Innovative Projects


Innovative Projects Department “Technology of mechanical engineering,” and their commercialization

In 2014, the Ministry of Industry and Trade of the lots have been submitted to participate in innovative research projects. The commercialization of these projects will be implemented jointly with the Ministry, the University of Belarusian enterprises and Karaganda




direction: “Nanotechnology and New Materials»
Lot 3, “Development of technologies for nano-carbon materials»
Topic: “The development of nanotechnology modification of the working surface of the friction units based on the carbon and nitrogen, providing corrosion and wear»
Researches (task) Expected
results (figures)
gathering baseline data. Materials
Terms of Reference
1. Analysis of the main methods for nanomaterials and friction characteristics
nanofilms / coatings;

Two. Development of technology for carbon-nitrogen nanofilms / nano with special properties (hardness, corrosion and wear resistance)

Three. Development of technical specifications

1. The influence of residual stresses in the coatings and base metal,
porosity, microhardness

Two. The technological process of production

Three. Terms of Reference.

1. Holding
experimental studies of the unique mechanical properties
carbon-nitrogen nanofilms / nano-friction in different media

2 Definition
Coefficient of friction on load and nitrogen content
nanofilms / nano-friction in different media

1. The influence of bond strength of chromium plating the base metal, hydroabrasive wear, corrosion resistance

Two. Coefficient of friction on load and nitrogen content
nanofilms / nano-friction in different environments.

1. Development
recommendations on the choice of applying different carbon-nitrogen
nanofilms / working surfaces on the nano gidroobrudovaniya in
Depending on the environment of friction

Two. Development of recommendations for improving efficiency, durability, strength, hydraulic

Three. Implementation of Final Report

1. The results of the tests.

Two. Implementation of recommendations to improve efficiency, durability, strength
hydraulic

Three. Final Report


Commercialization: In conjunction with
Ministry of Industry and New Technologies




direction: “Nanotechnology and New Materials»
Lot 6, “Creating
nanostructured materials using advanced plasma
Technology »
Topic: “The study of nanostructured materials in a state of physical processes, electro treatment»
Researches (task) Expected
results (figures)
gathering baseline data. Materials
Terms of Reference
1. The mathematical formulation of the problem

2.Vybor numerical
methods for solving

Three. Development
Terms of Reference

1. Unified system describe the characteristics of the elements of technological
process on the basis of their binding to the coordinate directions, as well as
based on the independence of types and kinds of parts from the elements

Two. The technological process of production

Three. Terms of Reference.

1. Development of the algorithm

Two. Record programs on the Algorithmic Language

Mathematical modeling of preparation of treatment plans based on the
Process
1. Coding of reference data

Two. Evaluation of reliability and conduct tests

Three. Implementation of the outcome
Report

1. The results of the tests.

Two. A. A mathematical model of the search databases and database compilation set

Three. Final Report


Commercialization: In cooperation with the Ministry of Industry and New Technologies




direction: “Nanotechnology and New Materials»
Lot 7, “Development of technologies
nanomaterials used in various sectors of the economy »
Topic: “Making metal nanocomposites with the effect of cavitation»
Researches (task) Expected
results (figures)
gathering baseline data. Materials
Terms of Reference
1. Study
patterns of physical processes

Two. Identification of quality parameters of the nanostructured state

Three. Development of technical specifications

1. The influence of residual stresses in the coatings and base metal,
porosity, microhardness

Two. The technological process of production

Three. Terms of Reference.

1. Development and
the use of composite materials of the artificial
combination of heterogeneous material properties

2 Definition of dependencies

1. Development of aluminum alloy matrix and the reinforcement of refractory elements such as silicon carbide, aluminum oxide

Two.
Dependencies

1. Creating a cast
Alloys of the components

Two. Implementation of Final Report

1. The results of the tests.

Two. Alloys (Al-Al 2 O 3 , Al – SiC, etc.) in
cavitation effects on the two-phase medium consisting of molten Al and particulate Al 2 O 3
or SiC

Three. Final Report


Commercialization: In cooperation with the Ministry of Industry and New Technologies




direction: “Nanotechnology and New Materials»
Lot 10, “Development of technology
preparation of nanostructured coatings and »
Topic: “Development of technology for coating of metals and alloys by surface modification of materials with various reagents to the regulation of the emerging nanostructures»
Researches (task) Expected
results (figures)
gathering baseline data. materials specification
1. Investigation of the effect
the main parameters of the process of chemical-thermal treatment on the structure
the diffusion zone;

Two. Determination of
saturating the media for the process

Three. Development
Terms of Reference

1. Kinetics of the distribution of elements over the depth
reinforcement layer

Two. Recommendations on the optimum composition of the saturating media

Three. Terms of Reference.

1. Investigation of the effect
structure-sensitive properties of a metal by an amount
distribution of the diffusion zone

Two. Development
nondestructive method of measuring the thickness of the diffusion layer

Three. Investigation of the effect of process parameters of chemical-thermal treatment on
formation of structures

1. Impact
structure-sensitive properties of a metal by an amount
distribution of the diffusion zone

Two. Method
assess the quality of the surface layer (cover)

Three. Regularities of formation of structure in order to obtain desired properties

11. Study
mechanism of formation of structure and properties of the diffusion layer

Two. Development
theoretical foundations of the process of chemical-thermal surface hardening

Three. Development of recommendations

4. Implementation of Final Report

1. Theoretical Foundations
formation of diffusion zone in the chemical and thermal treatment

Two. Methods of assessment
surface quality of products after the chemical-thermal treatment

Three. Implementation of recommendations

4. Final Report


Commercialization: In cooperation with the Ministry of Industry and New Technologies




direction: “Nanotechnology and New Materials»
Lot 11, “Development of technologies
nanomaterials with specific properties »
Topic: “Development of
nanostructured materials based on carbon and nitrogen
provide high strength, wear, lubrication management
ability of oils / emulsions »
Researches (task) Expected
results (figures)
gathering baseline data. Materials
Terms of Reference
1. Analysis
basic methods for nanomaterials and friction characteristics
nanofilms / coatings;

Two. Development of technology
obtain a carbon-nitrogen nanofilms / nano with special properties
(Strength, hardness, wear resistance, thermal stability)

Three. Development of technical specifications

1. The influence of residual stresses in the coatings and base metal,
strength, porosity, microhardness, wear resistance

Two. The technological process of production

Three. Terms of Reference.

1. Holding
experimental studies of the unique mechanical properties
carbon-nitrogen nanofilms / nano-friction in different media

2 Definition
Coefficient of friction on load and nitrogen content
nanofilms / nano-friction in different media

1. Impact
strength of nanofilms / nano with the base metal, the stability
nanofilms / nano to hydroabrasive wear

Two. Coefficient of friction on load and nitrogen content
nanofilms / nano-friction in different environments.

1. Development of recommendations on the choice of applying different carbon-nitrogen
nanofilms / working surfaces on the nano gidroobrudovaniya in
Depending on the environment of friction

Two. Development of recommendations for improving efficiency, durability, strength, hydraulic

1. The results of the tests.

Two. Implementation of recommendations to improve efficiency, durability, strength
hydraulic

test developed
Technologies and materials received
test results
1. Experimental batches of anti-friction nanostructured carbon materials with high mechanical strength, resistance to high temperatures and mechanical wear

Two. Implementation of Final Report

1. Samples of nanostructured carbon materials

Two. Final Report


Commercialization: In cooperation with the Ministry of Industry and New Technologies




direction: “Technologies for hydrocarbon and mining sectors»
Lot 26 “The new technology of metals, alloys and other materials»
Topic: “Technology hardening equipment of mining and metallurgical sector, the application of composite materials nanosrukturirovannyh»
Researches (task) Expected
results (figures)
gathering baseline data. materials specification
1. Definition
mechanical properties of chromium electroplating and pyrolytic
karbidohromovogo cover

Two. Definition
performance

3. Development of technical specifications

1. The influence of residual stresses in the coatings and base metal,
porosity, microhardness

Two. The influence of bond strength of chrome plating with the main
metal hydroabrasive wear, corrosion resistance

Three. Terms of Reference.

1. Improvement
production process of the cylinder and piston rod

Two.
Improving the design of thermal vacuum metering systems for
deposition of pyrolytic coatings karbidohromovogo to solve the problem
control of coating thickness

1.
The technological process of production

Two. Batcher
thermal vacuum systems for deposition of pyrolytic karbidohromovogo
cover.

1. Experimental studies of the characteristics of pyrolytic coatings karbidohromovogo

Two. Development of recommendations for improving efficiency, durability, strength, hydraulic

Three. Implementation of Final Report

1. The results of the tests.

Two. Implementation of recommendations to improve efficiency, durability, strength
hydraulic

Three. Final Report


Commercialization: In cooperation with the Belarusian National Technological University



direction: “Information and Space Technology»
Lot 55, “Development of scientific and methodological basis of introduction of modern information and innovative technologies in the educational system»
Topic: “Development of scientific and methodological foundations of NPS-introduction of technologies for assessing the quality of educational services»
Researches (task) Expected
results (figures)
gathering baseline data. Materials
Terms of Reference
1. The purpose and objectives.
Target groups, including the main beneficiaries

Two. Current situation and
issues. Possible solutions to the problem. Analysis of the demand. Types
services to be provided by the project

1. Project Summary

Two. The marketing section of

Match RK educational programs with international standards. Analysis of different
technological solutions of the project. Analysis of the project on
stages. Technological risks.
Technical and Technological Section
financial analysis of the project. Analysis of future income and expenses. Financing needs. Analysis of the scheme, sources of financing conditions and their alternatives. Financial risks. Finance and Economic Section
1. Development of the Concept of innovative development of higher and postgraduate education in the context of integration into the world educational space

Two. Creation of scientific methods of functioning of higher and postgraduate education

1. The concept of innovation development of higher and postgraduate education in the context of integration into the world educational space

Two. Scientific-methodical system of higher functioning and post-high school education

1. Changes to the legislation of RK, requirements for project

Two. Development of content and methodological support to the functioning of higher and
postgraduate education.

Three. Implementation of Final Report

1. The basic regulations

Two. Methodical maintenance of higher and postgraduate education

Three. Final Report


Commercialization: In cooperation with the Ministry of Industry and New Technologies



direction: “Information and Space Technology»
Lot 57 “The development of information and
space-based technologies of physical and mathematical theories and methods
complex information and mechanical systems »
Subject: “Mathematical
model of computer-aided design of production
processes for space applications (design and development of small
satellites) »
Researches (task) Expected
results (figures)
gathering baseline data. materials specification
1. The preparatory phase

Two. The mathematical formulation of the problem

Three. The choice of numerical methods for solving

Unified description of the characteristics of the elements of the process on the basis of their binding to the coordinate directions, as well as on
independence of the types and kinds of parts from the elements
1. Development of the algorithm

Two. Record
programs on the Algorithmic Language

Mathematical modeling of preparation of treatment plans based on the process
1. Coding of reference data

Two. Evaluation of reliability and conduct tests

Three. Implementation of Final Report

1. The results of the tests.

Two. A mathematical model of the search databases and database compilation set

Three. Final Report


Commercialization: In cooperation with the Ministry of Industry and New Technologies

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