Syllabus of lectures:
First part: This section builds on the subjects' Tools' and 'Design and Production
tools "and complete the form summarizes the problems of manufacturing spur and bevel
al.
1st Methods and tools for making spur gears
1.1 History of production of gears
1.2 Gear cutting
1.3 Gear Slotting
2nd Methods and tools for finishing spur gears
2.1 The measurement method with vužitím tools with geometrically defined cutting edge
2.2 Shape of the front teeth grinding
2.3 ground helical gears
3rd Methods and tools for the production of bevel gears with straight teeth
3.1 Methods and tools for the production of bevel gears with straight teeth DZ
3.2 Methods and tools for the production of bevel gears with straight teeth heap
4th Methods and tools for the production of bevel gears with curved teeth
4.1 An Gleason
4.2 The Klingelnberg
4.3 The Oerlikon
Second part: This section complements the subject "Theory machining" and "Processing" is an experimental measurement of the variables that accompany the process of cutting.
5th Study chip
5.1 Metallographic studies of completed changes in the cutting zone and the evaluation of root chips
5.2 Coefficient of upsetting chips
6th Heat and temperature during machining
6.1 Sources of heat and energy balance
6.2 Temperature measurement in machining
7th Wear and machinability
7.1 Measurement of wear
7.2 Marking workability and machinability long-term tests
7.3 Short-term testing of machinability
8th Measurement of forces during machining
8.1 Indirect measurement of forces in the machining and calibration of dynamometers
8.2 Direct measurement of forces during machining
9th Vibration during operation
9.1 Vibrations in Machining
9.2 Stiffness of IT system
10th Study of surface finish
10.1 Residual surface stress after machining
10.2 Effect of cutting parameters on the theoretical and actual surface roughness
Third part: This section builds on the subjects "Processing" and "working theory", in addition to
current capabilities and knowledge of progressive cutting. It places special
emphasis on accurate and economical processing of a defined cutting geometry, which is
essential for achieving environmentally sound and efficient machining
high integrity of the workpiece surface.
11th Aspects of high-speed "HSC" machining
11.1-D machining with high cutting speeds
11.2 Spatial High-speed machining feeds
11.3 Comparison of deformation zones at the "classic" and "HSC" technology
12th Problems of high-volume "ESC" machining
12.1 Requirements for related activities at the "HSC" machining
12.2 Conditions for high - volume machining
12.3 Effects výkonostního machining
13th Kreatika and creating products
13.1 Principle kreatiky
13.2 Kreatika and creativity
13.3 Credo kreatiky - Product Creation Processes
13.4 component base and its importance
14th Nanotechnology - emerging technologies
14.1 Nanomaeriály in surface treatments
14.2 Extreme nanotechnology - the atomic and molecular manipulation of matter
14.3 nanostructures - the basic elements of nanomaterials
Syllabus Exercises:
1st part: Methods and tools for making spur gears
In the exercises, students will visit businesses engaged in manufacturing gears, and TATRA, as Kopřivnice Ozubárna center and the company Vitkovice as Ozubárna. Students will be assessed on the basis of knowledge test. This section covers four exercises.
2nd part: Experimental Methods in machining
In the exercises, students will working on 1 5 exercises, which will be scored:
a) the study of root chips and chip upsetting determining factor
b) measuring temperature using cutting termodua, pyrometers and thermal imagers
c) determining the characteristics of reference material for determining the workability and machinability determination
selected metallurgical material
d) calibrated dynamometer measuring cutting forces using a dynamometer, a structural equation
e) load characteristic spindle system stiffness
This section covers six exercises.
3rd Part: New Trends in Machining
Students will score at the level of elaboration of a given program and knowledge test. This section covers four exercises.
First part: This section builds on the subjects' Tools' and 'Design and Production
tools "and complete the form summarizes the problems of manufacturing spur and bevel
al.
1st Methods and tools for making spur gears
1.1 History of production of gears
1.2 Gear cutting
1.3 Gear Slotting
2nd Methods and tools for finishing spur gears
2.1 The measurement method with vužitím tools with geometrically defined cutting edge
2.2 Shape of the front teeth grinding
2.3 ground helical gears
3rd Methods and tools for the production of bevel gears with straight teeth
3.1 Methods and tools for the production of bevel gears with straight teeth DZ
3.2 Methods and tools for the production of bevel gears with straight teeth heap
4th Methods and tools for the production of bevel gears with curved teeth
4.1 An Gleason
4.2 The Klingelnberg
4.3 The Oerlikon
Second part: This section complements the subject "Theory machining" and "Processing" is an experimental measurement of the variables that accompany the process of cutting.
5th Study chip
5.1 Metallographic studies of completed changes in the cutting zone and the evaluation of root chips
5.2 Coefficient of upsetting chips
6th Heat and temperature during machining
6.1 Sources of heat and energy balance
6.2 Temperature measurement in machining
7th Wear and machinability
7.1 Measurement of wear
7.2 Marking workability and machinability long-term tests
7.3 Short-term testing of machinability
8th Measurement of forces during machining
8.1 Indirect measurement of forces in the machining and calibration of dynamometers
8.2 Direct measurement of forces during machining
9th Vibration during operation
9.1 Vibrations in Machining
9.2 Stiffness of IT system
10th Study of surface finish
10.1 Residual surface stress after machining
10.2 Effect of cutting parameters on the theoretical and actual surface roughness
Third part: This section builds on the subjects "Processing" and "working theory", in addition to
current capabilities and knowledge of progressive cutting. It places special
emphasis on accurate and economical processing of a defined cutting geometry, which is
essential for achieving environmentally sound and efficient machining
high integrity of the workpiece surface.
11th Aspects of high-speed "HSC" machining
11.1-D machining with high cutting speeds
11.2 Spatial High-speed machining feeds
11.3 Comparison of deformation zones at the "classic" and "HSC" technology
12th Problems of high-volume "ESC" machining
12.1 Requirements for related activities at the "HSC" machining
12.2 Conditions for high - volume machining
12.3 Effects výkonostního machining
13th Kreatika and creating products
13.1 Principle kreatiky
13.2 Kreatika and creativity
13.3 Credo kreatiky - Product Creation Processes
13.4 component base and its importance
14th Nanotechnology - emerging technologies
14.1 Nanomaeriály in surface treatments
14.2 Extreme nanotechnology - the atomic and molecular manipulation of matter
14.3 nanostructures - the basic elements of nanomaterials
Syllabus Exercises:
1st part: Methods and tools for making spur gears
In the exercises, students will visit businesses engaged in manufacturing gears, and TATRA, as Kopřivnice Ozubárna center and the company Vitkovice as Ozubárna. Students will be assessed on the basis of knowledge test. This section covers four exercises.
2nd part: Experimental Methods in machining
In the exercises, students will working on 1 5 exercises, which will be scored:
a) the study of root chips and chip upsetting determining factor
b) measuring temperature using cutting termodua, pyrometers and thermal imagers
c) determining the characteristics of reference material for determining the workability and machinability determination
selected metallurgical material
d) calibrated dynamometer measuring cutting forces using a dynamometer, a structural equation
e) load characteristic spindle system stiffness
This section covers six exercises.
3rd Part: New Trends in Machining
Students will score at the level of elaboration of a given program and knowledge test. This section covers four exercises.