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UNIVERSITY OF CRIMINAL INVESTIGATION AND POLICE STUDIES |
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UNDERGRADUATE ACADEMIC STUDIES FORENSIC ENGINEERING |
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Course: |
Chemical and Technological Engineering |
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Course Code: 2.25 |
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ECTS: 8 |
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Course Status: |
Compulsory |
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Number of Effective Classes (Per Week): 3 + 2 |
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Theoretical Education: |
Practical Training: |
Special Forms of Training: |
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3 |
2 |
- |
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Prerequisite/s: None |
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Educational Objective: Students are acquiring theoretical and practical knowledge of engineering materials in order to master the methods of their optimal choice for the building of structures, plants, tools and packagings, as well as the principles of materials recycling after their exploitation. Within this course, the major classes of engineering materials – metals, ceramics, polymers, and composites used in chemical engineering are considered. |
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Learning Outcomes: Students are trained to apply the concept of thermodynamics of materials and to understand the “processing-structure-properties” relationship of all major classes of materials, as well as to select the appropriate method for characterization of the structure and physico-chemical properties of the materials. Students were able to select new materials and to apply contemporary methods of materials of optimal choice, using databases for all classes of engineering materials and modern software packages. |
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Course Overview Lecture: Introduction to material science and material engineering; Classification, structure, properties and processing procedures of metal, ceramic, polymeric and composite materials and their application in the chemical industry. Contemporary functional materials. Damages and failure and protection mechanisms of materials. Principles of optimal choice of engineering materials in the chemical industry. Practical (Laboratory) Training: Metal tension test; Young's modulus testing; metal hardness testing; mechanical testing of polymeric materials; mechanical testing of composite materials; databases for all major classes of materials and modern software packages for optimum material selection. |
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Teaching Methods: PowerPoint Presentation, Lecturing, In-class Discussion, Laboratory Training, Student Project. |
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Assessment (Maximum Number of Points: 100) |
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Pre-Exam Obligations |
No. of Points |
Final Examination |
No. of Points |
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Calculations |
20 |
Oral Exam |
30 |
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Laboratory Training |
30 |
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In-class Activities |
5 |
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Test |
15 |
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Textbook/s |
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1. Плавшић, М. Полимерни материјали: наука и инжењерство, Београд: Научна књига, 1996 2. Mitchell, B.S. An Introduction to Materials Engineering and Science for Chemical and Materials Engineers, New York: John Willey&Sons, 2004 3. Ashby, M. F. Materials Selection in Mechanical Design, Oxford: Pergamon press, 1992 |
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