Application Form TEMPUS IV – 3rd Call for proposals Joint Projects

Transkript

The following pages document collaboration between:
• Ing. Vít Petránek, Ph.D.
and
• Dr. Ing. Hans-Bertram Fischer, dr. h. c.
Bauhaus University Weimar,
F.A. Finger-Institut für Baustoffkunde (FIB),
Coudraystr. 11
D – 99421 Weimar
Germany
Several types of cooperation has been and is still implementing in the present time:
1.Preparation and implementation of European project INTAS 2005-2007:
Title: “Energy and Natural Resources Saving Heat Insulating Materials Made Using
Local Raw Materials and Industrial By-Products and Wastes”
2.EU project TEMPUS IQUIBUB:
Title: Innovation and Quality Improvement of Higher Education in Building Material
Science with Respect to Requirements of Uzbek Building Industry
Founded by EACEA (Education, Audiovisual and Culture Executive Agency)
Planned Implementation: 01/2013-12/2015
3.Cooperation and implementation of project SUPMAT
Title: Promotion of further education of research workers from advance building
material centres
European Structural Funds OPVK 2.3 Human resources in R&D
Implementation: 09/2011-08/2013
4. Cooperation on preparation of EU project MAT-MATE
EU 7th FP Program: Capacities / Research potential / Area 4.1 Unlocking and
developing the research potential of research entities in the EU´s convergence and
outermost regions
Title: International R&D collaboration in advanced construction materials and
structures
5.Cooperation within LLP Erasmus programme since year 2008, within last 3
years there have been implemented following visits:
Number of academic staff mobility BUW FIB to BUT:
Number of academic staff mobility BUT to BUW FIB :
Number of student mobility BUW FIB to BUT:
Number of student mobility BUT to BUW FIB :
3
10
3
8
Ref. No 04-82-7055
FIRST PERIODIC REPORT - INTAS Projects
TECHNICAL INFORMATION
Call specification:
INTAS Collaborative Call with Uzbekistan
Title:
“Energy and Natural Resources Saving Heat Insulating
Materials Made Using Local Raw Materials and Industrial
By-Products and Wastes”
Reference no:
04-82-7055
Total grant:
120000 EURO
Start date:
01.03.2005
Duration:
36 Months
Co-ordinator/ Person in
charge of Management:
Dr.Hans-Bertram Fischer, Coudraystrasse 11, 99412,
Weimar, Germany; + 49 (0)3643 584712, +49 (0)3643
584759;
[email protected]
[email protected]
Team information:
Dr.Hans-Bertram Fischer,
FIB Institute, Bauhaus-University Weimar, Weimar,
Germany, [email protected];
Prof.Rudolf Hela, Brno University of Technology, Brno,
Czech Republic, [email protected];
DSc(Eng)Abdukabil Abdunabievich Tulaganov, Research
and Project Institute of Building Materials, Tashkent,
Uzbekistan, [email protected];
DSc(Eng)Pavlo Vasyljovych Kryvenko, Kyiv National
University of Civil Engineering&Architecture, Kyiv,
Ukraine,
[email protected]
First periodic report due:
01.06.2006
Tempus IV
Form version : 1.00 EN Adobe Reader version : 9.404
Application Form
TEMPUS IV – 3rd Call for proposals
Joint Projects / Structural Measures
Before you begin completing this eform:
- Try the test eForm. This is a very brief eForm to help you become familiar with how the fields and tables work and to test that your
software and internet connection allow an application to be submitted.
- Check that you have the latest available version of the eForm. In the event of a significant eForm problem arising, the Agency may decide
to publish an updated i.e. corrected version of the eForm. Please check to see if a later version is available and to see details of any
problems that have arisen and their impact.
Click on the following link to go to the webpage to try the test eForm and to check for the latest version of the eForm:
http://eacea.ec.europa.eu/eforms/index_en.php
Programme * :
TEMPUS
Sub-programme * :
Joint Projects
Programme guide /
Call for proposals
EACEA N° 28/09
Action * :
Curricular Reform
Sub-action * :
N/A
Deadline for
submission
09/03/2010
Project title * :
Innovation and Quality Improvement of Higher Education in Building Material Science with
Respect to Requirements of Uzbek Building Industry
Project acronym * :
IQIBUB
Language used to complete the form * :
English
YOU MUST COMPLETE ALL FIELDS ON THIS FIRST PAGE BEFORE COMPLETING ANY OTHER PARTS OF THE FORM.
SELECTIONS YOU MAKE ON THIS FIRST PAGE, DICTATE THE APPEARANCE AND BEHAVIOUR OF THE REST OF THE FORM.
Submission number:
511187-TEMPUS-1-2010-1-CZ-TEMPUS-JPCR
http://eacea.ec.europa.eu
Page 1 of 134
Tempus IV
Form version : 1.00 EN Adobe Reader version : 9.404
Application Form
TEMPUS IV – 3rd Call for proposals
Joint Projects / Structural Measures
Before you begin completing this eform:
- Try the test eForm. This is a very brief eForm to help you become familiar with how the fields and tables work and to test that your
software and internet connection allow an application to be submitted.
- Check that you have the latest available version of the eForm. In the event of a significant eForm problem arising, the Agency may decide
to publish an updated i.e. corrected version of the eForm. Please check to see if a later version is available and to see details of any
problems that have arisen and their impact.
Click on the following link to go to the webpage to try the test eForm and to check for the latest version of the eForm:
http://eacea.ec.europa.eu/eforms/index_en.php
Programme * :
TEMPUS
Sub-programme * :
Joint Projects
Programme guide /
Call for proposals
EACEA N° 28/09
Action * :
Curricular Reform
Sub-action * :
N/A
Deadline for
submission
09/03/2010
Project title * :
Innovation and Quality Improvement of Higher Education in Building Material Science with
Respect to Requirements of Uzbek Building Industry
Project acronym * :
IQIBUB
Language used to complete the form * :
English
YOU MUST COMPLETE ALL FIELDS ON THIS FIRST PAGE BEFORE COMPLETING ANY OTHER PARTS OF THE FORM.
SELECTIONS YOU MAKE ON THIS FIRST PAGE, DICTATE THE APPEARANCE AND BEHAVIOUR OF THE REST OF THE FORM.
Submission number:
511187-TEMPUS-1-2010-1-CZ-TEMPUS-JPCR
http://eacea.ec.europa.eu
Page 1 of 134
Theme: Research Potential
MAT-MATE: Coordination and support action (Supporting)
FP7-REGPOT-2011-1
Action Plan – Proposed Measures
The following measures/activities are proposed to tackle the main weaknesses of the applicant – insufficient
HR vis-à-vis the present tremendous jump in the quality and the scope of applicant’s experimental facilities.
The Action Plan focuses on support and mobilization of applicant’s human and material resources, on
development of strategic partnerships with other outstanding research and industrial partnering organizations
in the EU, on sharing the research results with the scientific community and potential beneficiaries, on
facilitation of the communication between research entities and the public, and on putting the research into
service of socio-economic needs of the South East Region of the Czech Republic.
1 Exchange of staff and experience with renown academic & industrial partnering organizations
Short to medium term exchanges are seen as first pillar in the strategy to enhance scientific competences of
applicant’s Institutes and in the same time to secure more permanent links to Western European research
space – by strengthening the ties with the partnering organization itself and through it, by applicant’s
competences becoming known to other Western European R&D performers and private sector.
Organizations approached for partnering exchanges are from the pool of recent collaborators and other
relevant players in the research domain of the applicant. Such partners have been selected that work/can
contribute to applicant’s expertise in development of advanced materials with better properties, longer
durability and can be partially produced from recycled materials. Hence their utilization reduces the
exploitation of new resources and lowers the burden on the environment during production
Exchanges planned and Letters of Intent are available with the following research groups:
• TU Vienna, Faculty of Civil Engineering, Institute of Building Construction and Technology,
research group of Prof. Ulrich Schneider, well known expert in structural building materials,
composites, and fire resistance of materials; his engagement corresponds to and will boost applicant’s
focus on cementious composite materials with specific properties, such as high temperature resistance,
durability - allowing extending the life cycle of the structures.
• University Greenwich, Fire Safety Engineering Group (FSEG) of Prof. Ed Galea, expertise in
modeling of fire and evacuation. The group specializes in computational fire engineering, including
fire and evacuation modeling and non-emergency pedestrian dynamics.
This expertise corresponds to applicant’s intention to incorporate in cooperation with specialist from
TU Wien newly developed materials into models and thus improve and compare behavior of the
structures under heat load. This will improve knowledge in this scientific area, expand possibilities for
use of newly developed high performance materials and their impact on fire safety. FSEG group has a
long experience in cooperation with worldwide industry and international research projects and thus
applicant’s collaboration with FSEG will also open doors for its further integration into top class world
research.
• Universidade do Minho, Department of Civil Engineering, Centre for Territory, Environment and
Construction, research group of Prof. Barroso Aguiar, expertise in sustainable civil engineering, which
is divided to three main lines: a) construction materials and technologies, b) durability of structures,
and c) rehabilitation and construction project management. Part of construction materials deals with
use of industrial by-products, thermal behavior of materials, new rehabilitation materials and
especially polymers in civil engineering in general and also polymers in concrete PC, PCC.
Laboratories are equipped with modern machines and analytic technologies supported by a very
competent training and research staff that keeps producing a wide range of publications and patents.
This expert exchange will boost applicant’s knowledge especially in polymers, polymers in concrete,
polymer protection of civil engineering materials and experience in European research projects.
Important asset is excellently equipped and well managed laboratory with experience in cooperation
with industry.
• Bauhaus Universität Weimar, Finger Institute for Building Materials Science, research group of Dr.
Ing. Hans-Bertram Fischer. Expertise in research, testing and evaluation of up-to-date as well as
historic materials corresponds to applicant focus on high performance, durable materials with overall
low impact to the environment. Expertise of the group can be dived to three parts: a) cement, mortars,
concrete, b) gypsum materials, and c) polymers PC, PCC, polymer coatings. Especially young
researches from Brno will appreciate ability of the Finger Institute to accept foreign scientists for long
9
• Ing. Vít Petránek, Ph.D.,
• Prof. Pavlo Kryvenko, DrSc.
Kiev National University of Civil Engineering and Architecture,
Scientific Research Institute for Binders and Materials (SRIBM)
SRIBM KNICeA,
31, Povitroflotskii prosp.
Kyiv, Ukraine , 03680
1.Preparation and implementation of European project INTAS 2005-2007:
Title: “Energy and Natural Resources Saving Heat Insulating Materials Made Using
Local Raw Materials and Industrial By-Products and Wastes”
2.Cooperation and implementation of project SUPMAT
material centres
3. Cooperation on preparation of EU project MAT-MATE
outermost regions
structures
Ref. No 04-82-7055
FIRST PERIODIC REPORT - INTAS Projects
Call specification:
Title:
Reference no:
04-82-7055
Total grant:
120000 EURO
Start date:
01.03.2005
Duration:
36 Months
Weimar, Germany; + 49 (0)3643 584712, +49 (0)3643
584759;
[email protected]
[email protected]
Team information:
Dr.Hans-Bertram Fischer,
FIB Institute, Bauhaus-University Weimar, Weimar,
Germany, [email protected];
DSc(Eng)Pavlo Vasyljovych Kryvenko, Kyiv National
University of Civil Engineering&Architecture, Kyiv,
Ukraine,
[email protected]
01.06.2006
Ref. No 04-82-7055
PERIODIC REPORT
Call specification:
Title:
Reference no:
04-82-7055
Total grant:
120000 EURO
Start date:
01.03.2005
Duration:
36 Months
Weimar, Germany; + 49 (0)3643 584712, +49 (0)3643
584759;
[email protected]
[email protected]
Team information:
Dr.Hans-Bertram Fischer, Institute Bauhaus-University
Weimar, Weimar, Germany, [email protected];
DrSc(Eng) Pavlo Vasyljovych Kryvenko,
Kyiv National University of Civil Engineering
Architecture, Kyiv, Ukraine,
[email protected]
01.06.2006
&
FP7-REGPOT-2011-1
2 Long term recruitment of experts from abroad
Long term recruitment is seen as a second pillar for securing highly qualified HR for the rapidly expanding
research infrastructure of the applicant. Recruitees are sought from acclaimed institutions working in similar
field to the applicant but possessing complementary expertise that will enrich applicant’s pool of knowledge.
Both academic and industrial organizations have been approached, mainly from abroad, where previous
scientific collaboration exists.. Special attention has been given to attempts to reintegrate some of the former
graduates of the Faculty.
Within MAT-MATE, plans are to recruit experts and PhDs from the following institutions/circles:
• Kiev National University of Civil Engineering and Architecture, Scientific Research Institute for
Binders and Materials (SRIBM), world recognized scientific group led by Prof. Pavlo Kryvenko,
expertise in binding/cementitious materials in general and especially in different types of geopolymers
(alkali activated binders), concept of global sustainable development, composite materials with
specific properties, high performance materials and use of waste materials for production of civil
engineering materials. It corresponds to applicant focus on civil engineering most up-to-date materials,
composite materials with specific properties, high performance materials and use of industrial waste
materials. From this group, recruitment of Prof. Kryvenko and one of his specialized PostDoc, Dr.
Kovalchuk, is agreed.
• Prof. Rolf P. Gieler, Bauhaus Universität Weimar and owner of a consultancy company Materials
and Technology Consulting and professor at renowned expert in analyses of damaged reinforced
concrete structures, concepts of rehabilitation and protection, efficiency of rehabilitation works, stateof-art building materials and life-cycle of structures. This expertise requires special knowledge in
surface cleaning, application of polymer modified cement materials, crack injection and corrosion
protecting and application of polymer coatings, testing methods and with methods of quality
management and tools as FMEA and others. Member of various working groups as WTA, VDA and
others. His recruitment will bring specific experience in transferring basic scientific knowledge to
applied research, development of new products and methods, and organizational and quality
management methods.
• Prof. Ulrich Schneider, TU Wien, Faculty of Civil Engineering, Institute of Building Construction
and Technology. Prof. Schneider is well known expert in structural building materials, composites,
and fire resistance of materials; his engagement corresponds to and will boost applicant’s focus on
cementious composite materials with specific properties, such as high temperature resistance,
• Dimitris Vasilakakis, PhD, currently with FLUOR Rotterdam. Dr. Vasilakakis is by education
chemist, his PhD in Germany dealt with industrial utilization of porous concrete and corrosion thereof.
In FLUOR, he is responsible for design and engineering of constructions subject to chemically
aggressive environment, mainly to oils and crude oil. Dr. Vasilakakis is a former Marie Curie
researcher at BUT.
• Dipl. Ing. Johannes Horvath PhD., currently with ALPINE Bau GmBh. Dr. Horvath got his PhD in
material research at TU Wien and currently works as the Head of the ALPINE Technology
Management Department of Material Development and Quality Control. Dr. Horvath is a former
Marie Curie researcher at BUT. Apart from his scientific contribution to the work of the applicant, Dr.
Horvath’s experiences with running material research laboratories will be of great value for the
applicant.
• Petr Svora, PhD, University Sheffield, former doctoral student of the applicant specializing in
composite materials based on matrix from geopolymers (called inorganic polymer composites or alkali
activated materials). Scope of his doctoral thesis was Development of composite alcali activated
members. Dr. Svora is currently working at University of Sheffield, Building Environment Analysis
Unit, on the same topic as his previous specialization - Research and Development of Inorganic
Polymer Composites. His work is focused on design and microstructure studies of high temperature
resistant inorganic matrix of composite materials for civil engineering.
In total, recruitment of seven experts is envisaged and pre-agreed with the persons under consideration.
11
and
• Dr. Sverre Røed-Larsen
SRL HSE Consulting,
Sverre Røed-Larsen
Lassonsgate 1
NO-0270 OSLO
NORWAY
Several types of cooperation is still implementing in the present time:
1.
Cooperation on the project granted by EEA Grants
Title of the project: Preparation of International Research Projects in the Branch of
Exploitation of By-products
Implementation 2011
2.
Cooperation on preparation of EU project MAT-MATE
outermost regions
structures
3.
Cooperation on project granted by European Structural Funds OPVK 2.3
Human Resources in R&D – IPRET:
Title: Increasing of research potential and international reputation of material
engineering research teams
SMLOUVA O POSKYTNUTÍ GRANTU
Z FONDU PRO PODPORU VÝZKUMU
(PROJEKT CZ 0046 - FM EHP A NORSKA)
uzavřená podle § 269 zákona č.513/1991 Sb., Obchodní zákoník, ve znění pozdějších předpisů
Číslo smlouvy: B/CZ0046/4/0051
Národní vzdělávací fond. o.p.s.
Opletalova 25
110 00 Praha 1
IČO 25751417
DIČ CZ25751417
Bankovní účet Fondu – IBAN: 43-1225610277/0100,
(dále „Zprostředkovatel“),
na jedné straně
zastoupený PhDr. Miroslavou Kopicovou, ředitelkou
a
Vysoké učení technické v Brně
Antonínská 548/1,
601 09 Brno
IČO 00216305
DIČ CZ00216305
(dále „Konečný příjemce grantu“)
zastoupený prof. Ing. Karlem Raisem, MBA, rektorem
SRL HSE Consulting,
Sverre Røed-Larsen
Lassonsgate 1
NO-0270 OSLO
NORWAY
zastoupený Sverre Røed-Larsen, jednatelem
na druhé straně,
se dohodli na následujících ujednáních:
Článek 1 - Předmět
1.1 Předmětem této smlouvy je grant poskytovaný Zprostředkovatelem z Fondu pro podporu
výzkumu na realizaci subprojektu s názvem: „Preparation of International Research Projects in
the Branch of Exploitation of By-products“ („subprojekt“), evidenční číslo B/CZ0046/4/0051.
1.2 Konečnému příjemci grantu bude grant, který je financovaný společně Finančními mechanizmy
EHP a Norska a českým státním rozpočtem, poskytnut za podmínek stanovených touto
smlouvou, jejíž nedílnou součástí jsou přílohy č. I. a II.
1.3 Konečný příjemce grantu poskytovaný grant přijímá a zavazuje se, že bude subprojekt realizovat
na svou vlastní odpovědnost a zajistí jeho řádné řízení v souladu s podmínkami této smlouvy.
Článek 2 - Doba trvání subprojektu
2.1 Realizace subprojektu začne dne 24.2.2011 a skončí dne 24.3.2011 (doba trvání 29 dnů).
and
• Dr. Fjola Gudrun Sigtryggsdóttir
Reykjavík University,
Menntevegi 1
100 Reykjavik
ICELAND
1.
Cooperation on the project granted by EEA Grants
Title of the project: Processing of waste materials from industrial production in civil
engineering.
Implementation 2011
2.
Cooperation on preparation of EU project MAT-MATE
outermost regions
structures
3.
The following pages document collaboration between


Doc. Ing. Miroslav Vořechovský, Ph.D. and
Dr.-Ing. Rostislav Chudoba from RWTH Aachen University in Germany.
They have a running bilateral research project sponsored by the Czech Science Foundation.
20090430002239.000000.1.4.2.0
Grantová agentura České republiky
Část JA
Návrh bilaterálního grantového projektu (dále návrh projektu)
Datum vytištění
přihlášky:
30.04.2009
Číslo panelu(ů)
Registrační číslo:
P105
P105/10/J028
Registrační číslo zahraničního
projektu:
HLAVNÍ ZAHRANIČNÍ NAVRHOVATEL (KOORDINÁTOR)
Jméno koordinátora:
Rostislav Chudoba, Dr.-Ing.
Datum narození:
Pracoviště koordinátora:
Institute of Structural Concrete, RWTH Aachen University, Mies-van-der-Rohe-Str. 1,
Aachen, 52074
Národní poskytovatel:
DFG
E-mail koordinátora:
[email protected]
661020CCC
UCHAZEČ a NAVRHOVATEL z ČR
Uchazeč:
Vysoké učení technické v Brně
IČ:
00216305
Sídlo:
Antonínská 548/1, Brno, 60190
Navrhovatel:
doc. Ing. Miroslav Vořechovský, Ph.D.
Pracoviště navrhovatele:
Fakulta stavební, Brno, Veveří 331/95
Rodné číslo:
7702073830
Telefon:
+420 5 4114 7370
Fax:
+420 5 4124 0994
E-mail:
[email protected]
Název projektu česky:
Vývoj a implementace výpočtové platformy pro simulaci kvazi-duktilních kompozitů kombinujících krátká vlákna se
strukturovanou průběžnou výztuží
Název projektu anglicky:
Development and implementation of a simulation framework for quasi-ductile composites combining short fibers and aligned
continuous reinforcement
modelování materiálu;více-škálová simulace;anizotropní poškození;cementové kompozity s
průběžnou výztuží;cementové kompozity s krátkou výztuží;simulace náhodných
Klíčová slova česky:
polí;stochastický model přemostění trhliny;modely svazků vláken
material modeling;multi-scale simulation;anisotropic damage;continuously reinforced
cementitious composites;short fiber reinforced composites;random field simulation;stochastic
Klíčová slova anglicky:
crack bridge model;fiber-bundle models
Datum zahájení:
01/01/2010
Doba řešení (roky):
3
JN,Stavebnictví
Zařazení do číselníku CEP:
JI,Kompositní materiály
JL,Únava materiálu a lomová mechanika
20090430002239.000000.1.4.2.0
Odborní spolupracovníci mimo navrhovatele a event. spolunavrhovatelů, kteří se budou tvůrčím způsobem podílet na řešení projektu.
Jméno a příjmení
Instituce
Drahomír Novák, Prof. Ing. Dr.Sc.
Ústav stavební mechaniky, Fakulta stavební, Vysoké učení technické v Brně
Rostislav Rypl, Ing. (s)
Václav Sadílek, Ing. (s)
Ústav stavebního zkušebnictví, Fakulta stavební, Vysoké učení technické v
Petr Žítt, Ing. (s, OON)
Brně
Ústav stavebního zkušebnictví, Fakulta stavební, Vysoké učení technické v
Pavel Schmid, Ing., Ph.D. (OON)
Brně
Kopie oprávnění k činnosti tvořící součást řešení grantového projektu ve smyslu Zadávací dokumentace čl. 4.2.1.
NENÍ PŘEDMĚTEM PROJEKTU
Uchazeč a navrhovatel svými podpisy na návrhu projektu stvrzují, že:
- se před podpisem návrhu projektu seznámili s obsahem Zadávací dokumentace pro veřejnou soutěž ve výzkumu a vývoji na
podporu grantových projektů základního výzkumu na rok 2010 - bilaterální grantové projekty - (dále Zadávací dokumentace nebo
ZD) a Grantového systému GA ČR 2009 (dále GS) a zavazují se dodržovat jejich ustanovení;
- návrh projektu byl vypracován v souladu se Zadávací dokumentací a GS;
- všechny údaje uvedené v podepsaném výtisku návrhu projektu jsou pravdivé, úplné a nezkreslené a jsou totožné s údaji v
elektronické verzi návrhu projektu podané pomocí aplikace;
- všichni spoluuchazeči, spolunavrhovatelé a spolupracovníci uvedení v návrhu projektu byli seznámeni s věcným obsahem návrhu
projektu, jakož i s finančními požadavky uvedenými v návrhu projektu a dále i s obsahem ZD a GS;
- před podáním návrhu projektu zajistili souhlas výše uvedených osob s účastí na řešení grantového projektu uvedeného v návrhu
projektu za v něm specifikovaných podmínek;
- souhlasí, aby údaje uvedené v tomto návrhu projektu byly použity pro vnitřní informační systém GA ČR a dále souhlasí s
uveřejněním údajů v rozsahu stanoveném v ZD a GS.
..................................................
Podpis navrhovatele
(Vořechovský)
....................................................................................................
Podpis statutárního orgánu a razítko uchazeče
(prof. RNDr. Ing. Petr Štěpánek, CSc., děkan)
..................................................
Datum


Doc. Ing. Miroslav Vořechovský, Ph.D. and
prof. Z.P. Bažant from Northwestern University in Evanston, USA.
They have a running research project KONTAKT sponsored by the Czech Ministry of Education, Youth
and Sports.
The last page of this document show the Fulbright grant authorization for the grantee:


Miroslav Vořechovský and receiving academic institution:
Northwestern University (prof. Bažant).
NÁVRH PROJEKTU
VEŘEJNÁ SOUTĚŽ PROGRAMU MEZINÁRODNÍ SPOLUPRÁCE VE
VÝZKUMU A VÝVOJI MŠMT
KONTAKT
Evideční číslo projektu - přidělí poskytovatel
Označení projektu
StruRel
Název projektu
Spolehlivost konstrukcí s použitím statistické mechaniky
PROGRAM
KONTAKT
Agentura
AMVIS
Spolupracující země
Dvoustranná spolupráce - USA (AMVIS)
Cíl projektu
Projekt má především přinést odpověď na otázku pravděpodobnostního rozdělení pevnosti materiálů a jejich
disipační energie v závislosti na velikosti sledovaného tvaru i objemu konstrukce.
Doba řešení
2010 - 31.12.2012
Uchazeči - řešitelská pracoviště - řešitelský tým (odpovědnost za řešení)
Vysoké učení technické v Brně ( příjemce ) - Ústav stavební mechaniky, Fakulta stavební, Vysoké učení
technické v Brně ( řešitelské pracoviště)
Vořechovský Miroslav doc. Ing. Ph.D. ( řešitel )
1. IDENTIFIKAČNÍ ÚDAJE PROJEKTU
Označení projektu
StruRel
Název projektu
Spolehlivost konstrukcí s použitím statistické mechaniky
Anotace projektu
Projekt doplňuje výzkum prováděný na sesterském pracovišti Northwestern University v USA a má za úkol prohloubit
spolupráci na výzkumu. Cílem je studovat pevnost konstrukcí s ohledem na její spolehlivost; tedy s přihlédnutím ke
stochastické povaze pevnosti materiálu. Výrazným jevem, který bude také studován, je vliv velikosti na pevnost.
Budou studovány konstrukce z kvazikřehkých materiálů jako např. beton, u kterých se poškození vlivem
mechanického zatížení rozvíjí buď inicializací trhliny z hladkého líce, nebo ze zářezu, vrubu či existující trhliny. Má být
nalezen vztah pro střední pevnost i aproximace pravděpodobnostního rozdělení pevnosti konstrukce pro širokou
škálu velikostí i hloubky zářezu či vrubu. Zvláštní pozornost bude věnována právě ocasu rozdělení pevnosti, neboť
ten má fatální vliv na spolehlivý a přitom ekonomický návrh konstrukcí.
Kategorie výzkumu a vývoje
Základní výzkum
Soutěž
VEŘEJNÁ
SOUTĚŽ
PROGRAMU
MŠMT [VSMSMTPMS09]
MEZINÁRODNÍ
Program
KONTAKT [ME]
Velikostní kategorie navrhovaného projektu
Spolupracující země
Dvoustranná spolupráce - USA (AMVIS)
Spolupracující zahraniční partner
Zdeněk P. Bažant
McCormick School Professor and Walter P. Murphy Professor
Civil Engineering Department
A135 Technological Institute
2145 Sheridan Road
Evanston, IL 60208-3109
USA
E-mail address: [email protected]
Phone: (847) 491-4025
Fax: (847) 491-4011
SPOLUPRÁCE
VE
VÝZKUMU
A
VÝVOJI


Ing. Jan Eliáš, Ph.D. and Doc. Ing. Miroslav Vořechovský, Ph.D. and
Dr. Jia-Liang Le University of Minnesota, Minnesota, USA.
They have a running collaboration on Fatigue of quasibrittle materials.
The cooperation was established during the Fulbright stay of Jan Eliáš at Northwestern University
under prof. Zdeněk P. Bažant’s supervision in 2009/2010. At that time, Jia-Liang Le was a doctoral
student of prof. Zdeněk P. Bažant. Jan Eliáš and Miroslav Vořechovský then visited Jia-Liang Le at his
new position in Minneapolis for one week and identified a new topic for collaboration – fatigue of
quasibrittle materials. So far, the joint work resulted in i) seminar of Jan Eliáš at University of
Minnesota and ii) one conference paper on fatigue in compression (see below).
17th International Conference
ENGINEERING MECHANICS 2011
Svratka, Czech Republic, 9 – 12 May 2011
MODELING OF FATIGUE CRACK GROWTH IN CERAMICS
UNDER COMPRESSIVE CYCLING
Jan Eliáš*, Jia-Liang Le**
Abstract: This contribution presents a simple numerical model for crack growth under mode-I
compressive fatigue loading. Residual tensile stress at the crack tip, which is responsible for crack
advance, is simulated by the plastic-like behavior in compression. Tensile part of the constitutive law
accommodates a phenomenological hysteresis behavior. This constitutive law is implemented into an
implicit discrete 2D numerical model. The model is used to simulate the compression-compression fatigue
fracturing of ceramics, particularly polycrystalline alumina. It is shown that the model is capable of
capturing trends observed in experimentally obtained crack growth behavior.
Keywords: compression-compression fatigue, discrete model, hysteresis, crack arrest
1. Introduction
Fatigue crack propagation, which determines the durability of structural elements, is of importance in
most civil and mechanical engineering applications. The fatigue crack can propagate under periodic
loads that are much lower than monotonic strengths. A simple and useful predictive tool was given in
Paris & Erdogan (1963), who proposed a power law equation relating the crack growth rate (da/dN) to
the stress intensity factor difference (K). So called Paris-Erdogan law, da/dN =CKm, has two
parameters, C and m, which need to be found by matching experimental results.
Numerical modeling is often used in regimes beyond validity of the analytical formula (e.g.
variable K or short cracks). Key feature of fatigue numerical model is hysteresis, which has been
mostly prescribed phenomenologically, i.e. directly in constitutive law (for instance Desmorat et al.,
2006; Nguyen et al., 2001; Roe & Siegmund, 2003). Recently, the phenomenology of hysteresis has
been overcome by meso-level model – no hysteresis at the level of constitutive models resulted in
combination with a material mesostructure to hysteretic loops in overall specimen response (Grassl &
Rempling, 2008). Though such simulations provide useful insights into mechanisms leading to
loading-unloading hysteresis, they are computationally extremely demanding.
This study focuses on one particular case, where Paris-Erdogan law is not directly applicable, i.e.
the compression-compression mode-I fatigue. Traditionally, an attention has been paid to metallic
materials (e.g. Fleck et al., 1985; Reid et al., 1979) but many experiments were done also on ceramics
(Ewart & Suresh, 1986; Subhash et al., 1999). The crack propagates, because residual tensile stresses
develop at the notch tip at the end of each loading cycle. The local and global stress intensity factors
differ from each other. What is important for the crack propagation is the local one. This local stress
intensity factor evolves during crack propagation and it might be hard to estimate it and use it with the
Paris-Erdogan law. Instead of making analytical attempts, we developed a simple numerical model,
which accommodates both (i) tensile damage-like hysteretic behavior to describe damage
accumulation due to cycling according to Nguyen et al. (2001) and (ii) compressive plastic law, which
produces residual tensile stresses. The model is applied to simulation of crack propagation in
polycrystalline alumina in a specimen with stress concentrator. These results are compared with
experimental observations published in Ewart & Suresh (1986).
*
Jan Eliáš, Ph.D.: Institute of Structural Mechanics, Brno University of Technology, Brno, Veveří 331/95, 602 00, Brno,
Czech Republic; e-mail: [email protected]
**
Jia-Liang Le, Ph.D.: Department of Civil Engineering, University of Minnesota, 500 Pillsbury Drive S.E., Minneapolis,
Minnesota, USA; e-mail: [email protected]


ing. Jan Eliáš, Ph.D. and
Dr. Jan Skoček, Technical University of Denmark, Denmark.
They have a running collaboration on Discrete lattice-particle modeling.
Jan Eliáš used to collaborate with Jan Skoček on discrete modeling of fracture during Jan Eliáš’s
Erasmus stay in Denmark in 2007/2008 under supervision of prof. Henrik Stang. This collaboration
brought i) one conference paper and ii) seminar of Jan Skoček at BUT about discrete modelling. Since
that time, the collaboration was mostly focused on developing discrete lattice-particle model of
concrete.
Discrete modeling of mixed-mode crack growth in concrete
J. Skoček1) , J. Eliáš 2) and H. Stang 3)
1),3)
2)
1)
Department of Civil Engineering, DTU, Lyngby, Denmark
Institute of Structural Mechanics, BUT, Brno, Czech Republic
[email protected]
ABSTRACT
In the framework of cohesive crack models and FEA, simulations of the mixed-mode crack propagation in concrete presents a challenging task both from the numerical point of view and in the
view of material laws definition. In contrary to mode I propagation, mixed-mode crack patterns
are much more complex and can not be predicted a priory. Therefore, remeshing techniques or
XFEM implementation need to be employed, resulting in increased computational demands, especially in 3D. Beyond mode I traction separation law, mode II traction separation law referring
shear opening to a bridging shear stress needs to be defined. Moreover, a law projecting mode I
and II laws into a general direction of the crack opening has to be defined. A description of the
shear dilatancy caused by the roughness of the real crack is a further material law required. Determination of the material parameters presents a complicated process since most of them can not
be measured directly. On the other hand, discrete models leaving the assumption of homogeneity
of the material and moving to simpler material laws on a lower material scale, can be an attractive
choice with at least comparative results to the traditional aforementioned approach.
In the presented contribution, two discrete models based on different assumptions are applied
to simulate mixed-mode fracture tests of laboratory scale specimens under varying loading. The
first model belongs to lattice models discretizing the material into three types of lattice elements aggregate, matrix and ITZ. The elements behave elasto-brittle and with the elastic limit dependent
on the direction of straining. The other model belongs to the group of particle models. Contacts between particles are defined and discretized by nonlinear struts. The models are used to
simulate a non-proportional mixed-mode test. The specimen is loaded in mode I opening up to
the peak load and then sheared/opened under 45◦ . Despite the different assumptions, both models are capable of predicting correctly trends observed in the experiments and have proven to be
convenient alternatives to the traditional approaches, especially when computational demands and
identification of material parameters are considered.
1)
Ph.D. student
Ph.D. student
3)
Professor
2)
• Ing. Nikol Zizkova, Ph.D., Ing. Vít Petránek, Ph.D.
and
• Prof. Dipl.-Ing. Dr. Ulrich Schneider, Dipl.-Ing. Dr. Azra Korjenic
Technische Universität Wien
Institut für Hochbau und Technologie
Karlsplatz 13
A - 1040 Vienna; Austria
1) Preparation and implementation of European project:
Co-operative Research Project - CRAFT – 6th Framework Programme, EU
Contract No COOP-CT-2005-508674,
“CORPTUS - COncrete Railtrack Panels for TUnnel Safety”.
2)
Cooperation on mutual project AKTION between BUT, faculty of Civil
engineering and Technische Universität Wien:
Project Aktion/Kontakt Nr. 2002-19 „Erforschung von neuen Baustoffen unter
Verwendung von Abfallstoffen und ihrer Beitrag zur Umwelt“.
Implementation: 2002
3)
Cooperation on project granted by science technology cooperation program
between Czech Republic and Austria. WTZ Ö-CZ
Project title: Studium der Verhaltung von Wärmeisolierungen aus einfach
erneuerbaren Landwirtschaftsrohstoffquellen
Implementaion 2010-2011.
4)
5)
Cooperation within LLP Erasmus programme since 2003:
Number of academic staff mobility to BUT:
Number of academic staff mobility BUT:
Number of student mobility UMinho to BUT:
Number of student mobility BUT to UMinho:
6
15
5
29
• Ing. Nikol Žižková, Ph.D., Ing. Vít Petránek, Ph.D.
and
• Prof. José Barroso de Aguiar, Ph. D.
Universidade do Minho – University of Minho
School of Engineering
P BRAGA 01
Portugal
Cooperation begun in the year 2008 with University of Minho based on bilateral
agreement Erasmus LLP programme. Since then several types of cooperation is
going on.
1)
Cooperation on series of seminar “Contrubuicão das A Argamassas para a
Eficiência Energética dos Edifícios” Portugal 2008.
2)
Cooperation on preparation of research projects proposal BUT and UMinho:
European research project proposal submitted to Research Fund for Coal&Steel
Submitted
15/09/2010
Title:
Realization of last generation of combustion installations and new
refractory lining materials for energetical and ecological efficiency of heating
furnaces from steel industry.
Implementation:
09/2011 – 08/2013
3) Cooperation on preparation of EU project MAT-MATE
outermost regions
structures
4) Cooperation and implementation of project SUPMAT
material centres
5) Cooperation and implementation of project CEPRI
Title: European Centrum for Creation and Realization of Innovated TechnicalEconomic Study Programmes
European Structural Funds OPVK 7.2 Higher Education
6)
7)
Cooperation within Erasmus programme:
Number of academic staff mobility UMinho to BUT:
Number of academic staff mobility BUT to UMinho:
Number of student mobility UMinho to BUT:
Number of student mobility BUT to UMinho:
2
3
5
9
EUROPEAN COMMISSION
FORM A
RESEARCH DIRECTORATE-GENERAL
Research Fund for Coal and Steel
Proposal overview submission form
for
Research, Pilot and Demonstration projects and
Accompanying Measures for the promotion of knowledge gained
A0. INFORMATION ON THE PROPOSAL1
Proposal Full Name
REALIZATION
OF
LAST
GENERATION
COMBUSTION
INSTALLATIONS AND NEW REFRACTORY LINING MATERIALS
FOR ENERGETICAL
AND ECOLOGICAL EFFICIENCY OF
HEATING FURNACES FROM STEEL INDUSTRY
Proposal Acronym2
ECENEF
Research Area3
Steel
Coal
Type of Proposal4
Research
Starting Date (DD/MM/YYYY)
X
N°
Beneficiary’s
Role9
Connection10
Ac. Measure
Project duration (in months)5
01.07.2011
36
Technical Group7 TGS 9
Research objectives6 Steel 3
8
Pilot /Demonstration
X
Full official
denomination11
Country
name
Total costs
(Euro)
Contribution
requested12
(Euro)
160000
1
CO.
./.
University of Minho
Portugal
2
BEN.
./.
Metallurgical
Research Institute
Bucharest
Romania
3
BEN.
./.
Brno University of
Technology
Czech
Republic
4
BEN.
./.
Valahia University of Romania
Targoviste
50000
50000
5
BEN.
./.
UZINSIDER
ENGINEERING of
Galati
Romania
35000
25000
6
BEN.
./.
VULTURUL Plant
of Comarnic
Romania
80000
25000
7
BEN
/
MJ AMARAL
Portugal
25000
8
BEN
/
MAPEI
Portugal
25000
9
BEN.
./.
Rolling Stoks
Assemblies of Bals
Romania
Grand Total
190000
140000
95000
30000
0
545000
37
FP7-REGPOT-2011-1
Action Plan – Proposed Measures
The following measures/activities are proposed to tackle the main weaknesses of the applicant – insufficient
HR vis-à-vis the present tremendous jump in the quality and the scope of applicant’s experimental facilities.
The Action Plan focuses on support and mobilization of applicant’s human and material resources, on
development of strategic partnerships with other outstanding research and industrial partnering organizations
in the EU, on sharing the research results with the scientific community and potential beneficiaries, on
facilitation of the communication between research entities and the public, and on putting the research into
service of socio-economic needs of the South East Region of the Czech Republic.
1 Exchange of staff and experience with renown academic & industrial partnering organizations
Short to medium term exchanges are seen as first pillar in the strategy to enhance scientific competences of
applicant’s Institutes and in the same time to secure more permanent links to Western European research
space – by strengthening the ties with the partnering organization itself and through it, by applicant’s
competences becoming known to other Western European R&D performers and private sector.
Organizations approached for partnering exchanges are from the pool of recent collaborators and other
relevant players in the research domain of the applicant. Such partners have been selected that work/can
contribute to applicant’s expertise in development of advanced materials with better properties, longer
durability and can be partially produced from recycled materials. Hence their utilization reduces the
exploitation of new resources and lowers the burden on the environment during production
Exchanges planned and Letters of Intent are available with the following research groups:
• TU Vienna, Faculty of Civil Engineering, Institute of Building Construction and Technology,
research group of Prof. Ulrich Schneider, well known expert in structural building materials,
composites, and fire resistance of materials; his engagement corresponds to and will boost applicant’s
focus on cementious composite materials with specific properties, such as high temperature resistance,
• University Greenwich, Fire Safety Engineering Group (FSEG) of Prof. Ed Galea, expertise in
modeling of fire and evacuation. The group specializes in computational fire engineering, including
fire and evacuation modeling and non-emergency pedestrian dynamics.
This expertise corresponds to applicant’s intention to incorporate in cooperation with specialist from
TU Wien newly developed materials into models and thus improve and compare behavior of the
structures under heat load. This will improve knowledge in this scientific area, expand possibilities for
use of newly developed high performance materials and their impact on fire safety. FSEG group has a
long experience in cooperation with worldwide industry and international research projects and thus
applicant’s collaboration with FSEG will also open doors for its further integration into top class world
research.
• Universidade do Minho, Department of Civil Engineering, Centre for Territory, Environment and
Construction, research group of Prof. Barroso Aguiar, expertise in sustainable civil engineering, which
is divided to three main lines: a) construction materials and technologies, b) durability of structures,
and c) rehabilitation and construction project management. Part of construction materials deals with
use of industrial by-products, thermal behavior of materials, new rehabilitation materials and
especially polymers in civil engineering in general and also polymers in concrete PC, PCC.
Laboratories are equipped with modern machines and analytic technologies supported by a very
competent training and research staff that keeps producing a wide range of publications and patents.
This expert exchange will boost applicant’s knowledge especially in polymers, polymers in concrete,
polymer protection of civil engineering materials and experience in European research projects.
Important asset is excellently equipped and well managed laboratory with experience in cooperation
with industry.
• Bauhaus Universität Weimar, Finger Institute for Building Materials Science, research group of Dr.
Ing. Hans-Bertram Fischer. Expertise in research, testing and evaluation of up-to-date as well as
historic materials corresponds to applicant focus on high performance, durable materials with overall
low impact to the environment. Expertise of the group can be dived to three parts: a) cement, mortars,
concrete, b) gypsum materials, and c) polymers PC, PCC, polymer coatings. Especially young
researches from Brno will appreciate ability of the Finger Institute to accept foreign scientists for long
9

Application Form TEMPUS IV – 3rd Call for proposals Joint Projects

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