Your search keyword '"Butt, M. T. Z."' showing total 2 results

1. The Effect of Grit Blasting on Surface Roughness and Hardness of Magnesium Alloy AZ31B: A Statistical Study.

Author

Hussain, F., Manzoor, M. U., Kamran, M., and Butt, M. T. Z.

Subjects

SURFACE roughness, BLAST effect, ATOMIC force microscopy, HARDNESS, MAGNESIUM alloys, PROTECTIVE coatings, SURFACES (Technology), SURFACE coatings

Abstract

Magnesium alloys are known for their lightweight and high specific strength properties and being used as bio-degradable implant material. Materials' surface roughness and surface hardness play a major role when coating has to be applied and may subject to wear and abrasion. Grit blasting is one of the common techniques to remove surface impurities, corrosion products and modify the surface characteristics for better adhesion of protective coatings, as well as, surface hardness. In the present study, the effect of grit blasting media and blasting pressure on the surface characteristics and surface hardness of magnesium alloy is investigated. The surface characteristics such as mean surface roughness (Ra), highest peak values (Rp), deepest valley values (Rv) are measured using atomic force microscopy (AFM) and show a linear relation with blasting pressure. The surface topography is observed using scanning electron microscopy (SEM). The surface hardness results indicate 41% increase in hardness with blasting pressure. The statistical findings using analysis of variance (ANOVA) shows that both blasting pressure and blasting media contribute to final surface roughness and surface hardness. The blasting pressure imparts major contribution to it. [ABSTRACT FROM AUTHOR]

Published

2023

2. The Development and Mechanical Characterization of Aluminium Copper-Carbon Fiber Metal Matrix Hybrid Composite.

Author

Manzoora, M. U., Feroze, M., Ahmad, T., Kamran, M., and Butt, M. T. Z.

Subjects

METALLIC composites, ALUMINUM-copper alloys, ALUMINUM alloying, COMPOSITE materials, MICROHARDNESS, TENSILE strength

Abstract

Metal matrix composites (MMCs) come under advanced materials that can be used for a wide range of industrial applications. MMCs contain a non-metallic reinforcement incorporated into a metallic matrix which can enhance properties over base metal alloys. Copper-Carbon fiber reinforced aluminium based hybrid composites were prepared by compo casting method. 4 weight % copper was used as alloying element with Al because of its precipitation hardened properties. Different weight compositions of composites were developed and characterized by mechanical testing. A significant improvement in tensile strength and micro hardness were found, before and after heat treatment of the composite. The SEM analysis of the fractured surfaces showed dispersed and embedded Carbon fibers within the network leading to the enhanced strength. [ABSTRACT FROM AUTHOR]

Published

2018