Effect of Ti and B additions as powder and preliminary alloy with Al-Si alloy on microstructure and mechanical properties of AlSi9Mg alloy intended for parts of agricultural machinery

Lipinski, T., University of Warmia and Mazury in Olsztyn; Karpisz, D., Cracow Univ. of Technology

Effect of Ti and B additions as powder and preliminary alloy with Al-Si alloy on microstructure and mechanical properties of AlSi9Mg alloy intended for parts of agricultural machinery

2021

Lipinski, T., University of Warmia and Mazury in Olsztyn (Poland) | Karpisz, D., Cracow Univ. of Technology (Poland)

Foundry aluminium silicon alloys are widely used in various industries. In their unmodified state, they are not used for construction materials. Their use is possible after improving the unfavourable microstructure. Initially, the microstructure of hypoeutectic silumins is composed of a large primary α-phase and large, sharpshaped eutectic silicon grains. This phase creates microstructural notches. This microstructure is the reason for the low mechanical properties of the alloy. Increasing the properties of hypoeutectic silumins can be achieved, inter alia, by introducing chemical additives into the alloy, which refine the microstructure. There are reports in the literature on the use of various chemical compounds and technologies aimed at fragmenting the microstructure. A new approach is the modification process using a homogeneous modifier. This process does not introduce new alloying elements into the alloys. However, this process did not fragment the primary α-phase. The paper presents the results of AlSi9Mg alloy modification with AlSi9Mg alloy and boron and titanium. The test results confirm the effectiveness of the applied treatment. After it was carried out, the α + β eutectic and the primary α phase were fragmented. These changes, represented by the fragmentation of the microstructure, turned out to be correlated with an increase in the tensile strength of the alloy and its plasticity. The highest mechanical parameters (Rm = 195 MPa and A = 6.5%) were obtained for the alloy with 0.6% Al-Si + 0.15% Ti + 0.06% B.

Mostrar más [+]

Palabras clave de AGROVOC

aleaciones alliage alloys aluminio aluminium bore boro boron chemical composition composition chimique ensayo experimentation latvia letonia lettonie magnesio magnesium mechanical properties muestreo poland pologne polonia sampling silicio silicium silicon technologie technology tecnologia tensile strength testage testing titane titanio titanium ultraestructura ultrastructure

Información bibliográfica

Publicado en

Engineering for Rural Development. Proceedings of the International Scientific Conference (Latvia)

Edición 20/2021 ISSN 1691-5976

Editorial

Latvia University of Life Sciences and Technologies

Paginación

p. 1101−1107

Otras materias

Resistencia a la tension; Composicion quimica; Silumin; Propiedades mecanicas; Propriete mecanique; Experimentacion; Echantillonnage

Idioma

Inglés

Nota

Summary (En). 2 tables, 16 fig., 40 ref.

Tipo

Conference; Summary; Web Site

Conferencia

International Scientific Conference: Engineering for Rural Development, 20, Jelgava (Latvia), 26−28 May 2021

En AGRIS desde: 2021-12-15

Formato: AGRIS AP

Proveedor de Datos

Este registro bibliográfico ha sido proporcionado por Fundamental Library of Latvia University of Life Sciences and Technologies

Descubra la colección de este proveedor de datos en AGRIS

Enlaces

http://tf.llu.lv/conference/proceedings2021/

Buscar en Google Scholar

Si observa algún dato incorrecto en este registro bibliográfico, póngase en contacto con nosotros en [email protected]

FAO AGRIS - Sistema Internacional para la Ciencia y Tecnología Agrícola

Share

Effect of Ti and B additions as powder and preliminary alloy with Al-Si alloy on microstructure and mechanical properties of AlSi9Mg alloy intended for parts of agricultural machinery

2021

Palabras clave de AGROVOC

Información bibliográfica