MAJID AFSAR HUSSAIN
About Me
Education
National Institute of Technical Teachers' Training and Research, Kolkata
Project Title : ANALYSIS OF ALUMINIUM ALLOY MATRIX NANOCOMPOSITE MATERIALS. Abstract Today’s automobile industry’s one of the crucial demand is to reduce energy consumption and pollution. This could be achieved with lightweight materials. Strength, toughness, stiffness to weight ratio, good formability, light weight, strong corrosion resistance, and high machinability of metals are required in the manufacturing industry. Metal matrix composites (MMC) could fulfil these requirements. Metal matrix composites are one of the most advanced materials having the properties of light weight, high specific strength, good wear resistance, low thermal expansion coefficient etc. These composites materials are extensively utilized in structural, aerospace and automotive industries etc. MMCs are composed of metallic base material called matrix, which is reinforced with a hard ceramic or other reinforcements. MMCs are obtained by reinforcing the matrix alloy with addition of one kind of reinforcements having different properties other than metal matrix. In this project, we used titanium carbide (TiC) and carbon nanotube (CNT) as reinforcements with aluminium 7075 T6 as base metal matrix. Nanocomposite materials were compared with monolithic metal. In the literature review, fabrication and characterization of aluminium alloy matrix composite materials have been summarized. ANSYS software has been used to create & analyze an aluminium alloy matrix composite in this study. Composite materials can be characterized by using different characterizing techniques such as compressive strength, hardness, tensile strength, density measurement. Morphological structure can be characterized by metallurgical microscope while scanning electron microscope can be used to characterize the morphology of the composite materials. Tribological property of the composite materials can be determined by measuring friction and wear parameters of the Nano composites. The equivalent von mises stress, equivalent elastic strain, and total deformation of monolithic and nanocomposite materials are measured in this study.
Regent Education and Research Foundation, Barrackpore
Project Title: A CASE STUDY OF DOUBLE PIPE HEAT EXCHANGER ABSTRACT: Heat Exchanger is a device used to exchange the heat energy between the two fluids by which it increases the efficiency of any operation. These Efficiencies play a major role for cost effective Operations in the process industries. While the both Fluids flow through the heat exchanger, the temperature of both fluids will exchange. The main objective of this paper is to deal with the performance rate of double pipe heat exchanger by changing the materials which uses the heat input from the waste recovery of steam in refinery process. Double pipe heat exchanger will be designed in CATIA Software. FEA analysis is done by using Catia V5 and manual calculation. Final Results are obtained with three different types of materials steel, aluminium and copper. Keywords: Heat transfer, operating efficiency, Thermal Analysis.
Regent Institute Of Science And Technology, Barrackpore
Project Title: A Project on Rope Pump
Work & Experience
Assistant Teacher
Rishra Aness Academy & Rishra High School
September 2018 to August 2019 as Full Time Assistant Teacher at Rishra Anees Academy & Part Time Assistant Teacher at Rishra High School (Vocational Education & Training).