Division 5.2
Many components in the Aerospace, Power and Automotive engineering sectors are frequently subject to cyclic stresses induced by thermal fluctuations and mechanical loading. In order to design such components it is necessary to have reliable material property data which need to be acquired using agreed and reproducible testing conditions. A new ISO Standard for strain-controlled Thermo-Mechanical Fatigue (TMF) Testing is currently being prepared. To produce a European consensus of current testing practice and to provide a well-established scientific basis for TMF testing a major EU Funded Project has recently been undertaken. This conference will report the findings of this research project which resulted in a new European Code of Practice for TMF Testing. More generally, TMF test methodologies and data interpretation as well as current applications of TMF testing will be covered. The seminar is aimed at engineers, scientists and technical staff of research institutes and industry.
The workshop has been co-organised by BAM and the ESIS TC11 (HTMTC).
| Authors | Affiliation | Subject/Reference |
|---|---|---|
| Hähner et al. | JRC, Inst. F. Energy, Petten, Netherlands et al. | Thermo-mechanical fatigue -The route to standardisation |
| Beck, Rau | University of Karlsruhe Karlsruhe, Germany |
Temperature measurement and control in thermo-mechanical fatigue, Int. J. Fatigue Vol.30 No.2 (2008) 226-233 |
| Kühn, Kahlcke, Brooke | BAM, Berlin, Germany |
A practical nominal temperature tolerance for TMF tests, Int. J. Fatigue Vol.30 No.2 (2008) 277-285 |
| Brendel, Affeldt, Rummel, Hammer | MTU, München, Germany,FH Regensburg |
Measurement and influence on TMF life, Int. J. Fatigue Vol.30 No.2 (2008) 234-240 |
| Andersson, Köster | KIMAB, Stockholm, Sweden ENSMP, Paris, France |
Thermal gradients in round TMF specimens, Int. J. Fatigue Vol.30 No.2 (2008) 391-396 |
| Authors | Affiliation | Subject/Reference |
|---|---|---|
| Pahlavanyali1, Drew2, Rayment1, Rae1 | 1University of Cambridge, UK 2Rolls-Royce, Derby, UK |
Thermo-mechanical fatigue of a polycrystalline superalloythe effect of phase angle on TMF life and microstructure, Int. J. Fatigue Vol.30 No.2 (2008) 330-338 |
| Marchionni, Ranucci, Onofrio | CNR-IENI, Milan, Italy |
Optimisation of start and restart procedurein TMF fatigue testing, Int. J. Fatigue Vol.30 No.2 (2008) 292-297 |
| Loveday1, Klingelhöffer2, Bicego3 , et al. | 1NPL, Teddington, UK 2BAM, Berlin, Germany 3CESI, Milan, Italy |
Analysis of a European inter comparison exercise, Int. J. Fatigue Vol.30 No.2 (2008) 382-390 |
| Hähner, Rinaldi, et al. | JRC, Inst. F. EnergyPetten, Netherlands et al. |
A European Code of Practice for strain controlledthermo-mechanical fatigue testing, Int. J. Fatigue Vol.30 No.2 (2008) 372-381 |
| Authors | Affiliation | Subject/Reference |
|---|---|---|
| McGaw | McGaw Technology Inc.,USA | Strain controlled thermo-mechanical fatigue testing, Standardisation activities in ISO and ASTM: An overview |
| Egly, Lang, Löhe | University of Karlsruhe Karlsruhe, Germany |
Influence of phase-relation and strain-path on the thermo-mechanical fatigue behaviour of CMSX-4 specimens, Int. J. Fatigue Vol.30 No.2 (2008) 249-256 |
| Evans, Screech | University of Wales Swansea UK |
Thermal-mechanical fatigue testing of INCO718, Int. J. Fatigue Vol.30 No.2 (2008) 257-267 |
| Roebuck, Loveday, Brooks | NPL, Teddington, UK |
Characterisation of Nimonic 90 by the use of miniaturised multiproperty mechanical and physical tests, Int. J. Fatigue Vol.30 No.2 (2008) 345-351 |
| Authors | Affiliation | Subject/Reference |
|---|---|---|
| Scholz, Schmidt | University of Technology Darmstadt, Germany |
Experimental experiences in the determination of TMF, LCF and creep life of CMSX-4 in four point bending tests, Int. J. Fatigue Vol.30 No.2 (2008) 357-362 |
| Winter, Riedler, Minichmayr, Eichlseder | University of Leoben, Leoben, Austria | Possibilities to account for the influences of the axial and radial temperature distribution at TMF-testing |
| Colombo1, Mazza1, Holdsworth2, Skelton3 | 1ETH Zürich, Switzerland 2Alstom Power, Rugby, UK 3Imperial College, London, UK |
Thermo-mechanical fatigue tests on uniaxial and component-like specimens of 1CrMoV rotor steel, Int. J. Fatigue Vol.30 No.2 (2008) 241-248 |
| Bardenheier, Rogers | Instron Ltd., High Wycombe, UK | Simulation of complex thermomechanical fatigue |
| Authors | Affiliation | Subject/Reference |
|---|---|---|
| Gallerneau, Bonnand, Pacou, Poirier | ONERA, Chatillon, France | Study and life analysis of multiaxial thermo-mechanical fatigue tests |
| Osgerby, Banks | NPL, Teddington, UK | Thermo-mechanical fatigue testing of corrosion resistant coatings |
| Bychkov, Lukash, Muboyadzhyan, Rekin, Nozhnitsky, Pershin | CIAM, Moscow, Russia |
Thermomechanical fatigue testing for optimization of design-technological solutions on gas turbine, Int. J. Fatigue Vol.30 No.2 (2008) 305-312 |
| Authors | Affiliation | Subject/Reference |
|---|---|---|
| Okazaki, Sakaguchi | Nagaoka University of Techn. Nagaoka, Japan |
Thermo-mechanical fatigue failure of single crystal Ni-Base Superalloy: Importance of microstructures, Int. J. Fatigue Vol.30 No.2 (2008) 318-323 |
| Xu, Rothkegel, Reuter | Rolls-Royce Deutschland Blankenfelde-Mahlow |
Tensile and Bending Thermo-Mechanical Fatigue Testing on Cylindrical and Flat Specimens of CMSX-4 for Design of Future High-Pressure Turbine Blades, Int. J. Fatigue Vol.30 No.2 (2008) 363-371 |
| Riedler, Winter, Minichmayr, Eichlseder | University of Leoben Leoben, Austria | Applicability of plastic and total hysteris energy criterionsfor simulating the TMF lifetime |
| Authors | Affiliation | Subject/Reference |
|---|---|---|
| Minichmayr, Riedler, Winter, Eichlseder | University of Leoben, Leoben, Austria |
TMF fatigue life assessment of aluminium componentsusing the damage rate model of Sehitoglu, Int. J. Fatigue Vol.30 No.2 (2008) 298-304 |
| Figiel1, Brookes2,Peters1, Günther2 | 1German Aerospace Center; Cologne, Germany 2BAM, Berlin, Germany |
Modelling of high temperature fatigue behaviourof metal matrix composites (SiC/Ti-6242), Int. J. Fatigue Vol.30 No.2 (2008) 268-276 |
| Jung, Schnell | Alstom, Baden,Switzerland |
Thermomechanical fatigue behaviour of coatings for industrial gas turbines, Int. J. Fatigue Vol.30 No.2 (2008) 286-291 |
| Baufeld1, Bartsch1, Heinzelmann2 | 1German Aerospace Center; Cologne, Germany 2Univ. of Appl. Sci.Bonn-Rhein-Sieg, Germany |
Advanced thermal gradient mechanical fatigue testingwith oxidation protection coating, Int. J. Fatigue Vol.30 No.2 (2008) 219-225 |
| Bartsch1, Baufeld1, Dalkilic3, Heinzelmann2 | 1German Aerospace Center; Cologne, Germany 2Univ. of Appl. Sci.Bonn-Rhein-Sieg, Germany 3Anadolu University, Eskisehir, Turkey |
Fatigue cracks in a thermal barrier coating system on asuperalloy in multiaxial thermomechanical testing, Int. J. Fatigue Vol.30 No.2 (2008) 211-218 |
| Petersen, Rodrian | Forschungszentrum Karlsruhe, Karlsruhe, Germany |
Thermo-mechanical fatigue behaviour of reduced activation ferrite/martensite stainless steels, Int. J. Fatigue Vol.30 No.2 (2008) 339-344 |
| Authors | Affiliation | Postersubject/Reference |
|---|---|---|
| Nützel1, Affeldt2, Grube1, Göken1, Mughrabi1 | 1Universität Erlangen-Nürnberg, 2MTU, München, Germany | Influence of thermomechanical fatigue
loading on coatedNickel base superalloys, Int. J. Fatigue Vol.30 No.2 (2008) 313-317 |
| Filippini1, Pasquero2 | 1Politecnico Milano, Italy, 2Avio S.p.a., Rivalta, Italy | Multiaxial fatigue of high temperature alloys for gas turbine engines |
| Rybnikov, Getsov | NPO CZKTI St. Petersburg,Russia | New technique and results of thermal fatigue tests of superalloys and coatings |
| Okrajni | Silesian University of TechnologyKatowice, Poland | Modelling of the deformation process
under thermomechanical fatigue conditions, Int. J. Fatigue Vol.30 No.2 (2008) 324-329 |
| Over, Nagy | JRC-Institute for Energy, Petten, Netherlands | Mat-DB participation in TMF standard |
| Egly, Luft, Henne, Beck, Lang, Löhe | University of Karlsruhe Karlsruhe, Germany | Superimposed TMF/HCF loading - experimental techniques and some characteristicresults for Ni base superalloys and cast Aluminium alloys |
| Roth | Technische UniversitätBergakademie Freiberg | Thermo-mechanical Fatigue Behaviour
of a 3rd Generation γ-TiAl Alloy, Int. J. Fatigue Vol.30 No.2 (2008) 352-356 |
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Division 5.2
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