Data wydruku: 09.12.2016 11:44 Strona 1 z 4 Subject name

Subject name
Computer technology in machine production
Subject code
M:03529W0
Faculty
Department of Manufacturing and Production Engineering
Course name
Mechanical Engineering
Learning area
technical sciences
Learning profile
general academic profile
Study year
3
Type of subject
Obligatory
Study semester
5
Study level
undergraduate studies
ECTS
3.0
Number of ECTS
credits
Learning activity of student
ch
Participation in didactic classes included in study plan
30
Participation in consultation hours
10
sh
Self-study hours
Sum
Name of lecturer
35
40
35
Total number of study hours
75
Number of ECTS credits
3.0
dr hab. inż. Stefan Dzionk (Main teacher)
Teachers:
dr hab. inż. Stefan Dzionk
Subject objectives
Data wydruku:
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Learning outcomes
Course outcome
Subject outcome
Method of veryfication
Student describes the modern
methods of model creating and
prototypes for different materials
such as plastic, metal, ceramic
and other. Distinguishes different
format CAD models. Presents
basis of reverse engineering and
data conversion. Recognizes the
technological equipment and
instrumentation for robotic
welding processes.Improves the
practical work in the position of
robotic welding equipped with a
type of IRB 2400 robot and
welding machinery. Developing a
program for a welding robot IRB
2400. Uses computer technology
to design advanced robotic
welding. Learns internet sources
of materials information.
Recognizes main software for
materials selection support and
properties evaluation. Realizes
information search. Learns basic
elements of materials selection
support software.
Student describes the modern
methods of model creating and
prototypes for different materials
such as plastic, metal, ceramic
and other. Distinguishes different
format CAD models. Presents
basis of reverse engineering and
data conversion. Recognizes the
technological equipment and
instrumentation for robotic
welding processes.Improves the
practical work in the position of
robotic welding equipped with a
type of IRB 2400 robot and
welding machinery. Developing a
program for a welding robot IRB
2400. Uses computer technology
to design advanced robotic
welding. Learns internet sources
of materials information.
Recognizes main software for
materials selection support and
properties evaluation. Realizes
information search. Learns basic
elements of materials selection
support software.
Data wydruku:
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Course outcome
K_W08
Subject outcome
Method of veryfication
Student describes the modern
methods of model creating and
prototypes for different materials
such as plastic, metal, ceramic
and other. Distinguishes different
format CAD models. Presents
basis of reverse engineering and
data conversion. Recognizes the
technological equipment and
instrumentation for robotic
welding processes.Improves the
practical work in the position of
robotic welding equipped with a
type of IRB 2400 robot and
welding machinery. Developing a
program for a welding robot IRB
2400. Uses computer technology
to design advanced robotic
welding. Learns internet sources
of materials information.
Recognizes main software for
materials selection support and
properties evaluation. Realizes
information search. Learns basic
elements of materials selection
support software.
K_U08
Mode of delivery
at the university
Prerequisites
Knowledge of the basic issues of technology machinery, automatics and computer science.
Recommended
components
No recomendations
Subject contents
LECTURE Principles of method and techniques of rapid prototyping process and manufacturing. Data
formats used in rapid prototyping techniques, data conversion and errors of conversion. Programming Rapid IRB 2400 robot, linear motion welding head and welding parameters. Programming of welding
parameters for fillet welds and forced positions. Hardfacing of planes - the programming of non-linear
movement of welding head for welding MAG. LABORATORY EXERCISE Presentation of rapid prototyping
method. Model producing by stereolitography method, technological process preparation. The draft program
of welding construction. Testing program of robotic welding position.
Recommended
and required
reading
Required reading
1.
2.
3.
4.
5.
Grzesik W.: Programowanie obrabiarek NC/CNC. WNT, Warszawa, 2006.
Chlebus E.: Techniki komputerowe CAx. WNT, Warszawa, 2000.
Kosmol J., i in.: Automatyzacja obrabiarek i obróbki skrawaniem. WNT, Warszawa, 1999.
Dobaj E.: Maszyny i urządzenia spawalnicze. WNT. Warszawa. 1994.
Honczarenko, J.: Roboty przemysłowe: Budowa i zastosowanie, WNT. Warszawa, 2004
Recommeded reading
1. RAPID Reference Manual, instrukcja robota IRB2400, ABB Robotics Products AB
Lesson type and
method of
instruction
Lesson type
Number of study hours
Lecture
Tutorial
Laboratory
Project
Seminar
15.0
0.0
15.0
0.0
0.0
Total number of study hours per semester
included in study plan
30
e-learning hours included: 0.0
Assesment
methods and
criteria
Subject passing criteria
Passing threshold
Percentage of the
final grade
Practical exercise
60.0
50.0
Midterm colloquium
60.0
50.0
Example issues / example questions / tasks being completed
Language of
instructions
Data wydruku:
Polish
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Work placement
Data wydruku:
Not applicable
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