cu4, and Al-Si10.5Cu1.2Mn0.8Ni1.2). High-melting-point elements, such as chromium and molybdenum, are rarely utilized as additives in Al-Si alloys. However, the article demonstrates the feasibility of improving the mechanical properties of these alloys through the addition of high-melting-point elements. High-melting-point metals, often referred to as refractory metals, typically have melting points above 2000 degrees Celsius. Common refractory metals include tungsten, molybdenum, tantalum, niobium, rhenium, and others. These metals exhibit excellent mechanical properties at elevated temperatures and often possess high density and good corrosion resistance. All casts were made using by gravity casting with different heat treatment conditions at 740 °C. The microstructures, hardness, microhard-ness and tensile strenght of the samples were analyzed. Hardness measurements were conducted using two types of hardness testers according to CSN EN ISO 6506-1 for the Brinell hardness test method and CSN EN ISO 6507-1 for the Vickers hardness test method. A static tensile test was performed on a universal testing machine, Inspekt 100, in accordance with the standard CSN EN ISO 6892-1. The measured data demonstrated that high-melting-point metals affect each alloy differently. In some alloys, mechanical properties improved after heat treatment, while in others, a significant deterioration was observed, particularly in tensile strength.
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