Your search keyword '"Al2024"' showing total 3 results

1. B4C Particles Reinforced Al2024 Composites via Mechanical Milling.

Author

Carreño-Gallardo, Caleb, Estrada-Guel, Ivanovich, López-Meléndez, Claudia, Ledezma-Sillas, Ernesto, Castañeda-Balderas, Rubén, Pérez-Bustamante, Raúl, and Herrera-Ramírez, José Martín

Subjects

HOMOGENEOUS catalysis, ALUMINUM, BORON carbides, MICROSTRUCTURE, CRYSTAL structure

Abstract

The control of a homogeneous distribution of the reinforcing phase in aluminum matrix composites is the main issue during the synthesis of this kind of material. In this work, 2024 aluminum matrix composites reinforced with boron carbide were produced by mechanical milling, using 1 and 2 h of milling. After milling, powdered samples were cold consolidated, sintered and T6 heat treated. The morphology and microstructure of Al2024/B4C composites were investigated by scanning electron microscopy; analysis of X-ray diffraction peaks were used for the calculation of the crystallite size and microstrains by the Williamson-Hall method. The mechanical properties were evaluated by compression and hardness tests. B4C particles were found to be well dispersed into the aluminum matrix as a result of the high-energy milling process. The crystallite size of composites milled for 2 h was lower than those milled for 1 h. The hardness, yield strength and maximum strength were significantly improved in the composites processed for 2 h, in comparison to those processed for 1 h and the monolithic 2024 alloy. [ABSTRACT FROM AUTHOR]

Published

2018

2. The Effect of TiN-, TiCN-, TiAlN-, and TiSiN Coated Tools on the Surface Defects and Geometric Tolerances of Holes in Multi-Spindle Drilling of Al2024 Alloy.

Author

Aamir, Muhammad, Davis, Adrian, Keeble, William, Koklu, Ugur, Giasin, Khaled, Vafadar, Ana, and Tolouei-Rad, Majid

Subjects

SURFACE defects, GEOMETRIC surfaces, SURFACE coatings, DEFORMATION of surfaces, CUTTING tools, ALUMINUM alloys, ELECTROCHEMICAL cutting

Abstract

The integrity of machined holes depends on many parameters, some of which are related to the cutting tool (geometry, coating, material). Other influential parameters are related to the machining process variables (spindle speed, feed rate, workpiece material), all of which can affect the quality of the hole and drilling induced damage on its surface. This study investigates the effect of uncoated tools and four types of tool coatings (TiN-, TiCN-, TiAlN-, and TiSiN) on the hole quality and its microstructure. The study analyzed several hole geometrical metrics, namely hole size, circularity, cylindricity, and perpendicularity of an Al2024 aluminum alloy using a multi-spindle drilling process that utilizes three drills capable of creating multiple holes simultaneously. The results showed that the uncoated carbide drill gave a high-hole quality at low spindle speed. Regarding the coated drills, TiCN coated drills produced holes with the least deviation, circularity, cylindricity and perpendicularity at high spindle speeds. TiSiN–carbide coated drills produced the most oversized holes and noticeable damage and deformations on their surface following TiAlN and TiN. The common surface damage found on the inner hole surface was smearing, feed marks, and metal debris adhesion. The ANOVA results revealed that the tool type had the highest percentage contribution that mainly affected the hole quality. [ABSTRACT FROM AUTHOR]

Published

2021

3. Direct Femtosecond Laser Fabrication of Superhydrophobic Aluminum Alloy Surfaces with Anti-icing Properties.

Author

Volpe, Annalisa, Gaudiuso, Caterina, Di Venere, Leonardo, Licciulli, Francesco, Giordano, Francesco, and Ancona, Antonio

Subjects

ALUMINUM alloys, SURFACE properties, FEMTOSECOND lasers, SUPERHYDROPHOBIC surfaces, WATER, SURFACE texture

Abstract

Ice formation is a serious issue in many fields, from energy to aerospace, compromising the devices' efficiency and security. Superhydrophobicity has been demonstrated to be correlated to the anti-icing properties of surfaces. However, fabricating surfaces with robust water repellence properties also at subzero temperature is still a great challenge. In this work, femtosecond laser (fs-laser) texturing is exploited to produce superhydrophobic surfaces with anti-icing properties on Al2024, an aluminum alloy of great interest in cold environments, in particular for aircraft production. Our textured substrates present self-cleaning properties and robust water repellency at subzero temperatures. Moreover, outstanding anti-icing properties are achieved on the textured surfaces at −20 °C, with water droplets bouncing off the surface before freezing. [ABSTRACT FROM AUTHOR]

Published

2020