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Course Name : Material Science

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1 Course Name : Material Science
Pharos University in Alexandria Faculty of Engineering. Petrochemical Department Course Name : Material Science Course Code: PE (217)

2 L e a r n i n g O b j e c t i v e outcomes:
After careful study of this lecture you should be able to do the following: List six different property classifications of materials that determine their applicability. 2. Cite the four components that are involved in the design, production, and utilization of materials, and briefly describe the interrelationships between these components. 3. Cite three criteria that are important in the materials selection process. 4-List the three primary classifications of solid materials, and then cite the distinctive chemical feature of each. 5- Note the other three types of materials and, for each, its distinctive feature(s). Dr.Ehssan Nassef 2

3 1.2.MATERIALS SCIENCE AND ENGINEERING:
The discipline of materials science involves investigating the relationships that exist between the structures and properties of materials. In contrast, materials engineering is, on the basis of these structure–property correlations, designing or engineering the structure of a material to produce a predetermined set of properties. Throughout this text we draw attention to the relationships between material properties and structural elements. In addition to structure and properties, two other important components are involved in the science and engineering of materials, viz. ‘‘processing’’ and ‘‘performance.’’ With regard to the relationships of these four components, the structure of a material will depend on how it is processed. . Dr.Ehssan Nassef

4 Furthermore, a material’s performance will be a function of its properties. Thus, the interrelationship between processing, structure, properties, and performance is linear, as depicted in the schematic illustration shown in Figure 1.1. Throughout this text we draw attention to the relationships among these four components in terms of the design. production, and utilization of materials Dr.Ehssan Nassef

5 1.3 WHY STUDY MATERIALS SCIENCE AND ENGINEERING?
1-materials problem is one of selecting the right material from the many thousands that are available. First of all, the in-service conditions must be characterized, for these will dictate the properties required of the material. 2-deterioration of material properties that may occur during service operation. 3-Finally, probably the overriding consideration is that of economics: What will the finished product cost?

6 1.4 CLASSIFICATION OF MATERIALS
1-METALS: Metallic materials are normally combinations of metallic elements Properties: good conductors of electricity and heat. not transparent to visible light. a polished metal surface has a lustrous appearance. metals are quite strong, yet deformable, which accounts for their extensive use in structural applications.

7 2-CERAMICS Ceramics are compounds between metallic and nonmetallic elements. they are most frequently oxides, nitrides, and carbides. Examples: clay minerals cement glass. Properties: These materials are typically insulative to the passage of electricity and heat and are more resistant to high temperatures and harsh environments than metals and polymers. ceramics are hard but very brittle.

8 3-POLYMERS: Examples: Properties:
Polymers include the familiar plastic and rubber materials. Many of them are organic compounds that are chemically based on carbon, hydrogen, and other nonmetallic Properties: they have very large molecular structures. low densities. extremely flexible. Dr.Ehssan Nassef

9 4-COMPOSITES: Example: Fiberglass
A number of composite materials have been engineered that consist of more than one material type. Example: Fiberglass A composite is designed to display a combination of the best characteristics of each of the component materials. Properties: Fiberglass acquires strength from the glass and flexibility from the polymer. Many of the recent material developments have involved composite materials Dr.Ehssan Nassef

10 5-SEMICONDUCTORS Semiconductors have electrical properties that are intermediate between the electrical conductors and insulators. Furthermore, the electrical characteristics of these materials are extremely sensitive to the presence of minute concentrations of impurity atoms, which concentrations may be controlled over very small spatial regions. The semiconductors have made possible the advent of integrated circuitry that has totally revolutionized the electronics and computer industries (not to mention our lives) over the past two decades

11 6. ADVANCED MATERIALS: Materials that are utilized in high-technology (or high-tech) applications are sometimes termed advanced materials. By high technology we mean a device or product that operates or functions using relatively intricate and sophisticated principles. Examples : include electronic equipment (VCRs, CD players, etc.), Computers systems Spacecraft aircraft, and military rocketry. These advanced materials are typically either traditional materials whose properties have been enhanced or newly developed, high-performance materials.

12 Furthermore, they may be of all
material types (e.g., metals, ceramics, polymers), and are normally relatively expensive. materials that are used for lasers integrated circuits, magnetic information storage, liquid crystal displays (LCDs), fiber optics, and the thermal protection system for the Space Shuttle Orbiter

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