Composite materials produced from ceramic reinforcement of aluminium alloys have some properties that are better (higher modulus and strength, lower thermal expansion coefficient and density, and good creep and wear resistance) than those of the conventional monolithic aluminium alloys. However, they have a poor fracture toughness. The aim of the present work was to characterise the structure and mechanical properties of two different aluminium matrix composites (AS9C1G/20%(Al2O3-SiO2) and 2014/20%(Al2O3-SiO2)) manufactured using the vertical squeeze casting technique. Tensile, plane strain fracture toughness, and fatigue crack growth rate tests were carried out. In particular, the influence of specimen geometry on the toughness tests was examined. It was found that chevron notched short bar specimens gave roughness values similar to 40% higher than other types of specimens. Fatigue crack growth rate data were interpolated using some semiempirical models. An accurate metallographic investigation of both the structures and the fatigue fracture surfaces was carried out using optical microscopy and energy dispersive spectroscopy with SEM. (C) 1997 The Institute of Materials.
Structure, fracture toughness, and fatigue of two aluminium matrix composites produced by vertical squeeze casting technique / Felli, Ferdinando; Brotzu, Andrea; E., Di Russo; F., Pinna. - In: MATERIALS SCIENCE AND TECHNOLOGY. - ISSN 0267-0836. - STAMPA. - 13:5(1997), pp. 420-429.
Structure, fracture toughness, and fatigue of two aluminium matrix composites produced by vertical squeeze casting technique
FELLI, Ferdinando;BROTZU, Andrea;
1997
Abstract
Composite materials produced from ceramic reinforcement of aluminium alloys have some properties that are better (higher modulus and strength, lower thermal expansion coefficient and density, and good creep and wear resistance) than those of the conventional monolithic aluminium alloys. However, they have a poor fracture toughness. The aim of the present work was to characterise the structure and mechanical properties of two different aluminium matrix composites (AS9C1G/20%(Al2O3-SiO2) and 2014/20%(Al2O3-SiO2)) manufactured using the vertical squeeze casting technique. Tensile, plane strain fracture toughness, and fatigue crack growth rate tests were carried out. In particular, the influence of specimen geometry on the toughness tests was examined. It was found that chevron notched short bar specimens gave roughness values similar to 40% higher than other types of specimens. Fatigue crack growth rate data were interpolated using some semiempirical models. An accurate metallographic investigation of both the structures and the fatigue fracture surfaces was carried out using optical microscopy and energy dispersive spectroscopy with SEM. (C) 1997 The Institute of Materials.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.