Ministry of Education and Science of Republic of Kazakhstan
Karaganda State Technical University
Confirmed by
Chairman of the Academic Council,
rector, RK NAS academician
Gazaliyev A.M.
_______________________
_________ ____, 20___.
Syllabus
Course SCI 3210 «Special course of informatics»
Module SСI 36 «Special course of informatics»
Major 5В071000 – «Materials Science and Technology of New Materials»
Mechanical Engineering Institute
Department of Metallurgy, Materials Science and Nanotechnologies
2012
Preface
Syllabus is worked out by cand. of Sc., professor Kipnis L.S., senior tutor Medvedeva I.E.
Discussed at the meeting of the department «MM and N»
Minutes № _______ of ______________ «____» _____________20___
Head of department ____________ Kulikov V.Yu. «____» _________20___
(signature)
Approved by the Educational Consul of the Institute of Mechanical Engineering
Minutes № _______ of ______________ «____» 20___
Chairman ________________ Sherov K.T. «____» __________20___
(signature)
Tutor’s personal data and contact information
Cand. of Sc., professor Kipnis L.S., senior tutor Medvedeva I.E.
«Metallurgy, Materials Science and Nanotechnology» 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 |
Type of classes |
Type of classes |
number of AL |
Total number of hours |
||||
Number of contact hours |
number of OH |
Total hours |
|||||||
lectures |
Practical classes |
Laboratory classes |
|||||||
6 |
3 |
15 |
30 |
– |
45 |
90 |
45 |
135 |
Examination |
Course purpose
Course «Special course of informatics» sets as the purpose to expand and deepen knowledge of students in the field of information technologies, formation of the main skills necessary further for active use of computer equipment in professional activity.
Course objectives
As a result of studying of this course:
student knows:
– structure and functions of metrological services;
– technical base of metrological provision of production;
– methods of ensuring unity and measurements accuracy;
– rules of metrological preparation and Implementation of testing works, processing and registrations of their results;
student is able:
– to analyze a condition of metrological provision of production;
– to support in metrological working order of measuring and controlling instruments;
– to develop methodologies of check of measuring instruments;
– to plan and carry out processes of measurements, tests and control;
– to process measurements results;
– to define metrological characteristics of measuring instruments;
– to count errors in actual practice the organizations of works on metrological tests and measuring instruments attestation.
Prerequisites
Studying of this course requires assimilation of the following courses (with the indication of sections (subjects)):
Course |
Name of sections (subjects) |
1 Informatics | Operating systems. |
Peripherals of computers. | |
2 Descriptive geometry and engineering graphics | Types, cuts, sections. |
Definition and control of the sizes. | |
Implementation of drawings of products. | |
3 Design and production of preparations | Design of castings |
Design of cast details | |
Procuring production |
Post requisites
The knowledge received at studying of course ” Special course of informatics “, is used at implementation of special sections of the degree project (work).
Thematic plan of course
Name of section (subject) |
Labour intensity on types of classes |
||||
lectures |
practical |
laboratory |
OH |
AL |
|
1. Basic principles of construction and CAD structure. Organization process of design of objects of equipment.
Purposes of creation and basic principles of creation of CAD. Objects of design in equipment. Main design stages. Approaches to process of design, model (description) of process of design. The generalized algorithm of the automated design. |
2 | 4 |
6 |
6 |
|
2. Structure and types of providing CAD. Methodical and organizational providing CAD. Main components (providing) CAD. Structural components of CAD, their interaction. Organizational structure of CAD. |
2 | 4 |
6 |
6 |
|
3. Technical and CAD software
Means of technical providing CAD, structure and organization schemes. The automated workplaces (automated workplace). Complexes of means of multilevel CAD, their structure and structure. CAD software. System, base and applied software. Specialized packages of applied programs. |
2 | 4 |
6 |
6 |
|
4. Mathematical, information and CAD lingware. Software structure. Mathematical models, methods and algorithms of design procedures. Types of mathematical models and methods of their receiving. Multiple analysis and optimization.
Structure and functions of information support of CAD, base and databanks. Software and database management systems. CAD lingware, design languages. |
2 |
6 |
6 |
||
5. Systems of computer graphics, their version, scope. Automation of registration of design documentation. Bases of submission of graphic data. Raster and vector graphics. Systems of two-dimensional and three-dimensional graphics, solid-state modeling: AutoCAD, T-FLEX, CATIA, COMPASS, Cimatron, SolidWorks, Autodesk Invertor, etc.
Object-oriented systems of computer graphics. Systems of reversive (return) engineering. |
2 | 4 |
6 |
6 |
|
6. CAD of technological processes and technological preparation of production.
Structure and maintenance of problems of technological design. Design methods on the basis of standard technological processes. Features of CAD Chamber of Commerce and Industry of individual, mass and mass production. Systems of the automated modeling, visualization and the analysis at design. |
3 | 6 |
9 |
9 |
|
7. Computer technologies in technical training and production management. Features of the automated design of equipment for mass and mass production. Libraries of standard and standard elements of equipment. Methods of the automated manufacturing of prototypes of products and equipment with application of technologies of fast prototyping (RP). |
2 | 2 |
6 |
6 |
|
TOTAL: |
15 | 30 | 45 | 45 |
List of laboratory classes
1. Drawing of contours of details in the environment of KOMPAS-3D V7 system.
2. Creation of projections.
3. Creation of the three-dimensional image.
4. Registration of drawings in mechanical engineering.
Theme of course projects (works)
To draw contours of details of knot assembled, to place standard products and to put the sizes, inscriptions, выноски, technical requirements:
- Hydrocylinder.
- Gate angular.
- Valve nutritious.
- Pneumocylinder.
- Crane of the spuskny.
- Valve safety.
- Emphasis cylinder.
- Pump.
- Gate angular.
- Chamber diafragmenny.
Thematic plan of office hours
OH theme |
Objectives |
Form classes |
Contents of classes |
Recommended literature |
Subject 1. Acquaintance to the environment of plotting of V10 KOMPAS-3D system | Studying of rules of creation of three-dimensional models, graphic and text documents | Work with the user’s guide | To answer the questions |
[8] |
Subject 2. Base working methods in system
|
Menu use, receptions of creation of objects. | Work with the user’s guide | To answer the questions |
[8] |
Subject 3. Geometrical objects of V10 KOMPAS-3D system | Creation of objects | Work with the user’s guide | To answer the questions |
[8]
|
Subject 4. Fixing sizes and designations in V10 KOMPAS-3D system | Receptions of a fixing of the sizes and designations | Interview | To answer the questions |
[8]
|
Subject 5. Editing of objects in V10 KOMPAS-3D system | Editing receptions: shift, copying transformation of objects, etc. | Interview | To answer the questions |
[8]
|
Subjects of control tasks for AL
- The engineering analysis with use of the COSMOS programs
- Engineering directory of APPIUS.
- Volume models in ADEM.
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 on alphabetic system |
Numerical equivalents |
Percentage |
Traditional system |
А А- |
4,0 3,67 |
95-100 90-94 |
Excellent |
В+ В В- |
3,33 3,0 2,67 |
85-89 80-84 75-79 |
Good |
С+ С С- D+ D- |
2,33 2,0 1,67 1,33 1,0 |
70-74 65-69 60-64 55-59 50-54 |
Satisfactory |
F |
0 |
0-49 |
Unsatisfactory |
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 |
Percentage |
Academic period of study, week |
Total, % |
||||||||||||||
1 |
2 |
3 |
4 |
5 |
6 |
7 |
8 |
9 |
10 |
11 |
12 |
13 |
14 |
15 |
|||
Attendance |
0,7 |
* |
* |
* |
* |
* |
* |
* |
* |
* |
* |
* |
* |
* |
* |
|
10,0 |
Lectures notes |
3,0 |
|
|
|
|
|
|
* |
|
|
|
|
|
|
* |
|
6,0 |
Test quiz |
5,0 |
|
|
|
|
|
|
* |
|
|
|
|
|
|
* |
|
10,0 |
AL |
1,0 |
* |
* |
* |
* |
* |
* |
* |
* |
* |
* |
* |
* |
* |
* |
|
14,0 |
Handing of course project | 20,0 |
|
|
|
|
|
|
|
|
|
|
|
|
|
* |
|
20,0 |
Examination |
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
40 |
Total on attestation |
|
|
|
|
|
|
|
30 |
|
|
|
|
|
|
30 |
|
60 |
Total |
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
100 |
Policies and procedures
When studying course «Information technologies in materials science» I ask to observe the following rules:
1 not to be late for classs.
2 not to skip classes without a good reason, in case of an illness I ask to present the reference, in other cases – an explanatory note.
3 duties of the student include visit of all types of classs.
4 According to the schedule diagram of educational process to hand over all types of control.
5 Passed laboratory researches to fulfill during time specified by the teacher.
Educational and methodical provision of course
Author |
Literature |
Publishing house, year of the issue |
Number of copies |
|
in library |
in library |
|||
1 |
2 |
3 |
4 |
5 |
Main literature |
||||
Норенков И.П.
|
Основы автоматизированного проектирования. Учебник. |
М.: Изд. МГТУ 2000. |
2 |
– |
Большаков В.П. | Инженерная и компьютерная графика. Практикум. | СПб.:БХВ- 2004 | 3 |
– |
Симонович С. В. | Информатика: Базовый курс. | Питер, 2003. | 3 |
– |
Хомоненко А.Д. | Основы современных компьютерных технологий: |
СПб., 2001. |
3 |
– |
Симонович С. В., Евсеев Г. А., Алексеев А. Г. | Специальная информатика: Учебное пособие. | М.:АСТПРЕСС, 2001. | 2 |
– |
Корячко В.П.,
Норенков И.П. |
Теоретические основы САПР. Учебник для ВУЗов. | М.:Высшая школа, 2007. | 10 |
– |
Под ред. Петрова А.В. | Разработка САПР: в 10 книгах.
|
М: Высшая школа, 2003. |
20 |
– |
Неуструев А.А., Моисеев В.С. | Автоматизированное проектирование технологических процессов литья. Учебное пособие | М.:МГАТУ, 2004 | 2 | – |
Глушков О. И.
|
Автоматизация проектирования прессформ | М.:Машиностроение, 2005. | 5 | – |
ЗАО АСКОН | КОМПАС-3D V7, Руководство пользователя, Том I. | ЗАО АСКОН 2004г. | – |
10 |
Additional literature |
||||
Курейчик В. М. | Математическое обеспечение САПР. | М.:Высшая школа, 2006. | 5 |
– |
Горстко А.Б.,
Кочковская С.В. |
Азбука программирования. | М.,Знание, 2000. | 3 |
– |
Залогова Л.А. | Информатика: практика по компьютерной графике. | М.: ЛБЗ, 2001. | 5 |
– |
Журнал «САПР и графика» | 2000-2005 | 1 |
– |
Schedule of performing and handing in assignments on course
Type of control |
Purpose and content of assignment |
Recommended literature |
Duration |
Form of control |
Handing term |
1 |
2 |
3 |
4 |
5 |
6 |
Report on AL |
To deepen knowledge of a subject | Periodicals |
2 weeks |
the current |
The 2nd week |
Report on AL |
To deepen knowledge of a subject |
Periodicals |
3 weeks |
the current |
The 5th week |
Practical class No. 1 |
To seize practical skills of drawing of contours of details. |
[8] |
3 weeks |
the current |
3-ая week |
Implementation term paper |
Drawing of contours of details of knot assembled.
Arrangement of standard products by means of system library the COMPASS |
[5, 8, 9,14] |
6 weeks |
the current |
The 6th week |
Report on AL |
To deepen knowledge of a subject |
[5, 8, 14] |
2 weeks |
rubezhny |
The 7th week |
Practical class №2
|
To seize practical skills of creation of projections. |
[8] |
3 weeks |
the current |
The 6th week |
Implementation of term paper |
Dimensioning, inscriptions, выносок, technical requirements.
Specification registration |
[5, 8, 9, 14] |
4 weeks |
the current |
10th week |
Report on AL |
To deepen knowledge of a subject
|
Periodicals |
3 weeks |
the current |
10th week |
Practical class No. 3 |
To seize practical skills of creation of the three-dimensional image. |
[5] |
4 weeks |
the current |
10th week |
Report on AL |
To deepen knowledge of a subject | Periodicals |
3 weeks |
the current |
12th week |
Practical class No. 4 |
To seize practical skills of registration of the drawing. |
[8] |
4 weeks |
the current |
14th week |
Report |
To deepen knowledge of the set subject | Periodicals |
During semester |
|
14th week |
Report on implementation term paper |
Implementation of all graphic part of a term paper and registration of the explanatory note |
[5, 8, 9, 14] |
4 weeks |
rubezhny |
14th week |
Defense of term paper |
Control of knowledge of a course | Whole list of the main and additional literature | 2 contact hours | the total | 15th week |
Questions for self-checking
1. What order are stages of life cycle of a product settled down?
2. Set of the interconnected and cooperating means necessary for functioning of CAD.
З. Program of computing means of CAD?
4. What are the objects of the design?
5. Intermediate or final descriptions of object of the design, necessary and sufficient for consideration and definition of the further direction or the completion of design?
6. The formalized set of the actions, implementation of which terminates the design decision.
7. What device does serve for preparation and data input in CAD?
8. What device does belong to means of displaying and documenting of results of CAD?
9. Tablet and rolled plotter difference.
10. What is the automated workplace of the designer?
11. What functions should components of information support of CAD provide?
12. Package mode of interaction of the user of CAD with the computer.
13. Software (on) CAD includes.
14. Applied software of CAD.
15. Rolled plotter allows building the image….
16. Tablet plotter allows building images….
17. Graphic interactive operating mode of the user of CAD means….
18. Specialized applied software includes ….
20. Main signs of technical systems are….
21. Computer system which is switching on territorially distributed system of computers and their terminals, united in uniform system – ….
22. What do AD/CAM systems realize?
23. Project of technical object represents….
24. Ascending design represents….
25. Iterative principle of design assumes….
26. Technical system represents…..
27. Orientation of process of design from the highest levels of specification to the lowest (from the general to the particular) are called …
28. Principle of decomposition of objects of design assumes implementation of the following steps….
29. What does engraving plotter itself represents?
30. Serving subsystems of CAD are intended for
31. Structural mathematical model of projected object describes ….
32. Technology of rapid prototyping (RP) are applied for….
33. Main advantages of technology of rapid prototyping are….
34. Technology of rapid prototyping is most effective…
35. Functional mathematical model of projected object describes ….
36. Base all-system software of CAD includes ….
37. Computer, and also the peripheral equipment, united by one or several independent high-speed data links within one or several nearby buildings is …
38. Computer network includes components: …
41. Information support of CAD consists of
42. Archival file represents ….
45. Systems of the automated modeling of process of formation of casting allow ….
46. As the term “engineering” is it understood:
47. Components – providing CAD are (specify missed): mathematical, methodical, linguistic, information, program, organizational
48. Life cycle of a product (specify missed) consists of what stages: research, planning, production, operation.
49. Life cycle of objects of equipment (specify missed) consists of what stages: planning, research, design, operation.
50. Specify the correct order of stages of process of design of technical objects:
State pub. lic. No. 50 of 31.03.2004 Passed for printing
Format 60х90/16
Printers sheets sh. Number of copies cop. Order Contract price
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