| 1. Week |
A-Features, principles, scope and duties of mechanical technician. Working According to Occupational Safety Rules in Machinery Workshops and Laboratories B- Knowledge and skill operations of adjustable measuring and control instruments. -- Measurement and control. -- Measurement methods. --Measurement errors. C-METRIC SLIDE CALIPERS: 1/10 Metric Slide Calipers--1/20 Metric slide calipers. --1/50 metric slide calipers. -- 1/100 Metric digital and clock calipers. |
Other Activities, Preparation, After Class Study, Interview, Research
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| 2. Week |
D-INCH (FINGER) SLIDE CALIPERS: -- 1/128 inch slide calipers. -- 1/1000 inch slide calipers. |
Preparation, After Class Study, Research, Other Activities, Interview, Practice
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| 3. Week |
E-MICROMETERS: --1/100 Metric micrometers. -- 1/1000 Metric micrometers |
Practice, Preparation, After Class Study, Presentation (Preparation), Research, Other Activities, Interview
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| 4. Week |
F- MANUFACTURING PROCEDURES: Machining methods and types; a) Types of machine tools. b) Working principles. c) Chipless manufacturing methods and types G-ELECTRIC ARC WELDING: - Current types, structural features and advantages and disadvantages they provide during welding. - Transformer type, - Rectifier, - Generator arc welding machines, working system, maintenance and usage |
Presentation (Preparation), Interview, Other Activities
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| 5. Week |
-- Electrode types used during electric arc welding. -- Structural properties and usage areas according to covering materials. -- Use according to the structural characteristics of the steel core of the electrode fields. -- Electric arc welding mask glasses, according to their properties usage areas and usage requirements. -- Electric arc welding Safety to be followed when welding with machines rules |
Preparation, After Class Study, Practice, Interview, Other Activities, Presentation (Preparation), Research
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| 6. Week |
H-LATHE TECHNOLOGY 1. LATHE MACHINES; Lathes, Definition, Types, Universal Lathe Machines and Parts, Part Fastening Tools, Removing and Installing Chucks, Removing and Installing Reverse and Straight Feet, Runout Control, Connecting Workpieces to Chucks, Fixed and Movable Beds. LATHE AND WELDING LABORATORY APPLICATIONS: - In lathe; Cylindrical, face turning, center hole drilling. -Straight seam welding. |
Other Activities, Preparation, After Class Study, Presentation (Preparation), Interview
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| 7. Week |
Lathe Cutters and Their Sharpening, Classification of Cutters, Sharpening, Connecting the Cutters, Lathe Tools, Connecting the Pen. Effects of attachment of cutting tools to the workbench on angles and cutting, Factors Affecting Sharpening of the Pen, Cutting Fluids LATHE AND WELDING LABORATORY APPLICATIONS: - In lathe; Cylindrical, face turning, center hole drilling. -Straight seam welding. |
Interview, Presentation (Preparation), Other Activities
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| 9. Week |
3. CHANNEL OPENING; Connecting the Workpiece Between the Mirror Tailstock, Definition, Connecting the Channel Pen, Adjusting the Number of Revolutions for Channel Turning, Channel Turning, Turning Channel Side Surfaces, Deburring. LATHE AND WELDING LABORATORY APPLICATIONS: - In lathe; Cylindrical, face turning, center hole drilling. -Straight seam welding. |
Interview, Other Activities, Presentation (Preparation)
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| 10. Week |
4. TAPER TURNING; Definition, Taper Types, Taper Elements and Calculation, Taper Turning Methods, Taper Turning by Turning the Sport, Taper Turning by Sliding the Tailstock, Taper Turning with a Guide Slide, Control of Taper with a Comparator. LATHE AND WELDING LABORATORY APPLICATIONS: - In lathe; Cylindrical, face turning, center hole drilling. -Straight seam welding. |
Interview, Other Activities, Presentation (Preparation)
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| 11. Week |
5. CATERPILING; Materials from which the caterpillar roller is made, Types, Setting the Machine, Preparation of the Rollers, Adjusting the Speed for Caterpilling, Adjusting the Appropriate Feed, Drawing Process, Importance of Using Coolant While Drawing, Control of the Rolled Surface. LATHE AND WELDING LABORATORY APPLICATIONS: - In lathe; Cylindrical, face turning, center hole drilling. -Straight seam welding. |
Presentation (Preparation), Other Activities, Interview
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| 12. Week |
6. SCREW OPENING; Metric and Whitworth screw drawing, Multi-mouth screw drawing, Square and trapezoidal screw sharpening; square and trapezoidal screw drawing operations. Screw opening operations with thread and guide on lathe, spring winding operations on lathe, eccentric machining on lathe LATHE AND WELDING LABORATORY APPLICATIONS: - In lathe; Cylindrical, face turning, center hole drilling. -Straight seam welding. |
Other Activities, Presentation (Preparation), Interview, Practice
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| 13. Week |
I- MAINTENANCE REMOVATION PRINCIPLES IN DRILLING MACHINES; Drilling tools types and features. Cutting speed and feed. Reamers and their properties used for dimension accuracy and surface quality in holes. Cutting geometry, speed, reamer allowance and cutting fluids. LATHE AND WELDING LABORATORY APPLICATIONS: - In lathe; Cylindrical, face turning, center hole drilling. - Internal turning, - Straight seam welding. |
Practice, Other Activities, Interview, Presentation (Preparation)
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| 14. Week |
MAINTENANCE REMOVATION PRINCIPLES IN I-SHARP AND PLANER MACHINES: --- Types and working principles of shaper and planer machines. --- Types, features and tool geometries of cutting tools used in shaper and planing machines. LATHE AND WELDING LABORATORY APPLICATIONS:-- On lathe machines; Cylindrical turning, face turning, center hole drilling applications. --- Internal turning operations. --- In electric arc welding machines; Straight seam welding applications. |
Preparation, After Class Study, Other Activities
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