Non-Ferrous Metallurgy Material Science 4th Sem Syllabus for BE 2017 Regulation Anna Univ

Non-Ferrous Metallurgy detail syllabus for Materials Science And Engineering (Material Science), 2017 regulation is taken from Anna University official website and presented for students of Anna University. The details of the course are: course code (ML8403), Category (PC), Contact Periods/week (3), Teaching hours/week (3), Practical Hours/week (0). The total course credits are given in combined syllabus.

For all other material science 4th sem syllabus for be 2017 regulation anna univ you can visit Material Science 4th Sem syllabus for BE 2017 regulation Anna Univ Subjects. The detail syllabus for non-ferrous metallurgy is as follows.”

Course Objective:

• To understand the structure, property relations of nonferrous alloys with special emphasis on engineering applications.

Unit I

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Unit II

Aluminium and its Alloys
Methods of Production of Aluminium- Properties of metallic aluminium. Alloys of aluminium and designation, classification. Wrought and cast alloys. Heat treatable and nonheat treatable alloys. Age hardening of Al-Cu alloy. Al-Mg-Si, Al-Zn-Mg and Al-Li alloys. Typical microstructure of aluminium alloys. Applications of Al alloys in Automobile an Aircraft industries.

Unit III

Magnesium and Titanium Alloys
Methods of Production of Magnesium- properties and uses. Magnesium alloys and designation. Methods of Production of Titanium- unique characteristics of the metal- alpha, alpha+beta and beta titanium alloys- major types. Titanium aluminides – their properties and uses. Typical microstructure of magnesium and titanium alloys- Applications of Ti alloys in Aircraft, Chemical and Medical industries.

Unit IV

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Unit V

Lead, Tin and Precious Metals
Methods of Production of Lead and Tin-Major characteristics and applications of lead and tin and their alloys and designation. Low melting nature of solder alloys. Gold, silver and platinum – nobility of these metals. Engineering properties and applications of these metals and their alloys. Typical microstructure of solder alloys

Course Outcome:

Upon completion of this course, the students can able to

• To understand the structure, property relations of copper and copper alloys
• To understand the heat treatment and processing of aluminum alloys
• To understand the structure, property relations of magnesium and titanium alloys on engineering applications
• To understand the structure, property relations of nickel and zinc alloys on engineering applications
• To understand the structure, property relations of lead, tin and precious metals on engineering applications

Text Books:

1. K.G.Budinski and M.K.Budinski, Engineering Materials– Properties and Selection, PHI Learning Pvt. Ltd., New Delhi, 2009.
2. Sidney H. Avner, Introduction to Physical Metallurgy, Tata McGraw-Hill, 2nd Edition,1997.

References:

1. Ahindra Ghosh, Hem Shanker Ray, Principles of Extractive Metallurgy, New Age International, Reprint 2001.
2. Balram Gupta, Aerospace Materials, Vol. 1, 2 and 3, S. Chand and Co., New Delhi, 1996.
3. Clark and Varney, Physical Metallurgy for Engineers, Affiliated East West Press, New Delhi, 1987
4. William F. Smith, Structure and Properties of Engineering Alloys, McGraw Hill, USA, 1993.
5. W.H. Dennis, Metallurgy of the Nonferrous Metals, Sir Isaac Pitman and Sons, London,1967.

For detail syllabus of all other subjects of BE Material Science, 2017 regulation do visit Material Science 4th Sem syllabus for 2017 Regulation.

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