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Metallurgy & Materials Science

Course Objective:

to grasp the essential fundamentals of fabric science and Physical science. the essential ideas to be schooled can facilitate for the advance, correct choice and effective utilization of materials that are crucial to satisfy the ever increasing demands of the society.


Learning Objectives: to understand the essential ideas of bonds in metals and alloys. to grasp the essential needs for the formation of solid solutions and different compounds. Structure of Metals and Constitution of alloys: Bonds in Solids – chemical bond – crystallization of metals, grain and grain boundaries, the impact of grain boundaries on the properties of metal/alloys – determination of grain size. The necessity of alloying, kinds of solid solutions, Hume Rothery rules, intermediate alloy phases, and negatron compounds.


Learning objectives: to grasp the regions of stability of the phases that may occur in the AN alloy system so as to resolve the issues in sensible science. Equilibrium Diagrams: Experimental strategies of construction of equilibrium diagrams, similarity alloy systems, equilibrium cooling and heating of alloys, Lever rule, coring miscibility gaps, mixture systems, congruent melting intermediate phases, peritectic reaction. Transformations within the solid state – allotropism, eutectoid, peritectoid reactions, phase rule, the relationship between equilibrium diagrams and properties of alloys. Study of necessary binary section diagrams of Cu-Ni-, Al-Cu, Bi-Cd, and Fe-Fe3C.


Learning objectives: to review the essential variations between solid irons and steels, their properties and sensible applications. solid Irons and Steels: Structure and properties of White forged iron, Malleable forged iron, gray forged iron, rounded carbon forged iron, Alloy solid irons. Classification of steels, structure, and properties of plain carbon steels, Low alloy steels, Hadfield Mn steels, tool and die steels.


Learning objectives: to review the have an effect on of varied alloying components on the iron-iron inorganic compound system. to grasp the varied heat treatment and strengthening processes utilized in sensible applications. Heat treatment of Alloys: impact of alloying components on Fe-Fe3C system, Annealing, normalizing, hardening, TTT diagrams, tempering, hardenability, surface – hardening strategies, Age hardening treatment, refrigerant treatment of alloys.


Learning objectives: to review the properties and applications of wide used non-ferrous metals and alloys thus on the use the acceptable material for sensible applications.
Non-ferrous Metals and Alloys: Structure and properties of Copper and its alloys, atomic number 13 and its alloys, atomic number 22 and its alloys.

II Year – I Semester
4 0 0 3


Learning objectives: to review the properties and applications of ceramic, composite and different advanced materials thus on the use the acceptable material for sensible applications. Ceramic and composite materials: Crystalline ceramics, glasses, cermets, abrasive materials, nanomaterials – definition, properties and applications of the higher than.
Classification of composites, numerous strategies of element manufacture of composites, particle – bolstered materials, fiber bolstered materials, metal ceramic mixtures, metal – matrix composites and C – C composites.

Text Books:

  1. Introduction to Physical science – Sir Philip Sidney H. Avener – McGrawHill a pair of. Essential of Materials science and engineering – Donald R.Askeland – Cengage.

References :

  1. Material Science and science – Dr. V.D.Kodgire. 2. Materials Science and engineering – Callister & Baalasubrahmanyam three. Material Science for Engineering students – Fischer – Elsevier Publishers four. Material science and Engineering – V. Rahghavan five. Introduction to Material Science and Engineering – Yip-Wah Chung CRC Press half-dozen. Material Science and science – A V K Suryanarayana – B S Publications seven. Material Science and science – U. C. Jindal – Pearson Publications