Computer Graphics

   Ministry of Education and Science of the Republic of Kazakhstan

Karaganda State Technical University

 

 

Confirmed by

Chairman of the Academic Council,

rector, RK NAS academician

Gazaliyev A.M.

_______________________

_________ ____  20___.

 

Syllabus

 

Module СG 35″Computer Graphics”

 

Course СG 3210″Computer Graphics”

 Major 5В071000 – Materials Science and Technology of New Materials

 

Mechanical engineering Institute

Department of Metallurgy, Materials Science and Nanotechnology

 

2012

Preface

 

Syllabus is worked out by:Cand. of Sc., Assoc. Prof. Kipnis L.S., Professor, tutor Malashkevichute E.I.

 

 

 

Discussed at the meeting of the department «Metallurgy, Materials Science and Nanotechnologies»

Minutes № _______ of ______________ «____» 20___

Head of department ________________    ___________«____» 20___

(signature)

 

 

 

Approved by the Educational Council of the Mechanical Engineering Institute

Minutes №  _______ of ______________   «____»    20___

Chairman ________________      ____________ «____»    20___

                                        (signature)

 

Tutor’s personal data and contact information

Cand. of Sc., Assoc. Prof. Kipnis L.S., tutor Malashkevichute E.I.

 

« Metallurgy, Materials Science and Nanotechnologies »chair is in the main building of KSTU, B. Mira, 56 room No. 313, contact phone 56-59-35 add. 1024

 

Course labour intensity

 

Term	Number of credits / ЕCTS	The type of classes					Number of hours of AL	Total number of lecture hours	Form of control
		number of contact hours			number of hours of OH	total number of hours
		lectures	practical classes	Lab.y classes
6	3	30	–	15	45	90	45	135	Examination

 

 

Course description

Course “Computer Graphics” is mandatory component of the SES-cycle of profile courses.

 

Course purpose

Course “Computer Graphics” sets as the purpose acquisition by students of the theoretical and methodological problems of computer graphics in the design and preparation of engineering products of their production, master the practical skills of working with modern software.

 

Course tasks

As a result of studying of this course:

student knows:

– principles of design automation of machinery parts and components;

– capabilities of modern computer graphics systems, basic image editing commands;

student is able:

–         to carry out drawings of the parts of machinery parts and components for automated design;

–         to acquire practical skills: in the design of documentation for the computer to work with databases;

-to use computer graphics in the design of technical objects.

 

Prerequisites

Studying of this course requires assimilation of the following courses (with the indication of sections (subjects)):

 

 

Postrequisites

The knowledge gained at studying of Course “Computer Graphics” is used at mastering following courses: applied mechanics, foundry equipment, CAD engineering, when the semester course projects and work on special subjects, as well as a capstone design.

 

Thematic plan of the course

 

List of Lab.y classes

1. Construction and design of sketches in two-dimensional space.

2. Dimensioning the drawing.

3. Study tolerances and tolerances of form and position of surfaces.

4. General principles of solid modeling.

5. Gluing and cutting additional massing details.

6. Construction of additional design elements.

7. Constructing arrays of elements in solid modeling.

8. Construction of space curves.

Thematic plan of office hours

OH theme	Objectives	Form classes	Contents of classes	Recommended literature
1	2	3	4	5
Theme 1.Study the medium of drawing of the system KOMPAS-3D (4hours)	Study the impact of drawing	interview	Examine sections of the manual system KOMPAS-3D	[3, 4]
Theme 2. Basic techniques for working in the system (4hours)	Dismantle the basic techniques of	interview	Answer the questions	[3, 4]
Theme 3. Geometric objects (7hours)	More knowledge on the subject	The graphical solution of tasks	Determine the indices of the planes	[3, 4]
Theme 4. Features of work with three-dimensional models (7hours)	Dismantle the basic techniques of	interview	Answer the questions	[3, 4]
Theme 5. Parametric properties model in the KOMPAS-3D (4hours)	More knowledge on the subject	interview	Answer the questions	[3, 4]
Theme 6. Parametric analytic properties of graphic objects in a system KOMPAS-3D (4hours)	More knowledge on the subject	interview	Answer the questions	[3, 4]
Theme 7. Building assemblies in the KOMPAS-3D (10 hours)	More knowledge on the subject	interview	Answer the questions	[3, 4]
Theme 8. Working with libraries KOMPAS-3D (5hours)	Dismantle the basic techniques of	interview	Answer the questions	[3, 4]

Subjects of control tasks for AL

1. Describe the life cycle of the product.

1. Describe the life cycle of the product.

2. Create an algorithm of design process.

3. Give an example of the principle of hierarchy in design.

4. Make methodical description of product design.

5. Interface of KOMPAS-3D.

6. Space drawing and modeling in KOMPAS-3D.

7. How to work with documents in the system KOMPAS-3D.

8. General information about the geometric objects in KOMPAS-3D.

9. Dimensioning and notation system in KOMPAS-3D.

10. General methods of editing objects in the system KOMPAS-3D.

11. General principles of modeling in KOMPAS-3D.

12. Interface features for working with three-dimensional models in the system KOMPAS-3D.

13. Variational and hierarchical parameterization of three-dimensional model in the KOMPAS-3D.

14. User library sketches KOMPAS-3D.

15. User library openings KOMPAS-3D.

16. Library models KOMPAS-3D.

 

Criteria of students’ knowledge assessment

The examination mark is determined by course as the sum of the maximum indexes of progress on midterm controls (to 60%) and to final attestation (examination) (to 40%) and makes value to 100% according to the table.

 

Grade «A» (excellent) is put in the case if student during a term showed perfect knowledge of all program questions of course, and also of subjects of independent work, regularly handed over midterm tasks, showed independence in studying of theoretical and applied questions according to the main program of studied course, and also on extra program questions.

Grade «A-» (excellent) stipulates perfect knowledge of basic laws and processes, concepts, ability to generalization of theoretical questions of course, regular handing of midterm tasks of classroom and independent work.

Grade  “B+” (good) is put in the case if student showed good and excellent knowledge of course questions, regularly handed over term tasks generally on “excellent” and some on “good”.

Grade “B” (good) is put in the case if student showed good knowledge of the questions opening the main maintenance of a concrete subject of course, and also subject of independent work, regularly handed over term tasks on “good” and “excellent”.

Grade “B-” (good) is put to a student in the case if he well is guided in theoretical and applied questions of course both on classroom, and on AL subjects, but irregularly handed over midterm tasks and had cases of a repeating an examination of term tasks on course.

Grade “C+” (satisfactory) is put to a student in the case he owns questions of conceptual character by all types of room classes and AL, can open the maintenance of separate modules of course, hands over on “good” and “satisfactory” term tasks.

Grade “C” (satisfactory) is put to a student in the case he owns questions of conceptual character by all types of room classes and AL, can open the maintenance of separate modules of course, hands over on “satisfactory” term tasks.

Grade “C-” (satisfactory) is put to a student in the case student during a term regularly handed over term tasks, but concerning room classes and AL owns only the general concepts and can explain only separate regularities and their understanding within a concrete subject.

Grade “D+” (satisfactory) is put to a student in the case he irregularly handed over term tasks concerning room classes and AL owns only the general concepts and can explain only separate regularities and their understanding within a concrete subject.

Grade “D-” (satisfactory) is put to a student in the case he irregularly handed over term tasks, concerning room classes and AL, owns the minimum volume of knowledge, and also allowed admissions of classes.

Grade “F” (unsatisfactorily) is put when student practically doesn’t own the minimum theoretical and practical material of room classes and AL on course, irregularly visits classes and doesn’t hand over in time term tasks

Midterm control is carried out on the 7, 14 weeks of study and it develops        proceeding from the following types of control:

 

Type of control	% th content	Academic training period, week															Total,%
		1	2	3	4	5	6	7	8	9	10	11	12	13	14	15
Attendance	1.0	*	*	*	*	*	*	*	*	*	*	*	*	*	*		14
Lecture notes	1.0	*	*	*	*	*	*	*	*	*	*	*	*	*	*		14
Written test	2	*	*	*	*	*	*	*	*	*	*	*	*	*	*		28
AL	1				*			*			*				*		4
Examintaion																	40
Total on attestation		4	4	5	4	4	4	5	4	4	5	4	4	4	5
Total								30							30		60
Attendance																	100

 

Policies and procedures

 

At the studying course “Computer Graphics” I ask to observe the following rules:

1. Not to be late for classes.

2. Not to skip classes without a good reason, in case of an illness I ask to provide the reference, in other cases – an explanatory note.

3. Duties of the student include visit of all types of occupations.

4. According to the schedule diagram of educational process to hand over all types of control.

5. To fulfill the passed practical and Lab.y researches in time specified by the teacher.

6. To fulfill the passed lecture classes (irrespective of the reason) in the form of the paper on the passed subject.

7. Actively to participate in educational process.

8. To be tolerant, open, frank and benevolent to fellow students and teachers.

 

Educational and methodical support of course

Author	Literature	Publishing house, year of the issue	Number of copies
			library	department
Main literature
Homonenko A.D.	Fundamentals of modern computer technologies: Textbook	SPb., 2001.	3	–
Simonovich S.V. Evseev G.A., Alexeyev A.G.	Special informatics: Textbook	M: AST-PRESS, 2001	2	–
CJSC ASKON.	KOMPAS-3D V7. User’s manual	Vol.I – 2004. CJSC ASKON.	–	10
Bolshakov V.P.	Engineering and computer graphics. Practicum.	SPb.: BHV-Petersburg, 2004	3	–
Polishyuk V.V.	AutoCAD 2000.	“Dialog – MIFI”, 2000-448p	4	–
Krasilnikova G.A., Samsonov V.V.	Automatization of engineering graphical works	SPb.: “piter”, 2001 – 255p.	2	–
Additional literature
Zalogova L.A.	Informatics: practise on computer graphics.	M.: Lab.y of Fundamental Knowledge, 2001.	5	–
Gorstko A.B., Kochkovskaya S.V.	Programming alphabet..	M.: Znaniye, 2000.	3	–
S.G. Suvorov, N.S. Suvorova	Drawing in mechanical engineering in the form of question-answer: Reference book – 2nd ed., revised and corrected	M.: Mechanical Engineering, 1992. – 368 p.	12	–

 

Schedule for the completion of tasks on course

 

Type of control	The purpose and contents of the task	Recommended Reading	The duration of the run	Form of control	Deadline
1	2	3	4	5	6
Lab. work № 1	The construction and design of the drawing in two-dimensional space	[3, 4, 9]	2 weeks	current	2nd Week
Report on AL	Techniques for working with documents. Creating, opening, saving, closing documents. Document Properties. Document templates.	[3, 4, 9]	2 weeks	current	2nd Week
Lab. work № 2	Dimensioning the drawing	[3, 4, 9]	2 weeks	current	4th Week
Report on AL	General information about the size of KOMPAS 3D. Methods of dimensioning. Teams prostanovki notation system KOMPAS 3D.	[3, 4, 9]	2 weeks	current	4th Week
Lab. work № 3	Performance tolerances and tolerances of form and arrangement of surfaces.	[3, 4, 9]	2 weeks	current	2nd Week
Report on AL	The admission form. formation table	[3, 4, 9]	2 weeks	current	2nd Week
Lab. work № 4	tolerance.	[3, 4, 9]	2 weeks	rubezh	7th week
Report on IWS	General principles of solid modeling	[3, 4, 9]	2 weeks	current	8th week
Lab. work № 5	Bonding and cut out-The knowledge of additional forming part features	[3, 4, 9]	2 weeks	current	10th Week
Report on AL	Library sketches KOMPAS 3D.	[3, 4, 9]	2 weeks	current	10th Week
Lab. work № 6	User library openings KOMPAS 3D.	[3, 4, 9]	2 weeks	current	12th Week
Report on AL	Construction of additional design elements	[3, 4, 6]	2 weeks	current	12th Week
Lab. work № 7	Library Models KOMPAS 3D. Features library models. Inserting models from the library to the document-assembly.	[3, 4, 9]	1 week	current	13th Week
Report on AL	Constructing arrays of elements in solid modeling	[3, 4, 9]	2 weeks	rubezh	14th week
Lab. work № 8	Exchange of information with other systems. Model parameterization.	[3, 4, 9]	2 weeks	current	15th week
Report on AL	Construction of space curves	[3, 4, 9]	1 week	current	15th week
Exam	General methods of editing model. Geometric calculator KOMPAS 3D.	All further reading, period. publication		Final	During examination period

 

Questions for self-checking

1. Techniques for working with documents. Creating, opening, saving, closing-ment documents. Document Properties. Document templates.

2. Wednesday drawing and modeling (document types. Which file extension is a document).

3. Units. Measurement units.

4. Notation. Coordinate system.

5. Cursor and management.

6. Ways to specify the parameters of objects.

7. Fixation and release of object parameters.

8. Activate the default objects.

9. Storing objects parameters.

10. Automatic and manual creation of objects.

11. Bind.

12. Global binding.

13. Local binding.

14. Key bindings. Key combination to turn on the bindings.

15. Use, development and management of the local coordinate system.

16. Using layers. Possible states of the layers. Create and switch between layers. Management layers.

17. Overview of geometric objects.

18. What are checkboxes points and styles for their execution?

19. Appointment of auxiliary lines. What are the ways to construct auxiliary lines?

20. Methods for constructing segments in KOMPAS 3D V7.

21. Ways to construct circles in KOMPAS 3D V7.

22. Ways to construct an ellipse in KOMPAS 3D V7.

23. Ways to build the arc in KOMPAS 3D V7.

24. Ways to construct polygons in KOMPAS 3D V7.

25. Use of “continuous commissioning of facilities.”

26. Shading and its application.

27. Composite objects. Circuit. Equidistant curve.

28. Bezier curve, closed and open curves. Editing the positions of the points.

29. Build tree when dealing with the part.

30. Creating a model file. Coordinate system plane.

31. Orientation of the model.

32. Selection and editing of objects in the tree construction.

33. Requirements for drawings element extrusion. Extrusion forming element (direction, depth, angle).

34. Sketch element rotation. Type, direction, angle of rotation.

35. Creating basic part.

36. Sketching base.

37. Kinematic element. Requirements to sketches kinematic element.

38. Create a sketch on the flat face of a part.

39. Bonding of additional items. Sketching gluing the elements of the extrusion, rotation, and kinematic elements.

40. Cutting elements. Create thumbnails for items cut extrusion, rotation, and kinematic elements.

41. Additional design elements (fillet, chamfer). Methods of construction chamfers and rounding.

42. Rib. Requirement to sketch ribs. Forming ribs.

43. Thin shells. Type of construction of the thin wall.

44. Team “bias.” Requirements for the construction of the slope.

45. Cutting off the part. Removing parts of the teams “cross the plane”, “section on the design.”

46. Arrays. Create an array using the “array on the grid.”

47. Create an array using the “geometric mass Siv.”

48. Create an array using the “array in concentric grid.”

49. Create an array using the “array along the curve.”

50. Mirror array. Ways to build a mirror array.