Transcript of 1 Materials Research in Poland K.J.KURZYDŁOWSKI Deputy Chairman of the State Committee for...
- Slide 1
- 1 Materials Research in Poland K.J.KURZYDOWSKI Deputy Chairman
of the State Committee for Scientific Research, Warsaw University
of Technology, Department of Materials Science and Engineering
K.J.KURZYDOWSKI Deputy Chairman of the State Committee for
Scientific Research, Warsaw University of Technology, Department of
Materials Science and Engineering
- Slide 2
- 2 National Projects PBZ PBZ Centres and Network Indywidual
Projects 1 + 4 + 2 10 + 2 400 / year
- Slide 3
- 3 Research Project PBZ-KBN-096/T08/2003 New Technologies for
Manufacturing of nanostructured metals and alloys products Centre
of Advanced Materials and Technologies CAMAT and Silesian
University of Technology Coordinator: prof. Krzysztof J.
Kurzydowski Centre of Advanced Materials and Technologies CAMAT and
Silesian University of Technology Coordinator: prof. Krzysztof J.
Kurzydowski
- Slide 4
- 4 Main objectives of project IMPLEMENTATIONIMPLEMENTATION
ModellingModelling Materials ApplicationsApplications Structure and
properties Technology (SPD)
- Slide 5
- 5 TechnologyTechnology Refinement methods Equal Channel Angular
Pressing Cyclic extrusion compression High Pressure Torsion
Cumulative plastic deformation- varying path (MAX-Strain) Extrusion
and rolling Powder consolidation Refinement methods Equal Channel
Angular Pressing Cyclic extrusion compression High Pressure Torsion
Cumulative plastic deformation- varying path (MAX-Strain) Extrusion
and rolling Powder consolidation
- Slide 6
- 6 BudgetBudget Modelling 1,00 mln Raw materials
characteristic0,15 mln Refinement methods of metals structure 2,25
mln Consolidation, nanocrystallization, etc.2,00 mln Structure and
properties investigations1,50 mln Production technology work out
0,75 mln Implementation 0,60 mln TOTAL 8,25 mln Modelling 1,00 mln
Raw materials characteristic0,15 mln Refinement methods of metals
structure 2,25 mln Consolidation, nanocrystallization, etc.2,00 mln
Structure and properties investigations1,50 mln Production
technology work out 0,75 mln Implementation 0,60 mln TOTAL 8,25
mln
- Slide 7
- 7 Research Project PBZ-KBN-095/T08/2003 Polymer materials
modified nanoparticles. Technology Properties Applications
Coordinator : prof. Ludomir lusarski
- Slide 8
- 8 Polymer materials modified nanoparticles. Technology
Properties Applications 26 Research Centres Budget 8 mln
Applications for SMEs 26 Research Centres Budget 8 mln Applications
for SMEs
- Slide 9
- 9 New polymers modified by nano-particles layers fibres bulk
for construction bulk functional New polymers modified by
nano-particles layers fibres bulk for construction bulk functional
ObjectivesObjectives
- Slide 10
- 10 Coordinator : prof. Jan Chopek Research Project
PBZ-KBN-082/T08/2002 New Materials and Technologies for Biomedical
Engineering
- Slide 11
- 11 ObjectivesObjectives Metallic biomaterials with surface
layers Improvement of biological and tribological properties of
metallic implants by modification their microstructure and the
surface Shaping of structure of the shape memory alloys and the
hyperelastic alloys intended for medical applications Preparation
of Ti based new metallic biomaterials with the appropriated modulus
of elasticity covered with ceramic, ceramic-polymer,
passive-carbon, oxides and nitrides layers, having improved
corrosion resistance and biological activity Metallic biomaterials
with surface layers Improvement of biological and tribological
properties of metallic implants by modification their
microstructure and the surface Shaping of structure of the shape
memory alloys and the hyperelastic alloys intended for medical
applications Preparation of Ti based new metallic biomaterials with
the appropriated modulus of elasticity covered with ceramic,
ceramic-polymer, passive-carbon, oxides and nitrides layers, having
improved corrosion resistance and biological activity
- Slide 12
- 12 ObjectivesObjectives Resorbable polymers and composites
Elaboration of new methods of biodegradable polymers synthesis
using non-toxic initiators Modeling of carbon and resorbable
polymers scaffolds microstructure for tissue regeneration Shaping
of structure and useful properties of constructional implants made
from resorbable polymers modified with the fibres and particles as
biomaterials for the controlled osseointegration Bioactive
phosphate-siliceous materials Calcium phosphates based
multifunctional ceramics Manufacture and shaping of the properties
of new bioglass and glass-ceramics as highly bioactive materials
Bioactive ceramic layers Ceramic bone cements Resorbable polymers
and composites Elaboration of new methods of biodegradable polymers
synthesis using non-toxic initiators Modeling of carbon and
resorbable polymers scaffolds microstructure for tissue
regeneration Shaping of structure and useful properties of
constructional implants made from resorbable polymers modified with
the fibres and particles as biomaterials for the controlled
osseointegration Bioactive phosphate-siliceous materials Calcium
phosphates based multifunctional ceramics Manufacture and shaping
of the properties of new bioglass and glass-ceramics as highly
bioactive materials Bioactive ceramic layers Ceramic bone
cements
- Slide 13
- 13 Metallic, Ceramic and Organic Nanomaterials: Processing
Structure Properties Applications Nano-crystalline materials
Excellent physical and mechanical properties The high density of
grain boundaries Strong exchange interactions within highly refined
microstructure Nano-crystalline materials Excellent physical and
mechanical properties The high density of grain boundaries Strong
exchange interactions within highly refined microstructure November
2000: The State Committee for Scientific Research (KBN) launched a
national program Co-ordinated by Faculty of Materials Science and
Engineering, Warsaw University of Technology Ends in 2003 Aimed to
stimulate research and collaboration on nanomaterials in Poland
November 2000: The State Committee for Scientific Research (KBN)
launched a national program Co-ordinated by Faculty of Materials
Science and Engineering, Warsaw University of Technology Ends in
2003 Aimed to stimulate research and collaboration on nanomaterials
in Poland
- Slide 14
- 14 NanomaterialsNanomaterials Distribution of laboratories
taking part in the project 15 scientific institutions from 7
cities, mostly from central and southern Poland Research within 26
projects 14 projects related to metallic 12 to ceramic Research
within 26 projects 14 projects related to metallic 12 to
ceramic
- Slide 15
- 15 Distribution of projects between three types of materials
Tough and strong metallic and ceramic materials Soft and hard
magnetic materials Electronic materials Biomaterials Basic
phenomena Processing methods New experimental techniques Tough and
strong metallic and ceramic materials Soft and hard magnetic
materials Electronic materials Biomaterials Basic phenomena
Processing methods New experimental techniques
NanomaterialsNanomaterials
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- 16 Intermetallic (2001) Materials for Bio-medical application
(2002) Design and fabrication of functional gradient materials
(2004) Novel methods op plastic forming of super-hard materials
(2004) New materials based on silver alloy for application in
modern industry (2004) Intermetallic (2001) Materials for
Bio-medical application (2002) Design and fabrication of functional
gradient materials (2004) Novel methods op plastic forming of
super-hard materials (2004) New materials based on silver alloy for
application in modern industry (2004) Other Projects
- Slide 17
- 17 Nanomaterials Network (NN) BIOMATERIALS (prof. Jan Chopek)
tissue engineering implants NANOMATERIALS (prof. Krzysztof J.
Kurzydowski) nano-metals nano-ceramics ceramic-metal composite
POLYMERS (prof. Ludomir lusarski) nanoparticle modification
MATERIALS CHARACTERIZATION (prof. Jan Cwajna) quantitative analysis
simulation COROSION & MATERIALS DEGRADATION (prof. Marek
Danielewski) BIOMATERIALS (prof. Jan Chopek) tissue engineering
implants NANOMATERIALS (prof. Krzysztof J. Kurzydowski) nano-metals
nano-ceramics ceramic-metal composite POLYMERS (prof. Ludomir
lusarski) nanoparticle modification MATERIALS CHARACTERIZATION
(prof. Jan Cwajna) quantitative analysis simulation COROSION &
MATERIALS DEGRADATION (prof. Marek Danielewski)
- Slide 18
- 18 Nanomaterials Network (NN) Main objectives: Participation in
the EU 6 Framework Programme (Integrated Projects, IPs, Networks of
Excellence, NoEs) by: integration of national research units new
contacts and exchange of research experience on the European level
Critical mass of research groups European network on the basis of
national network Assisting in development of intellectual potential
and infrastructure of Polish research units Participation in
creation of knowledge-based economy in Poland Strengthening of
Polish economy by involving participation of innovating Small and
Medium Size Enterprises (SMEs) Main objectives: Participation in
the EU 6 Framework Programme (Integrated Projects, IPs, Networks of
Excellence, NoEs) by: integration of national research units new
contacts and exchange of research experience on the European level
Critical mass of research groups European network on the basis of
national network Assisting in development of intellectual potential
and infrastructure of Polish research units Participation in
creation of knowledge-based economy in Poland Strengthening of
Polish economy by involving participation of innovating Small and
Medium Size Enterprises (SMEs)
- Slide 19
- 19 Research groups participating in the Network Total 18
Universities 4 Institutes of Polish Academy of Sciences 22 R+D
Units 3 Companies Total 18 Universities 4 Institutes of Polish
Academy of Sciences 22 R+D Units 3 Companies
- Slide 20
- 20 NanoCentreNanoCentre Nanocrystalline Materials: Fabrication,
Structure, Modelling, Properties and Applications Project No:
G5MA-CT-2002-04043 Warsaw University of Technology Faculty of
Materials Science and Engineering Coordinator: Prof. Tadeusz Kulik
ul. Wooska 141, 02-507 Warsaw, Poland NanoCentre@inmat.pw.edu.pl
discipline : materials science and engineering, nanomaterials
technology keywords : materials science, nanomaterials, structure
Nanocrystalline Materials: Fabrication, Structure, Modelling,
Properties and Applications Project No: G5MA-CT-2002-04043 Warsaw
University of Technology Faculty of Materials Science and
Engineering Coordinator: Prof. Tadeusz Kulik ul. Wooska 141, 02-507
Warsaw, Poland NanoCentre@inmat.pw.edu.pl discipline : materials
science and engineering, nanomaterials technology keywords :
materials science, nanomaterials, structure
- Slide 21
- 21 Research focus of the Centre Investigated materials :
permanent magnet materials soft magnetic materials intermetallics
Al-based structural materials nanocomposites, etc. Processing
techniques : nanocrystalization of metallic glasses mechanical
alloying rapid solidification severe plastic deformation impulse
plasma deposition nanopowders consolidation by impulse plasma
Investigated materials : permanent magnet materials soft magnetic
materials intermetallics Al-based structural materials
nanocomposites, etc. Processing techniques : nanocrystalization of
metallic glasses mechanical alloying rapid solidification severe
plastic deformation impulse plasma deposition nanopowders
consolidation by impulse plasma Properties characterization :
mechanical properties (microsamples) corrosion resistance magnetic
properties termal properties Recent developments in modelling of :
texture formation in nanocrystalline magnets crystallographic
structure of nanomaterials anisotropy of elasto-plastic properties
of metal alloys after sever plastic deformation soft magnetic
nanocrystaline materials for high temperature applications
Properties characterization : mechanical properties (microsamples)
corrosion resistance magnetic properties termal properties Recent
developments in modelling of : texture formation in nanocrystalline
magnets crystallographic structure of nanomaterials anisotropy of
elasto-plastic properties of metal alloys after sever plastic
deformation soft magnetic nanocrystaline materials for high
temperature applications
- Slide 22
- 22 Centre of Advanced Materials and Technologies CAMAT Centre
of Advanced Materials and Technologies CAMAT : Institute of Ferrous
Metallurgy Institute of Non-Ferrous Metals Institute of Metallurgy
and Materials Science Polish Academy of Sciences Institute of
Fundamental Technological Research Polish Academy of Sciences
Faculty of Non-ferrous Alloys, University of Mining and Metallurgy
Faculty of Materials Science and Engineering, WUT Grupa KTY S.A.
WSK PZL widnik S.A. Institute of Ferrous Metallurgy Institute of
Non-Ferrous Metals Institute of Metallurgy and Materials Science
Polish Academy of Sciences Institute of Fundamental Technological
Research Polish Academy of Sciences Faculty of Non-ferrous Alloys,
University of Mining and Metallurgy Faculty of Materials Science
and Engineering, WUT Grupa KTY S.A. WSK PZL widnik S.A.
- Slide 23
- 23 The research programme Nanostructured construction and
functional materials Plastic forming of hard materials Modern
functional gradient materials New silver alloys Nanostructured
construction and functional materials Plastic forming of hard
materials Modern functional gradient materials New silver
alloys
- Slide 24
- 24 Aims of activity CAMAT Industrial implementations
Participation in European projects Participation in national
projects Structural funds Development of the research
infrastructure Industrial implementations Participation in European
projects Participation in national projects Structural funds
Development of the research infrastructure
- Slide 25
- 25 AMAS-ISN: international scientific network for advanced
materials and structures The challenges faced by the
knowledge-based society in quest of safe and healthy life
conditions make advanced materials and structures a vital part of
almost every technological or engineering project. To ensure
optimal, durable, safe and environment-friendly performance of the
advanced materials and structures, a concerted effort of experts in
materials science and applied mechanics assisted by physicists and
chemists is needed. In the International Scientific Network for
Advanced Materials and Structures (AMAS-ISN), a number of competent
research centres agreed upon combining their expertise to tackle a
wide spectrum of problems ranging from manufacturing processes,
laboratory testing to service conditions of advanced materials and
structures.
- Slide 26
- 26 Network consists of: 36 Polish research institutions (30
full- and 6 associate members) 24 research teams from Austria,
Bulgaria, France, Germany, Hungary, Italy, Latvia, Lithuania,
Poland, Slovakia, South Korea, Turkey, Ukraine, United Kingdom
However, the AMAS-ISN is open for new members from academia and
industry as long as their profile and competence fit the Network's
objectives. It is worth stressing that the AMAS-ISN members' skills
range from pure experimental research of material microstructure,
via advanced mathematical modelling of materials and structures,
computer simulations of processes and numerical implementation of
mathematical models, to technological excellence of the advanced
materials' manufacturers. It is expected that AMAS-ISN, as sizable
and diversified as it is, will stimulate complementary and
interdisciplinary research projects of high applicability to modern
engineering and technology. Network consists of: 36 Polish research
institutions (30 full- and 6 associate members) 24 research teams
from Austria, Bulgaria, France, Germany, Hungary, Italy, Latvia,
Lithuania, Poland, Slovakia, South Korea, Turkey, Ukraine, United
Kingdom However, the AMAS-ISN is open for new members from academia
and industry as long as their profile and competence fit the
Network's objectives. It is worth stressing that the AMAS-ISN
members' skills range from pure experimental research of material
microstructure, via advanced mathematical modelling of materials
and structures, computer simulations of processes and numerical
implementation of mathematical models, to technological excellence
of the advanced materials' manufacturers. It is expected that
AMAS-ISN, as sizable and diversified as it is, will stimulate
complementary and interdisciplinary research projects of high
applicability to modern engineering and technology. AMAS-ISN:
international scientific network for advanced materials and
structures
- Slide 27
- 27 ObjectivesObjectives Mobilise and concentrate the disperse
scientific and industrial potential in "advanced materials and
structures" to create a durable international structure capable of
developing leading-edge research while spreading the accumulated
knowledge in- and outside the network and enhancing the
technological skills of the related industry. The specific
objectives of AMAS-ISN are as follows: to create a vehicle for
strong scientific cooperation in the field of advanced materials
and structures to coordinate research efforts of the network
members by jointly generating, executing and monitoring
interdisciplinary research projects (NoE, STREP, IP, nationally
funded projects, etc.) to benefit from network members'
complementarity in expertise ranging from microstructure
investigations of advanced materials to structural analysis and
design to share research facilities (experimental and numerical) to
establish interaction with manufacturers of advanced materials and
get feedback from them as a stimulus for new research projects to
avoid "double-research" to disseminate accumulated knowledge
(education, promotion, conferences, publishing) Mobilise and
concentrate the disperse scientific and industrial potential in
"advanced materials and structures" to create a durable
international structure capable of developing leading-edge research
while spreading the accumulated knowledge in- and outside the
network and enhancing the technological skills of the related
industry. The specific objectives of AMAS-ISN are as follows: to
create a vehicle for strong scientific cooperation in the field of
advanced materials and structures to coordinate research efforts of
the network members by jointly generating, executing and monitoring
interdisciplinary research projects (NoE, STREP, IP, nationally
funded projects, etc.) to benefit from network members'
complementarity in expertise ranging from microstructure
investigations of advanced materials to structural analysis and
design to share research facilities (experimental and numerical) to
establish interaction with manufacturers of advanced materials and
get feedback from them as a stimulus for new research projects to
avoid "double-research" to disseminate accumulated knowledge
(education, promotion, conferences, publishing)
- Slide 28
- 28 MeasuresMeasures Thematic Groups Material microstructures
Biomaterials Intelligent systems Durability and Safety The AMAS-ISN
has obtained a financial support from the Polish State Committee
for Scientific Research aimed at strengthening Network's
integration and international dimension. It is planned that
Thematic Groups will create "task-forces" around selected
challenging problems of interdisciplinary character. For research
teams the best way to integrate is to jointly carry out specific
research projects. In addition to that some other organizational
measures are foreseen to enhance the integration. These include:
permanent exchange of information construction of AMAS-ISN
databases: fields of expertise, experimental equipment, modelling
and computing tools exchange of Ph.D. students short and
medium-term visits of researchers regular specialized workshops
within one or more Thematic Groups annual coordination meetings of
the whole Network Thematic Groups Material microstructures
Biomaterials Intelligent systems Durability and Safety The AMAS-ISN
has obtained a financial support from the Polish State Committee
for Scientific Research aimed at strengthening Network's
integration and international dimension. It is planned that
Thematic Groups will create "task-forces" around selected
challenging problems of interdisciplinary character. For research
teams the best way to integrate is to jointly carry out specific
research projects. In addition to that some other organizational
measures are foreseen to enhance the integration. These include:
permanent exchange of information construction of AMAS-ISN
databases: fields of expertise, experimental equipment, modelling
and computing tools exchange of Ph.D. students short and
medium-term visits of researchers regular specialized workshops
within one or more Thematic Groups annual coordination meetings of
the whole Network
- Slide 29
- 29 Network of Excellence KMM-NoE (Knowledge-based
Multi-functional Materials) Objectives In general terms, the main
objective of this project is to mobilise and concentrate the
dispersed scientific and industrial potential in the KMM field to
create a durable and efficient organism capable of developing
leading- edge research while spreading the accumulated knowledge
in- and outside the Network, and enhancing the technological skills
of the related industry. Objectives In general terms, the main
objective of this project is to mobilise and concentrate the
dispersed scientific and industrial potential in the KMM field to
create a durable and efficient organism capable of developing
leading- edge research while spreading the accumulated knowledge
in- and outside the Network, and enhancing the technological skills
of the related industry.
- Slide 30
- 30 The main objectives of KMM-NoE: to contribute to creation of
the ERA in the field of KMM oriented towards advanced industrial
applications to network, strengthen and consolidate the fragmented
and dispersed RTD potential in this area and apply instruments
assuring long-lasting and progressive integration to achieve a deep
integration in the form of new legal entity and cooperating
research and industrial networks to continuously enhance the
research and technological skills of the network to gain and hold
the leading world position in this area to contribute to creation
of the ERA in the field of KMM oriented towards advanced industrial
applications to network, strengthen and consolidate the fragmented
and dispersed RTD potential in this area and apply instruments
assuring long-lasting and progressive integration to achieve a deep
integration in the form of new legal entity and cooperating
research and industrial networks to continuously enhance the
research and technological skills of the network to gain and hold
the leading world position in this area
- Slide 31
- 31 KMM-NoE statistics Coordinator: IPPT PAN prof. W.Nowacki
Number of Participants: 43 Duration: 48 months EC Funding: 8 100
000 Euro (First 18 months: 3 000 000 Euro) Status: under
negotiations (2nd round) Coordinator: IPPT PAN prof. W.Nowacki
Number of Participants: 43 Duration: 48 months EC Funding: 8 100
000 Euro (First 18 months: 3 000 000 Euro) Status: under
negotiations (2nd round)
- Slide 32
- 32 List of participants KMM-NoE ACRONYMINSTITUTIONTOWNCOUNTRY
IPPT Institute of Fundamental Technological Research WarsawPOLAND
TUD Polish Academy of Sciences DarmstadtGERMANY IFAM
Fraunhofer-Gesellschaft zur Frderung der angewandten Forschung e.V.
BremenGERMANY IFFTUV Vienna University of Technology ViennaAUSTRIA
ONERA Office National dEtudes et de Recherches Arospatiales
ChtillonFRANCE UM Universite de Metz MetzFRANCE POLIMI Politecnico
di Milano MailandITALY UNIPAD Universit degli Studi di Padova
PadovaITALY UWC University of Wales Cardiff CardiffUK IMBAS
Institute of Mechanics, Bulgarian Academy of Sciences
SofiaBULGARIA
- Slide 33
- 33 List of participants KMM-NoE ACRONYMINSTITUTIONTOWNCOUNTRY
AGH AGH University of Science and Technology CracowPOLAND IMIM
Institute of Metallurgy and Materials Science, Polish Academy of
Sciences CracowPOLAND NETCOM NetComposites Ltd ChesterfieldUK ITC
Instituto de Tecnologia Ceramica CastellonSPAIN IMPER Imperial
College London LondonUK UH University of Hertfordshire HatfieldUK
LMT Ecole Normale Suprieure, Laboratoire de Mcanique et Technologie
CachanFRANCE POLITO Politecnico di Torino TorinoITALY UNIAN
Universit Politecnica delle Marche AnconaITALY CIDETEC Fundacin
CIDETEC S. Sebastian SPAIN ICASAS Institute of Construction and
Architecture, Slovak Academy of Sciences BratislavaSLOVAKIA
- Slide 34
- 34 List of participants KMM-NoE ACRONYMINSTITUTIONTOWNCOUNTRY
IMRSAS Institute of Materials Research, Slovak Academy of Sciences
KosiceSLOVAKIA CUT Cracow University of Technology CracowPOLAND WUT
Warsaw University of Technology WarsawPOLAND MSISA Moscow State
Institute of Steel and Alloys MoscowRUSSIA IPSUA Institute for
Problems of Strength, National Academy of Sciences KievUKRAINE MCL
Materials Centre Leoben LeobenAUSTRIA INASMET Fundacin INASMET S.
Sebastian SPAIN MERL Materials Engineering Research Laboratory Ltd.
HertfordUK ATECAATECAMontaubanFRANCE GC Giantcode A/S
KlokkerholmDENMARK
- Slide 35
- 35 List of participants KMM-NoE ACRONYMINSTITUTIONTOWNCOUNTRY
IFM Institute for Ferrous Metallurgy GliwicePOLAND PZL PZL Swidnik
S.A. SwidnikPOLAND RRD Rolls-Royce Deutschland DahlewitzGERMANY
OPEL Adam Opel AG, International Technical Development Center
RusselsheimGERMANY CERTEC CeramTec AG, Innovative Ceramic
Engineering PlochingenGERMANY HERA Heraeus Holding GmbH
HanauGERMANY EADSG EADS Deutschland GmbH, Corporate Research Center
Germany MunichGERMANY EADSF EADS CCR ParisFRANCE SNECMA Snecma
Moteurs ParisFRANCE BSTG Bhler-Schmiedetechnik GmbH & CoKG
KapfenbergAUSTRIA FIAT Centro Ricerche Fiat OrbassanoITALY
- Slide 36
- 36 List of participants KMM-NoE
- Slide 37
- 37 List of Materials - related Centres of Competence List of
Materials - related Centres of Competence ACRONYMTITLEORGANIZATION
AMAS Advanced Materials & Structures: Modelling and Durability
Analysis for Engineering Design Institute of Fundamental
Technological Research (IFTR), PAS CELDIS Centre for Physics and
Fabrication of Low Dimensional Structures Institute of Physics, PAS
HIGH PRESSURE High Pressure Research Center UNIPRESS High Pressure
Research Center, PAS CATCOLL Krakow Research Centre of Molecular
Catalysis and Soft Matter Chemistry Institute of Catalysis and
Surface Chemistry, PAS CEChit Advanced Chitin Materials and
Structures Institute of Chemical Fibres CELTAM Centre for Low
Temperature Studies of Promising Materials for Applications
Institute for Low Temperature and Structure Research, PAS CEMOS
Physics and Technology of Semiconductor Materials and Structures
for Optoelectronics and Spintronics Warsaw University
- Slide 38
- 38 List of Materials - related Centres of Competence List of
Materials - related Centres of Competence CentrA1 Aluminum Modern
Technology and Integrating of Aluminum Research Area Institute of
Non-Ferrous Metallurgy CEPHONA Physics and Technology of Photonic
Nanostructures Institute of Electron Technology CPM Centre for
Photoactive Materials Institute of Physical Chemistry, PAS CORPROT
Integrated Technical and Quality Systems For Corrosion Protection
Institute of Precision Mechanics CESIS Physics and Technology of
Semiconductor Interfaces and Sensors Silesian University of
Technology HTT High - tech textile CoC Institute of Textile
Architecture MMMFE Magnetic and Molecular Materials for Future
Electronics at the Institute of Molecular Physics of the Polish
Academy of Sciences Institute of Molecular Physics, PAS NAMAM Nano-
and Microscale Characterization and Development of Advanced
Materials Institute of Metallurgy and Materials Science, PAS
- Slide 39
- 39 List of Materials - related Centres of Competence List of
Materials - related Centres of Competence NanoCentre
Nanocrystalline Materials: Fabrication, Structure, Modelling,
Properties and Applications Warsaw University of Technology,
Faculty of Materials Science & Technology NANODIAM New
technologies for medical applications: studying and production of
carbon surfaces allowing for controllable bioactivity Institute of
Materials Science and Engineering, Technical University of Lodz
NANOSAM Nanometer-scale Science and Advanced Materials Jagiellonian
University POLMATIN Advanced Polymeric Materials of Industrial
importance Industrial Chemistry Research Institute PRENABIO High
Pressure Methods in Optoelectronics, Nanotechnology and
Biotechnology High Pressure Research Centre, PAS PRESAFE CoC in
Safety of Pressure Equipment Warsaw University of Technology,
SGM&N "Sol-Gel Materials and Nanotechnology" Technical
University of Wroclaw, Institute of Materials Science And Applied
Mechanics SURPHARE Surface Phenomena and Reactions Institute of
Physical Chemistry, PAS
- Slide 40
- 40 Research Projects in 2004 Engineering47% 211 743 637 z
Engineering47% Natural Sciences 41% 184 041 770 z Natural Sciences
41% 184 041 770 z Humanites12% 51 853 750 z Humanites12%
- Slide 41
- 41 Industrial Projects Engineering98% 188 357 947 z
Engineering98% Natural Science 1,8% 4 458 230 z Natural Science
1,8% 4 458 230 z Humanites0,2% 331 250 z Humanites0,2%
- Slide 42
- 42 Materials Research Project in Engineering Materials Research
30% 23 213 000 z Materials Research 30% 23 213 000 z
- Slide 43
- 43 Industrial Projects Materials Research 34% 14 078 116 z
Materials Research 34% 14 078 116 z
- Slide 44
- 44 State Committee for Scientific Research 12 Subcommittees
Materials & Engineering over 45 units, over 2000 scientists 12
Subcommittees Materials & Engineering over 45 units, over 2000
scientists
- Slide 45
- 45 State Committee for Scientific Research Ranked every 4 years
Publication (intellectual circular) Patents Degree Awards
Applications Ranked every 4 years Publication (intellectual
circular) Patents Degree Awards Applications
- Slide 46
- 46 Growing number of Ph.D. students