PT Journal
AU Lipinski, T
TI Effect of Sr, Ti and B Additions as Powder and a Preliminary Alloy with Al on Microstructure and Tensile Strength AlSi9Mg Alloy
SO Manufacturing Technology Journal
PY 2019
BP 807
EP 812
VL 19
IS 5
DI 10.21062/ujep/376.2019/a/1213-2489/MT/19/5/807
DE Al-Si alloy; Silumin; Modification; Mechanical properties
AB The initial structure of AlSi9Mg alloy is com posed of granular and acicular β phase, with α phase as matrix. The hard, irregular, often pointed β phase is responsible for the poor mechanical properties of said alloy. This composition is responsible for the alloy's low strength parameters, and it limits the extent of practical applications. This study presents the results of modification of an AlSi9Mg alloy with strontium, boron and titanium in different ranges produced as a melted modifier added as powders and as rod. The influence of the analyzed additions on the microstructure and tensile strength of the silumin was presented in graphs. The used treatments of a hypoeutectic AlSi9Mg alloy improved the alloy's properties. The results of the tests indicate that the mechanical properties of the modified alloy are determined by the sequence in which the components are introduced to the alloy.
ER