B.Tech Petroleum Engineering, Anna University regulation 2021, awarding the subject code PH3253 deals with the semester II Materials Science For Technologists Syllabus. We hope that provide the syllabus in a detailed manner in one place.
Hence this article PH3253 – Materials Science For Technologists syllabus, assists in acquiring knowledge regarding the subject. We include required textbooks and references to help you to prepare for academic examinations. Having a grip on the topics will help you to make proper notes, and effective strategies to complete reading the syllabus. It could be a plus point to revise the whole syllabus just by seeing the topics of the syllabus in one place, just by having the screenshots, images, and notes from an effective syllabus page, right? The following article will help you to have that information. Hope it is useful to you. Gain Knowledge and Become Inspirational.
If you want to know more about the syllabus of B.Tech Petroleum Engineering connected to an affiliated institution’s four-year undergraduate degree program. We provide you with a detailed Year-wise, semester-wise, and Subject-wise syllabus in the following link B.Tech Petroleum Engineering Syllabus Anna University Regulation 2021.
Aim Of Objectives:
- To make the students effectively to understand the basics of crystallography and crystal imperfections.
- To enable the students to get knowledge on various strengthening methods of materials, and also various mechanical properties and their measurement.
- To impart knowledge on the basics of phase diagrams and their applications.
- To learn about iron-carbon system and about various ferrous and non-ferrous alloys.
- To introduce the preparation, properties, and applications of ceramics, composites, and nanomaterials.
PH3253 – Materials Science For Technologists Syllabus
Unit I: Crystallography
Crystallographic directions and planes – metallic crystal structures: BCC, FCC and HCP – linear and planar densities – crystal imperfections- edge and screw dislocations, Burgers vector and elastic strain energy- surface imperfections – grain and twin boundaries – Polymorphism – phase changes – nucleation and growth – homogeneous and heterogeneous nucleation.
Unit II: Mechanical Properties
Tensile test – plastic deformation by slip – slip systems – mechanisms of strengthening in metals: strain hardening, grain size reduction, solid solution strengthening, precipitation hardening – Creep: creep curves,stress and temperature effects, mechanisms of creep, creep-resistant materials – Fracture: ductile and brittle fractures – the Griffith criterion –fracture toughness Fatigue failure:the S-N curve – factors that affect fatigue life – Hardness: Rockwell and Brinell hardness tests, Knoop and Vickers microhardness tests.
Unit III: Phase Diagrams
Basic concepts – Gibbs phase rule –Unary phase diagram (iron) – Binary phase diagrams: isomorphous systems (Cu-Ni) –determination of phase composition and phase amounts – tieline and lever rule – binary eutectic diagram with no solid solution and limited solid solution (Pb-Sn) – eutectoid and peritectic reactions – other invariant reactions – microstructural development during the slow cooling: eutectic, hyper eutectic and hypoeutectic compositions.
Unit IV: Ferrous And Nonferrous Alloys
The Fe-Fe3C phase diagram: phases, invariant reactions, development of microstructure in eutectoid, hypereutectoid and hypereutectoid alloys–influence of other alloying elements in the FeC system – phase transformations –isothermal transformation diagram for eutectoid iron-carbon alloy – microstructures: pearlite, bainite, spheroid and martensite – steels, stainless steels and cast irons – copper alloys – aluminum alloys – titanium alloys.
Unit V: Ceramics, Composites And Nano Materials
Ceramics – types and applications, abrasives and cements – Composites: classification, role of matrix and reinforcement -Fiber reinforced composites – carbon-carbon composites –Nanomaterials:types, physical, chemical and mechanical properties – carbon nanotubes: properties and applications – synthesis of nanomaterials: sonochemical, molecular epitaxy, physical vapor deposition (PVD) and chemical vapor deposition (CVD). Characterization: Transmission electron microscopy – scanning electron microscopy – Atomic force microscopy – Xray powder diffraction – Nanoparticle size calculation.
Text Books:
- R. Balasubramaniam, Callister’s Materials Science and Engineering.Wiley (Indian Edition), 2014.
- V.Raghavan. Materials Science and Engineering: A First Course, Prentice Hall India Learning Private Limited, 2015.
- William F. Smith, Javad Hashemi and Ravi Prakash, Materials Science and Engineering, McGraw Hill Education (Indian Edition), 2017.
References:
- J.F.Shackelford. Introduction to Materials Science for Engineers. Pearson, 2015.
- Wendelin Wright and Donald Askeland, Essentials of Materials Science and Engineering, CL Engineering, 2013.
- J.C. Anderson, K.D. Leaver, P. Leevers and R.D. Rawlings, Materials Science for Engineers, CRC Press, 2003.
- Jean P.Mercier, G.Zambelli and W.Kurz, Introduction to Materials Science, Elsevier, 2002.
- YaserDahman, Nanotechnology and Functional Materials for Engineers, Elsevier, 2017.
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