Telecom-STV Co. Ltd.

                Record Control Number : 49161
                Quality Validation Date : 1999-06-01
                Update Date : 1999-06-01
                Name : Telecom-STV Co. Ltd.
                City : Moscow
                Country : RUSSIAN FEDERATION
                Type : Consultancy, Research, Industry
                Subject Details : Basing own developments Telecom-STV produces installation for 
                technology control, readmode product parameter testing and 
                installation for solar cell manufacturing:1. Microwave relaxometers 
                - the apparatus for nondestructive quantitative proximate 
                measurement of nonequilibrium charge carrier lifetime in 
                semiconductors.2. The apparatus for measuring solar cell principal 
                photovoltaic parameters.


                Collaboration
                  Title : The novel method of testing semiconductor materials in order to 
                determination the type and concentration of defects with deep 
                energy levels within forbidden gap
                  Type Details : The goal of the project is to developed the method and apparatus 
                for measurements recombination characteristics of semiconductor 
                associated with defects having deep energy levels within forbidden 
                gap in order to estimate such contamination.2.11. 
                  Keywords: Semiconductor; Contamination; Defect testing; Deep levels; 
                Photoconductivity; Microwave; 
                2.12. Partners skills and competencies Expertise is required. 
                The description of this method 
                as well as theoretical backgrounds based on known recombination 
                rate equations is not and has never been prepared for publication 
                in magasins and patents.
                  Programme : IST
                  Validity Date : 1999-12-31


                Target Partner
                  Country : Any Country


                Contact Person
                  Name : BEREZIN, Andrew
                  Organisation : Telecom-STV Co. Ltd.
                  City : Moscow
                  Country : RUSSIAN FEDERATION
                  Telephone : 70955353322
                  Electronic Mail : anber@iopsys.ru


                
    
Russian Federal Nuclear Center - All-Russian Scientific Research 
                Institute of Experimental Physics



                Record Control Number : 49152
                Quality Validation Date : 1999-06-01
                Update Date : 1999-06-01
                Name : Russian Federal Nuclear Center - All-Russian Scientific Research 
                Institute of Experimental Physics
                City : Sarov
                Country : RUSSIAN FEDERATION
                Type : Research
                Number of Employees : > 500
                Subject Index Codes : Electronics, Microelectronics, Materials Technology, Scientific 
                Research, Other Technology
                Subject Details : Technology for polymer materials (foam plastics, composites, glues, 
                compounds) ;
                Welding technology (electron-ray, laser, ultrasonic, contact, pulse,
                 argon-arc, diffusional) ;
                Powder metallurgy;
                Pulse methods for metal treatment (explosive stamping, explosive 
                welding, electrohydropulse
                welding) ; 
                Technology for protective coatings (plasma, flame, electron ray 
                spraying, magnetron sputtering,
                varnish-and-paint coatings, galvanic coatings, galvanoplastics) ;
                Nondestructive material control;
                Metallographic investigations of metals, materials.


                Collaboration
                  Title : Development of Environmentally Conscious Resource-Saving Technology 
                for Welding Mounting of Electron Components on Printed Circuit 
                Boards with Simultaneous Nondestructive Joint Quality Control
                  Type Details : Objectives
                The goal of the proposed Project is the following: 
                Development of environmentally conscious technology for welding 
                electron component mounting
                on printed circuit boards; 
                Development of technology for nondestructive quality control of 
                welded joints on printed circuit
                boards directly in mounting.
                The basis of this Project is concept for development of mounting 
                technology for radioelectron
                apparatus free of using toxical lead-containing soldering pastes 
                and solders, active fluxes, and
                also chloro-fluoro-hydrocarbons, using for washing of radioelectron 
                apparatus after soldered
                mounting. The proposed technology provides for non-pollution of man 
                habitat, high reliability for
                joints in radioelectron apparatus as comparaed to conventional 
                soldering methods. Welding
                mounting technology will allow to provide serviceability of 
                radioelectron apparatus in a wide
                range of mechanical and climate conditions (autoelectronics, 
                aviation- and ship- radioelectron
                apparatus, mobile radiocommunication, modern household appliances 
                and others)  .
                  Programme : IST
                  Validity Date : 1999-12-31


                Target Partner
                  Country : Any Country


                Contact Person
                  Name : CHUDINOV, Sergey (Mr)
                  Position : Project manager
                  Organisation : Russian Federal Nuclear Center - All-Russian Scientific Research 
                Institute of Experimental Physics
                  Department : Technological Department
                  Address : 37 Mir Ave., Sarov, Nizhni Novgorod Region, Russia
                  City : Sarov
                  Country : RUSSIAN FEDERATION
                  PostCode : 607190
                  Telephone : +7-8312-657906
                  Fax : +7-8312-657906
                  Contact Org. URL : http://www.VNIIEF.ru/
                  Electronic Mail : Ric@unn.ac.ru


        Latvian Technological Center

                Record Control Number : 48901
                Quality Validation Date : 1999-05-21
                Update Date : 1999-05-21
                Remarks : 6-99
                Name : Latvian Technological Center
                Address : Aizkraukles 21


                City : Riga
                PostCode : 1006
                Country : LATVIA
                Type : Research, Education
                Number of Employees : 10 - 49
                Subject Details : Information about the Laboratory: Proposal for the project is 
                prepared by the Research Laboratory Nonlinear Phenomena of 
                Vibrating Systems of Riga Technical University. The main field of 
                activity, development of new high-sensitive methods and facilities 
                for nondestructive testing of engineering objects based on 
                utilization of nonlinear vibration effects. The scientific leader 
                of the Laboratory is Latvian State Prize Laureate in the field of 
                science and technology, Dr. Habil., Prof. S. Tsyfansky. The 
                Laboratory is equipped with specialized analog-digital 
                computational complex (it is defended by 20 patents) , which makes 
                it possible to solve complex sets of nonlinear differential 
                equations beyond the bounds of possibilities of analytical methods. 
                The results of research are published in scientific literature (4 
                monographs, 152 papers, 112 patents) . The Laboratory has 
                experience in International Scientific collaboration: Joint 
                research together with the scientists from England, Netherlands, 
                Denmark and Bulgaria in the development of new methods for 
                nondestructive testing of wind turbine blades (European Commission 
                Project JOU2-CT92-0091) . Joint research together with the 
                scientists from Kobe University (Japan)  in the development of new 
                methods for vibrodiagnostics of cracks in rotating shafts.


                Collaboration
                  Title : Nonlinear vibrodiagnostics of technical condition of aeronautic objects
                  Programme : LIFE QUALITY, IST, GROWTH, EESD, INCO 2, INNOVATION-SME, HUMAN POTENTIAL
                  Research Interest : Statistics, operations research, programming, actuarial mathematics,
                 Technological sciences, Construction technology, Transport 
                technology, Air transport technology
                  Partners Aquired : ADM_RMK IRC Del No. 197    BBS Ref. 6-99


                Target Partner
                  Expertise : (1)  Specialists in solving of sets of nonlinear differential 
                equations describing the dynamics of damaged aviation structures.
                
                (2)  Laboratories equipped with vibroexciters and modern 
                instrumentation for vibration analysis.
                
                (3)  Companies and enterprises of aircraft and aerospace industry 
                concerned with fatigue cracks detection in aviation structures 
                (thin-walled reinforced constructions) .
                
                (4)  Specialists involved with the development of compact 
                electrosparking hydraulic vibroexciters with high amplitude of 
                generated force (up to 100 kN) .
                  Country : EUROPEAN UNION


                Contact Person
                  Name : KOVALCUK, Jevgenij
                  Organisation : Latvian Technological Center
                  Address : Aizkraukles 21


                  City : Riga
                  Country : LATVIA
                  PostCode : 1006
                  Telephone : +371-7540703
                  Fax : +371-7540709
                  Electronic Mail : femirc@edi.lv


                
    
Research Laboratory "Nonlinear Phenomena of Vibrating Systems" of 
                Riga Technical University


                Record Control Number : 48905
                Quality Validation Date : 1999-05-24
                Update Date : 1999-05-24
                Name : Research Laboratory "Nonlinear Phenomena of Vibrating Systems" of 
                Riga Technical University
                Address : Kalku 1
                City : Riga
                PostCode : 1658
                Country : LATVIA
                Type : Research, Education
                Number of Employees : 50 - 249
                Subject Index Codes : Construction Technology, Environmental Protection, Materials 
                Technology, Measurement Methods, Safety, Standards, Transport, 
                Waste Management
                Subject Details : Proposal for the project is prepared by the Research Laboratory 
                "Nonlinear Phenomena of Vibrating Systems" of Riga Technical 
                University. The main field of activity - development of new 
                high-sensitive methods and facilities for nondestructive testing of 
                engineering objects based on utilization of nonlinear vibration 
                effects. The scientific leader of the Laboratory is Latvian State 
                Prize Laureate in the field of science and technology, Dr. habil., 
                Prof. S. Tsyfansky.The Laboratory is equipped with specialized 
                analog-digital computational complex (it is defended by 20 patents) 
                , which makes it possible to solve complex sets of nonlinear 
                differential equations beyond the bounds of possibilities of 
                analytical methods. The results of research are published in 
                scientific literature (4 monographs, 152 papers, 112 patents) .The 
                Laboratory has experience in International Scientific collaboration:
                 Joint research together with the scientists from England, 
                Netherlands, Denmark and Bulgaria in the development of new methods 
                for nondestructive testing of wind turbine blades (European 
                Commission Project JOU2-CT92-0091) . Joint research 
                together with the scientists from Kobe University (Japan)  in the 
                development of new methods for vibrodiagnostics of cracks in 
                rotating shafts.


                Collaboration
                  Title : Methods and Facilities for Vibrodiagnostics, Detection of Damages 
                and Fatigue Cracks, Nondestructive Testing, Nonlinear Vibration 
                Effects, Aeronautic Objects, Mechanical Engineering
                  Type Details : Existing linear methods for vibrodiagnostics have some limitations 
                (a few number of vibration parameters, which can be used as 
                diagnostic signs; low sensitivity to defects; necessity of 
                comparison standard object) , which confine the field of their 
                application. Due to low sensitivity of these methods high-precision 
                and expensive instrumentation has to be used ; procedures of 
                nondestructive testing usually are very laborious and require a 
                great many working hours of failure shooting.The proposed project 
                seeks to develop new trend in technical diagnostics - nonlinear 
                vibrodiagnostics, based on the utilization of nonlinear vibration 
                effects as a collection of diagnostic factors, which point to the 
                appearance of faults in a testing aeronautic object. Nonlinear 
                properties are inherent to many aerospace units (liquid dampers, 
                dampers with dry friction, couplings with preload, etc.)  ; besides 
                mathematical nonlinearity of the system can be conditioned by the 
                origin in it of fatigue cracks, which are considered as additional 
                elastic nonlinearities. What is more, within the scope of nonlinear 
                dynamic model there is a significantly greater variety of effective 
                and high sensitive diagnostic signs: characteristics of vibration 
                spectrum, time responses and phase portraits of nonlinear regimes, 
                characteristic dimensions of attractive regions, magnification 
                factors of nonlinear resonant regimes, bifurcation frequencies, 
                vibration modes, effects of internal resonance, statistic 
                parameters of chaotic motions, etc. High detection sensitivity of 
                nonlinear diagnostic signs is caused by more abrupt response of 
                nonlinear system (in comparison with the linear one)  to changes in 
                its parameters.
                  Programme : GROWTH, EESD, INNOVATION-SME, FP5-EAECJRC C, FP5-EAECTP C
                  Validity Date : 2000-01-01


                Target Partner
                  Expertise : (1)  Specialists in solving of sets of nonlinear differential 
                equations describing the dynamics of damaged aviation structures.(2)
                  Laboratories equipped with vibroexciters and modern 
                instrumentation for vibration analysis.(3)  Companies and 
                enterprises of aircraft and aerospace industry concerned with 
                fatigue cracks detection in aviation structures (thin-walled 
                reinforced constructions) .(4)  Specialists involved with the 
                development of compact electrosparking hydraulic vibroexciters with 
                high amplitude of generated force (up to 100 kN)  .
                  Country : Any Country


                Contact Person
                  Name : BERESNEVICH, Vitaly (Dr Sc)
                  Position : Senior Researcher
                  Organisation : Research Laboratory "Nonlinear Phenomena of Vibrating Systems" of 
                Riga Technical University
                  Address : Kalku 1
                  City : Riga
                  Country : LATVIA
                  PostCode : 1658
                  Telephone : +371-7-089469/540703
                  Fax : +371-7-820094/540709
                  Electronic Mail : femirc@edi.lv


                
    
Latvian Technological Center


                Record Control Number : 48949
                Quality Validation Date : 1999-05-21
                Update Date : 1999-05-24
                Remarks : 3-99
                Name : Latvian Technological Center
                Address : Aizkraukles 21


                City : Riga
                PostCode : 1006
                Country : LATVIA
                Type : Research, Education
                Number of Employees : 10 - 49
                Subject Details : Information about the Laboratory: Proposal for the project is 
                prepared by the Research Laboratory Nonlinear Phenomena of 
                Vibrating Systems of Riga Technical University. The main field of 
                activity, development of new high-sensitive methods and facilities 
                for nondestructive testing of engineering objects based on 
                utilization of nonlinear vibration effects. The scientific leader 
                of the Laboratory is Latvian State Prize Laureate in the field of 
                science and technology, Dr. Habil., Prof. S. Tsyfansky. The 
                Laboratory is equipped with specialized analog-digital 
                computational complex (it is defended by 20 patents) , which makes 
                it possible to solve complex sets of nonlinear differential 
                equations beyond the bounds of possibilities of analytical methods. 
                The results of research are published in scientific literature (4 
                monographs, 152 papers, 112 patents) . The Laboratory has 
                experience in International Scientific collaboration: Joint 
                research together with the scientists from England, Netherlands, 
                Denmark and Bulgaria in the development of new methods for 
                nondestructive testing of wind turbine blades (European Commission 
                Project JOU2-CT92-0091) . Joint research together with the 
                scientists from Kobe University (Japan)  in the development of new 
                methods for vibrodiagnostics of cracks in rotating shafts.


                Collaboration
                  Title : Advanced Technologies for Nanodispersed Powders and Fine Ceramics
                  Programme : LIFE QUALITY, IST, GROWTH, EESD, INCO 2, INNOVATION-SME, HUMAN POTENTIAL
                  Research Interest : Electronics & Electrical Technology, Transport technology, 
                Electronics, Microelectronics, Air transport technology
                  Partners Aquired : ADM_RMK IRC Del No. 197    BBS Ref. 3-99


                Target Partner
                  Expertise : firms for engine building, aeronautics, radio engineering, 
                electronics, chemical industry, metallurgy and other.
                  Country : EUROPEAN UNION


                Contact Person
                  Name : KOVALCUKS, Jevgenijs
                  Organisation : Latvian Technological Center
                  Address : Aizkraukles 21


                  City : Riga
                  Country : LATVIA
                  PostCode : 1006
                  Telephone : +371-7540703
                  Fax : +371-7540709
                  Electronic Mail : femirc@edi.lv