Prerequisites: "Mathematics" , "Physics" , "Chemistry" .
The purpose of the study: The development of basic technological methods of preparation of raw materials to the metallurgical processing .
Summary: The equipment for drying and crushing of ores and concentrates for metallurgical repartition. The technology of drying, grinding and briquetting ores and concentrates .
Expected outcome: After mastering the discipline the student must
know: the technology of the processes of crushing , grinding , drying , granulation and briquetting of polymetallic raw materials .
be able to: use of raw materials preparation work skills to the metallurgical solutions to contemporary issues polimettalicheskogo processing raw materials
Postrekvizity: "metallurgical process technology", "Processes and devices in the non-ferrous metallurgy", "Processes and devices in the steel industry".
2. VvS 1205 Introduction to speciality (3 credits)
Пререквизиты: "Mathematics", "Physics", "Chemistry", "Ecology and steady development".
Aim of study : preparation of students to intelligent approach at to the study of disciplines on the chosen speciality and acquaintance with the basic methods of educating.
Short maintenance: Basic terminology in area of metallurgy (enriching, extractive metallurgy, pig metallurgy, equipment of enterprises and laboratories). Bases of technology and basic equipment applied by metallurgical enterprises. Preparation of ore raw material to the metallurgical redistributions. Basic technological redistributions at a receipt and processing of black and coloured metals. Modern state of metallurgical industry in Kazakhstan and in the developed countries of the world. Organization and state of research and project work for metallurgies in Kazakhstan, role of home scientists and specialists in development of metallurgy. Acquaintance with basic educational, monografiicheskimi and magazines on speciality. Prospects of development of extractive and pig metallurgy. Economic validity of expansion and creation of productions. Ecological problems of metallurgical production and direction of their permission. Concepts about secondary metallurgical raw material.
Expected results: ability to conduct the comparative analysis of existent low-waste and ecologically clean technologies of the complex processing of polymetallic raw material; to apply the methods of estimation of environmental and economic efficiency of the developed technologies; to conduct the calculation of ecological balance.
Essential Post-elements: "Acquainting practice", "Theory of metallurgical processes", "Theory and practice of division and affinage of metals".
Academic degree: (for bachelors)
___2_____
(year)
№
|
Name of the module
|
Cycle of discipline
|
Code of discipline
|
Name of discipline
|
Amount of credits
|
Semester
|
1
|
Professionally - oriented language
|
BD 2.2.7
|
P-OIYa
2205
|
Professionally -oriented foreign language
|
2
|
3
|
2
|
Theoretical foundations of the specialty
|
BD 2.2.16
|
ТМР 2206
|
Theory of metallurgical processes
|
3
|
4
|
3
|
Theoretical foundations of the specialty
|
БД 2.2.15
|
MiS 2215
|
Metals and their compounds
|
3
|
4
|
4
|
Theoretical foundations of the specialty
|
БД 2.2.15.1
|
SCChM 2215.1
|
The alloys of ferrous and non- ferrous metals
|
3
|
4
|
5
|
Theoretical foundations of the specialty
|
BD 2.2.13.2
|
ORMK 2213.2
|
Features of the development of metallurgy in Kazakhstan
|
3
|
4
|
6
|
Theoretical foundations of the specialty
|
BD 2.2.13.3
|
O PSM 2213.3
|
Basics of special materials
|
3
|
4
|
1. P - oIYa 2205 the Professionally-oriented foreign language (2 credits)
Prerequisites: the "Foreign language", "Physical chemistry".
Aim of study : study of subject domain of speciality and professional terminology in English language.
Short maintenance: Introduction to metallurgy. Metals, their classification and properties. Metallurgical raw material. Metals, their classification and properties : chemical, physical, electric and mechanical. Periodic system. Acquaintance with bases of ore-dressing. Fuel and refractoriess. Acquaintance with bases of extraction of metals : thermodynamics and kinetic bases. Basic methods of extraction of metals : PART 1 is Pyrometallurgy. Burning and his varieties. Melting and her varieties. Matte and slag. Basic methods of extraction of metals : PART 2 is Hydrometallurgy. Bases of processes of lixiviating. Acquaintance with flowsheets and interactive calculations of diagrams of Пурбэ. Processes of lixiviating. Electrometallurgy. Processes of electrolysis. Extraction of metals from oxide ores: extraction of Al. Extraction of metals from sulfide ores. Pyrometallurgical and hydrometallurgical extraction of Cu. Flowsheets of receipt of Pb and Zn. Radioactive metals.
Expected results: capture by students by in-language material; by a professional technical terminological minimum; acquaintance with theoretical and practical bases of metallurgical processes and technologies; capture by ability to understand and analyse scientific texts and publications; capture by a modern metallurgical slang and capacity for communication with native speakers on speciality.
Essential Post-elements: "Features of development of metallurgy in Kazakhstan", " Thermal Engineering of metallurgical processes".
2. ТМР 2206 Theory of metallurgical processes (3 credits)
Prerequisites: Physics, Chemistry, Physical chemistry.
Aim of study : Receipt of knowledge about a structure and properties of the metallic, oxide and sulfide systems; about basic conformities to law of thermodynamics, mechanism and kinetics of basic metallurgical processes - a liquation, distillation, redox processes, processes of processing of sulfide raw material; exchange of and oxidizing lixiviating of connections of different composition, excretions were thrown by a catch from solutions besieging of sparingly connections, cementation, persorption, about basic directions of development of theory and practice of extraction and affinage of metals taking into account the complex use of raw material and modern ecological requirements; skills of implementation of calculations on thermodynamics and kinetics of metallurgical processes.
Short maintenance: Theory of liquation methods of affinage of metals, processes of evaporation, sublimation, condensation and sublimation, property of oxide and sulfide fusions, thermodynamics and kinetics of processes of oxidization of metals, carbon and renewal of oxides, physical and chemical bases of processing of sulfides. Thermodynamics and kinetics of processes of lixiviating, extraction and persorption.
Expected results: ability to analyse operating and designed processes; to ground the choice of processes; to forecast the indexes of one or another certain processes; to estimate speeds of the separate stages of metallurgical processes, expose the limiting speed links of simple and difficult processes;
Essential Post-elements of discipline : Technological disciplines on metallurgy.
3. MiS 2215 Metals and Connection- 3 credits
Prerequisites: "Physics", "Chemistry", "Physical Chemistry".
The purpose of the study: The development of the theoretical foundations of the processes , pyro and hydrometallurgy .
Summary: In the discipline studied the physical and chemical properties of metals and their compounds and alloys, their ore deposits, the spread in nature. The main methods of obtaining and use of metals and their compounds and alloys in science and technology.
Expected outcome: After mastering the discipline the student must
know: the physical and chemical properties of metals and their compounds and alloys , their ore deposits , the spread in nature , the main methods of obtaining and use of metals and their compounds and alloys in science and technology .
be able to: carry out technological calculations based on the theoretical knowledge on the physical and chemical processes , thermodynamics , kinetics of processes occurring water , solid and molten media.
Postrekvizity: "General Metals ", "Metallurgy of heavy non-ferrous metals".
4. SCChM 2215.1 Non-ferrous and ferrous metals -3 credits
Prerequisites: "Physics" , "Chemistry" , "Physical Chemistry" .
The purpose of the study: The study of the basic processes of melting alloys of non-ferrous and ferrous metals .
Summary: The basic processes of melting alloys of non-ferrous and ferrous metals involves questions of theoretical , technological and constructive nature of traditional and new processes of metallurgy . The acquisition of competence in the analysis of metal production technology, the development of technological schemes and designs of metallurgical equipment and conduct technological calculations.
Expected outcome: After mastering the discipline the student must
know: technology alloys non-ferrous and ferrous metals .
be able to: work with modern equipment , manufacturing alloys, ferrous and non- ferrous metals .
Postrekvizity: "General Metals", "Processes and devices in the iron and steel industry", "Processes and devices of non-ferrous metals".
5. FDMK 2213.2 Features of development of metallurgy in Kazakhstan (3 credits)
Prerequisites: "Informatics", "Mathematics", "Physics", "Chemistry", "Ecology and steady development".
Aim of study : acquisition by the students of knowledge about ores, minerals, deposits of mineral raw material, basic processes of metallurgical redistributions, technologies of receipt of base metals, features of ore raw material and technologies of their processing on the plants of РК.
Short maintenance: Development of theory and practice of metallurgy. Development of metallurgy is in Kazakhstan. Metallic state. Physical and chemical properties of metals and alloys. Classification of metals. General description of raw material materials. Ores and minerals. General fundamental chart of the metallurgical processing. Basic methods of enriching. Basic processes of the metallurgical processing. Technologies of production of the heavy coloured metals. Pyrometallurgical processes. hydrometallurgical processes. Types of melting. Receipt of copper. Metallurgy of lead. Metallurgy of zinc. Receipt of aluminium. Receipt of uranium. Receipt of cast-iron and steel. Maximum metallurgy.
Expected results: ability to estimate features of the technologies used in Kazakhstan; abilities to work with the special literature; implementations of stoichiometrical calculations.
Essential Post-elements: "Technology of composition materials", "Powder-like and composition materials", "Pyrometallurgy", "Technology of metallurgical processes", "Theory and practice of division and affinage of metals".
6. OРSM 2213.3 Bases of receipt of the special materials (3 credit)
Prerequisites: "Mathematics", "Physics", "Chemistry", "Theory of metallurgical processes".
Aim of study : forming for the students of the systematized knowledge and technological methods of receipt of the special materials the method of powder-like metallurgy.
Short maintenance: the Mechanical and physical and chemical methods of receipt of metallic powders : growing shallow in mills, cutting, methods of receipt of powders renewal, receipt of refractory powder-like connections, receipt of powders of metals by an electrolysis. Properties of metallic powders and their study. Formavanie and pressing of metallic powder-like materials. Methods of sintering of powder-like materials. Powder-like materials and their setting : electrical engineering, construction, high temperature, hard and superhard materials. Bases of receipt of composition materials. Advantages of powder-like and composition materials.
Expected results: As a result of study of discipline students must know basic conformities to law of technological processes of receipt of the special materials; oriented in the methods of receipt of the special materials, understand the features of apparatus registration of processes to produce the reasonable engineering calculation of methods of receipt of composition materials.
Essential Post-elements: Technology of composition materials, Powder-like metallurgy, Productions of powder-like and composition metals.
Academic degree: (for bachelors) :
___3_____
(year)
№
|
Name of the module
|
Cycle of discipline
|
Code of discipline
|
Name of discipline
|
Amount of credits
|
Semester
|
1
|
Module metallurgical production technologies
|
БД
3.2.14
|
OM 3214
|
General Metals
|
3
|
5
|
2
|
Module metallurgical production technologies
|
БД
3.2.14.1
|
OKPPS 3214.1
|
Fundamentals of complex processing of polymetallic raw materials
|
3
|
5
|
3
|
Technology of steel production
|
BD 3.2.19.3
|
GTMВ
|
Giotechnology in metallurgy
|
3
|
5
|
4
|
Technology of steel production
|
BD 3.2.19.4
|
ERTN
|
Ecologically
compatible technologies in metal production
|
3
|
5
|
5
|
Module metallurgical production technologies
|
БД
3.2.15
|
PSMP 3215
|
Preparation of raw materials for metallurgical
|
3
|
5
|
6
|
Module metallurgical production technologies
|
БД
3.2.15.1
|
SSPRM 3215.1
|
Current state and prospects of development of metallurgy
|
3
|
5
|
7
|
Technology of steel production
|
BD 3.2.18.3
|
GіdM
|
Hydrometallurgy
|
3
|
5
|
8
|
Technology of steel production
|
BD 3.2.18.4
|
TPM
|
Coatings on metals technology
|
3
|
5
|
9
|
Module metallurgical production technologies
|
БД
3.2.16
|
PMChM
3216
|
Processes ferrous metallurgy
|
3
|
5
|
10
|
Module metallurgical production technologies
|
БД
3.2.16.1
|
OFP
3216.1
|
Fundamentals of ferroalloy production
|
3
|
5
|
11
|
Certification module , management and operation of vehicles
|
BD 3.2.20.3
|
ІSM
|
The measurement and certification in metallurgy
|
3
|
5
|
12
|
Certification module , management and operation of vehicles
|
BD 3.2.20.4
|
CRMMP
|
Control , and management of metallurgical regulirovanie protsessami
|
3
|
5
|
13
|
Module of special materials and research
|
BD 3.2.21.3
|
ОРЕ
|
Organization and planning of the experiment
|
3
|
6
|
14
|
Module of special materials and research
|
BD 3.2.18.1
|
TWER
|
Technique of experimental work
|
3
|
5
|
15
|
Module of special materials and research
|
БД
3.2.18.2
|
ONIM
3218.2
|
Basic research in metallurgy
|
3
|
5
|
16
|
Module of special materials and research
|
БД
3.2.18.3
|
VTM
3218.3
|
Nanotehnology in metallurgy
|
3
|
5
|
17
|
Technology of steel production
|
PD3.3.1
|
ТерМР
|
Heat power metallurgical processes
|
3
|
5
|
18
|
Module metallurgical production technologies
|
ПД
3.3.3
|
MLM
3303
|
Metallurgy of light metals
|
3
|
6
|
19
|
Module metallurgical production technologies
|
ПД
3.3.3.1
|
MTCM
3303.1
|
Metallurgiya heavy non-ferrous metals
|
3
|
6
|
20
|
Technology of steel production
|
PD 3.3.6.3
|
PyrM
|
Pyrometallurgy
|
4
|
6
|
21
|
Technology of steel production
|
PD 3.3.5.4
|
ТКМ
|
Technology of Composite Materials
|
4
|
6
|
22
|
Module metallurgical production technologies
|
ПД 3.3.4
|
MLM
3304
|
Metals Rare Metals
|
3
|
6
|
23
|
Module metallurgical production technologies
|
ПД 3.3.4.1
|
MRSM
3304.1
|
Metallurgy radioactive and accompanying metals
|
3
|
6
|
24
|
Module metallurgical production technologies
|
ПД 3.3.4.2
|
EMCM 3304.2
|
Electrometallurgy non-ferrous metals
|
3
|
6
|
25
|
Certification module, management and operation of vehicles
|
ПД 3.3.5
|
PAMChM 3305
|
Processes and devices in ferrous metallurgy
|
3
|
6
|
26
|
Certification module, management and operation of vehicles
|
ПД 3.3.5.1
|
PAMCM 3305.1
|
Processes and devices in the non-ferrous metallurgy
|
3
|
6
|
27
|
Certification module, management and operation of vehicles
|
PD 4.3.9.3
|
РАТР
|
Hardware equipment of hydrometallurgical processes
|
4
|
7
|
28
|
Certification module , management and operation of vehicles
|
PD 3.3.5.3
|
MP
|
Metallurgical furnace
|
3
|
6
|
29
|
Module of special materials and research
|
PD 3.3.6.4
|
PМ
|
Powder metallurgy
|
4
|
6
|
30
|
Module of special materials and research
|
PD 4.3.9.4
|
РАРМ
|
Processes and devices of powder metallurgy
|
4
|
7
|
31
|
Module of special materials and research
|
PD 4.3.7.4
|
СРМ
|
Production of powder and composite materials
|
3
|
7
|
32
|
Module R & D , design and simulation
|
PD 3.3.4.3
|
PCMI
|
Physico - chemical studies of metallurgical processes
|
4
|
6
|
33
|
Module R & D , design and simulation
|
PD3.3.4.4
|
CDM
|
Corrosion and Protection of Metals
|
4
|
6
|
1. OM 3214 General Metals - 3 credits
Достарыңызбен бөлісу: |