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M2: Systems and Processes Material Processing Technology Prof. Dr. Mahmut IZCILER.

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1 M2: Systems and Processes Material Processing Technology Prof. Dr. Mahmut IZCILER

2 GU (TR) – Material Processing Technology –Manufacturing Technologies –Welding and sheet metal forming –Computer Aided Manufacturing –Plastics and Ceramics Technology

3 Lecture Structure M2: Systems and Processes Main Modul Module Lecture Lecture Lecture Submodule: Material processing systems Submodule: Energy processing systems Submodule: Transportation and Mobility Submodule: Economic fundementals, management processes

4 Main Module 2 Material Processing Technology Material Processing Technology Structure – Main Modules –Main Module 2 “Material Processing Technology” consists of four Sub-Modules: - Module 1: “Manufacturing Processing Technology” - Module 2. “Computer Aided Manufacturing” - Module 2. “Computer Aided Manufacturing” - Module 3: “Welding and sheet metal forming” - Module 4: “Plastics and Ceramics Technology” Module 1 Manufacturing Processing Technology Module 3 Welding and sheet metal forming Module 2 Computer Aided Manufacturing Module 4 Plastics and Ceramics Technology

5 Structure - Modules  Module 1 “Manufacturing Processing Technology ” consists of two Lectures: - Basic Manufacturing Technologies(2 hours theory) - Practical Training(2hours practice) Credit : Credit : Module 1 Manufacturing Processing Technology Lecture: Basic Manufacturing Technology Practical Trainining

6 Structure - Modules –Module 2 “ Computer Aided Manufacturing ” consists of two Lectures: - Computer integrated manufacturing and CNC programing (2 hours - Computer integrated manufacturing and CNC programing (2 hours theory) theory) - Practical Training(1hour practice) - Practical Training(1hour practice) Credit : Credit : Module 2 Computer Aided Manufacturing Lecture: Computer Integrated Manufacturing Practical Trainining

7 Structure – Modules - –Module 3 “Welding and sheet metal forming” consists of two Lectures: - Welding and sheet metal forming tecniques(2 hours theory) - Practical Training(2hours practice) Credit : Credit : Module 3 Welding and Sheet Metal Forming Welding and Sheet Metal Forming Lecture: Welding and sheet metal forming tecniques Practical Trainining

8 Structure – Modules –Module 3 “ –Module 3 “ Plastics and Ceramics Technology –” consists of two Lectures: –- (2 hours theory) - Practical Training(2 hours practice) –- Lecture: Plastic and Ceramic Processing Technology (2 hours theory) - Practical Training(2 hours practice) Credit : Credit :  Lecture: Plastics and Ceramics Processing Technology Practical Training Module 4: “Plastics and Ceramics Technology

9 Object oriented thematically enclosed list of subjects (submodules):  Metal and composite shaping methods  Technological specifications of metals  Technological specifications of composites  Safety rules  Metal Cutting Machines  Measurement and control equipments, Marking  Cutting theory  Sawing, Filing, Drilling  Bending  Cutting Threads, Mechanical Fasteners-Machine Screws and rivets  Grinding  Tempering, Hardening  Turning Metal, Milling Metal  Importance of computer integrated manufacturing  Solid modelling  Machine axis and different control types and CNC codes  Interpolations  Creation of CNC programs  Welding  Welding machines and equipments  Welding tecniques  Sheet metals and forming processes  Plastics and types of plastics  Mechanical thermal, chemical specifications of plastics ·  Heat processes and forming(molding )  Characteristics of ceramics solids and raw materials  Ceramic phase-equilibrium diagrams  Properties of ceramics  Ceramic prosesses and ceramic products  Applied projects

10 Module 1 Manufacturing Technologies Lecture Practical Training Lecture: Basic Manufacturing Technologies Compulsory Elective  Importance of computer integrated manufacturing  Solid modelling  Machine axis and different control types and CNC codes  Interpolations  Creation of CNC programs  Welding  Welding machines and equipments  Welding tecniques  Sheet metals and forming processes  Plastics and types of plastics  Mechanical thermal, chemical specifications of plastics ·  Heat processes and forming(molding )  Characteristics of ceramics solids and raw materials  Ceramic phase-equilibrium diagrams  Properties of ceramics  Ceramic prosesses and ceramic products  Applied projects Metal and composite shaping methods Technological specifications of metals Technological specifications of composites Safety rules Metal Cutting Machines Measurement and control equipments, Marking Cutting theory Sawing, Filing, Drilling Bending Cutting Threads, Mechanical Fasteners-Machine Screws and rivets Grinding Tempering, Hardening Turning Metal, Milling Metal

11 Module 2 Computer Aided Manufacturing Lecture: Computer Integrated Manufacturing and CNC Programing Practical Training: Programing Practice Compulsory Elective Metal and composite shaping methods Technological specifications of metals Technological specifications of composites Safety rules Metal Cutting Machines Measurement and control equipments, Marking Cutting theory Sawing, Filing, Drilling Bending Cutting Threads, Mechanical Fasteners-Machine Screws and rivets Grinding Tempering, Hardening Turning Metal, Milling Metal Importance of computer integrated manufacturing Solid modelling Machine axis and different control types and CNC codes Interpolations Creation of CNC programs Welding Welding machines and equipments Welding tecniques Sheet metals and forming processes Plastics and types of plastics Mechanical thermal, chemical specifications of plastics · Heat processes and forming(molding ) Characteristics of ceramics solids and raw materials Ceramic phase-equilibrium diagrams Properties of ceramics Ceramic prosesses and ceramic products Applied projects Importance of computer integrated manufacturing Solid modelling Machine axis and different control types and CNC codes Interpolations Creation of CNC programs

12 Module 3 Welding and Sheet Metal Forming Practical Training Lecture: Welding and Sheet Metal Forming Techniques Compulsory Elective  Metal and composite shaping methods  Technological specifications of metals  Technological specifications of composites  Safety rules  Metal Cutting Machines  Measurement and control equipments, Marking  Cutting theory  Sawing, Filing, Drilling  Bending  Cutting Threads, Mechanical Fasteners-Machine Screws and rivets  Grinding  Tempering, Hardening  Turning Metal, Milling Metal  Importance of computer integrated manufacturing  Solid modelling  Machine axis and different control types and CNC codes  Interpolations  Creation of CNC programs  Welding  Welding machines and equipments  Welding tecniques  Sheet metals and forming processes  Plastics and types of plastics  Mechanical thermal, chemical specifications of plastics ·  Heat processes and forming(molding )  Characteristics of ceramics solids and raw materials  Ceramic phase-equilibrium diagrams  Properties of ceramics  Ceramic prosesses and ceramic products  Applied projects Welding Welding machines and equipments Welding tecniques Sheet metals and forming processes  Applied projects

13 Module 4 Plastics and Ceramics Processing Technology Lecture Practical Training Compulsory Elective  Metal and composite shaping methods  Technological specifications of metals  Technological specifications of composites  Safety rules  Metal Cutting Machines  Measurement and control equipments, Marking  Cutting theory  Sawing, Filing, Drilling  Bending  Cutting Threads, Mechanical Fasteners-Machine Screws and rivets  Grinding  Tempering, Hardening  Turning Metal, Milling Metal  Importance of computer integrated manufacturing  Solid modelling  Machine axis and different control types and CNC codes  Interpolations  Creation of CNC programs  Welding  Welding machines and equipments  Welding tecniques  Sheet metals and forming processes  Plastics and types of plastics  Mechanical thermal, chemical specifications of plastics ·  Heat processes and forming(molding )  Characteristics of ceramics solids and raw materials  Ceramic phase-equilibrium diagrams  Properties of ceramics  Ceramic prosesses and ceramic products  Applied projects Plastics and types of plastics Mechanical thermal, chemical specifications of plastics · Heat processes and forming(molding ) Characteristics of ceramics solids and raw materials Ceramic phase-equilibrium diagrams Properties of ceramics Ceramic prosesses and ceramic products

14  Manufacturing Processing Technology  Credits: Configuration for this course consists of: Each Lecture that meets 2 times per week for 45 minutes,16 weeks.Laboratory(practical training) that meets per week for 90 minutes,16 weeks(Computer Aided Manufacturing is different).  Description: This course focuses on the development of manufacturing technology knowledge and skill required to teach middle level technology education courses. Students prepare and present manufacturing technology lessons and learning activities. Students explore, through laboratory activities and content areas  School: Industrial Arts Education Faculty  Department: Industrial Technology Education

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