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Material Science (Code: PE 217 )

Pharos University in Alexandria Faculty of Engineering. Petrochemical Eng.Department. Material Science (Code: PE 217 ). Prepared by: Dr. Ehssan Nassef. Course code: PE 217 Course title : Material Science. Pre-requisite: Engineering Physics (1),BE121. Lecture: E 112.

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Material Science (Code: PE 217 )

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  1. Pharos University in Alexandria Faculty of Engineering. Petrochemical Eng.Department Material Science (Code: PE 217 ) Prepared by: Dr. EhssanNassef

  2. Course code: PE 217Course title: Material Science. • Pre-requisite: Engineering Physics (1),BE121 • Lecture: E112. • Sunday– from ……10:30.. to 12:30 A.m • Lab: F011. • Monday: from 10:30-12:30 P.m • Wednesday: from 10:30 to 12:20 P.m Instructor:Dr.EhssanNassef Email:ehssan.nassef@pua.edu.eg Room: E 128 • Office hours: Sunday from 12:30 to 2:30 • Monday from 12:30 to 2:30 • Thursday: 10:30-12:30 • ………………………………………………………….

  3. Course Aim: At the end of this course the students will be well known of the following: • Atomic structure and interatomic bonding. • The structure of crystalline solids. • Grain size determination. • Imperfections in solids. • Mechanical properties of metals (true stress and strain, hardness,etc) • Thermal proprieties(thermal expansion and conduction) • Polymer structure. • Structure and properties of ceramics. • Application and processing of ceramics and polymers. • Corrosion and corrosion resistance material. • Testing effect of service conditions on the properties of materials, properties of alloys and composites. Intended Learning outcomes:

  4. Intended learning outcomes(ILO,S) A- Knowledge and understanding: • a1. Acquire understanding The Atomic Structure and Interatomic Bonding. • a2- Enable the student to deal with the Crystallographic Points and Directions in crystal system. • a3- Identify the imperfection in solids and the classification of defect. • a4- Examine the Rheology and mechanical properties of metals. • a5- Describe polymer and its size. • a6- Describe corrosion and its oxidation reactions. • a7- Identify the structure and properties of ceramics. • a8- Identify the structure and properties of composite. . .

  5. b- Intellectual skills • b1- Demonstrate structural elements of materials and their properties, processing” and “performance.” • b2- Demonstrate the classification of materials, metals , Ceramics, Polymers and Composites. • b3- Discover the Differentiation between Crystalline and Noncrystalline Materials. • b4- Demonstrate the Imperfections in Solids and the classification of defects. • b5- Detect the Mechanical Properties of Metals • b6- Classify the polymers. • b7- Demonstrate the composition of ceramics and composites and its properties. . c1. c2. c3. .

  6. C- Professional and practical skills . c1- Determine the point coordinates and directions. c2- Explain the meaning of the mechanical properties of metals. c3- Explain the polymer structures and its compositions. c4- Practice corrosion and its effects d- General and transferable skills • . d1- Enable the student to easy search about literatures topics. • d2- Create an ordered structured report on subject of relevance to the course and their own interest.

  7. Laboratory Experiments: • Hardness of Aluminum, copper and steel. • Determination of Average Grain Size Number in Ferrous Alloys. • Tensile Behavior of Metal Alloys. • Corrosion and corrosion control. • Corrosion of ferrous Alloys

  8. Teaching and learning methods - Lectures. • Tutorials • Laboratory Experiments. • -Presentation. Student assessment : A- Procedures used • Assessment (1) 4 Quizzes during the semester. • Assessment (2) Mid tem exam. • Assessment (3) Two presentations. • Assessment (4) Lab manual+Attendence • Assessment (5) Lab Exam • Assessment (6) Final written Exam

  9. B- Schedule • Assessment 1 ,four quizzes weeks 4,8,11,13 • Assessment 2 Midterm Week 9 • Assessment 3,4 during the semester • Assessment 5 Final practical Exam week 15 • Assessment 6 final written Exam week 16 C- Weighting of Assessment • Four quizes+Presentations+Lab manual 20% • Midterm Exam 20% • Lab Exam 10% • Final Written Exam 50%

  10. List of references • 1- Course notes Fundamentals of Materials Science and Engineering, by William D. Callister, Jr.,fifth edition,2000. • 2- Required books (text books) 1- James F.Shackeford,”Introduction to Material Science For Engineers”,MacMillian Publishing company ,1992. • 3- Recommended books 2-A.G.Guy “Introduction to material science “,Mc Grow Hill.Inc.,1999. • 4- Periodicals, Web sites, … etc www.pua.edu.eg

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