Laboratory, as part of this <strong>COST</strong> Action) and the subsequent assessment of <strong>da</strong>ta. Furthermore, major emphasis can now be placed on the assessment of <strong>da</strong>ta for Cucontaining systems, very important to the overall project. The results of experimental measurements on the Al-Mn and Al-Fe-Mn systems carried out by the combination of Alean International Ltd, Katholieke Universiteit Leuven, Pechiney, SINTEF, Universität Wien and University of Manchester/UMIST, during the course of the project have proven essential to our understanding of the experimental problems associated with these systems, and to the development of the <strong>da</strong>tabase. 4 Acknowledgements The authors gratefully acknowledge support from NUTEK, Swedish National Board for Industrial and Technical Development (Åke Jansson), National Physical Laboratory, UK (Tim G Chart) and the <strong>COST</strong> Secretariat, DGXII. Valuable discussions with Dr Paul V Evans, Martin C Thornton and Dr Richard Hamerton (Alean International Ltd), Dr Christophe Sigli (Pechiney) and Prof Peter Rogl (Universität Wien) are gratefully acknowledged. 5 References 33Dix/Fin E H Dix, W L Fink, L A Willey, Trans AIME, 1933, 104, 335- 352. 40Fah/Hof E Fahrenhorst, W Hofmann, Metallwirtschaft, 1940,19, 891 -893. 43Phi H W L Phillips, J Inst Metals, 1943, 69, 275-350. 45But/Hum E Butchers, W Hume-Rothery, J Inst Metals, 1945, 71, 78-91. 530bi/Hat I Obinata, E Hata, K Yamaji, Jpn J Inst Met, 1953, 17, 496-501. 58Liv/Voz V A Livanov, V M Vozdvizhenskii, Tr Mosk Aviats Tekhnol Inst, 1958, (31) 84-99. 59Phi H W L Phillips, Annotated Equilibrium Diagrams of Some Aluminium Alloys Systems, The Institute of Metals, Lon<strong>do</strong>n, (1959), Monograph and Report Series, No 25, pp 77-83. 61Phi H W L Phillips, Equilibrium Diagrams of Aluminium Alloys Systems, The Aluminium Development Association, Lon<strong>do</strong>n, (1961), pp 91-96. 64Dri/Kad M E Drits, E S Ka<strong>da</strong>ner, E M Padezhnova, N R Bochvar, Russ J Inorg Chem, 1964, 9, 759-762. 71God/Kos T Gódecke, W Koster, Z Metallkde, 1971, 62, 727-732. 87Mur/McA J L Murray, A J McAlister, R J Schaefer, L A Bendersky, F S Biancaniello, D L Moffat, Metall Trans A, 1987, 18A, 385-392. 87McA/Mur A J McAlister, J L Murray, Bull Alloy Phase Diag, 1987, 8, 438- 447. 91Min/Yam Y Minamino, T Yamane, H Araki, N Takeuchi, Y-S Kang, Y Miyamoto, T Okamoto, Met Trans A, 1991, 22A, 783-786. 92Jan A Jansson, Metall Trans A, 1992, 23A, 2953-2962. 94Ans I Ansara, Thermochemical Database for Light Metal Alloys, <strong>COST</strong> <strong>507</strong>, Concerted Action on Materials Sciences, European Commission, DG XII, Luxembourg, 1995 95Hay/Rob F H Hayes, J A J Robinson, <strong>COST</strong> <strong>507</strong> II Project, Report on Smith Thermal Analysis Studies of Al-Mn (-Fe) Alloys, Manchester - 260 -
Materials Science Centre, November 1994. 95Hay/Ser F H Hayes, A Semeeis, J A J Robinson, <strong>COST</strong> <strong>507</strong> II Project, Report on Smith Calorimeter Experiments in the Ternary Al-Fe- Mn System, Manchester Materials Science Centre, April 1995. 95Rog Ρ Rogl, Universität Wien, Private Communication, July 1995. 95Sig C Sigli, CALPHAD XXIV Conference, Kyoto, Japan, May 1995. 95Sim/Kol C J Simensen, Ρ Kolby, A contribution to the ternary phase diagram of aluminiummanganeseiron, SINTEF Report, STF24 F95085, December 1995. 95Thol M C Thornton, Alean International Ltd, Banbury Laboratory, Private Communication, March 1995. 95Tho2 M C Thornton, Alean International Ltd, Banbury Laboratory, Private Communication, April 1995. 95Wei/Rog F Weitzer, Ρ Rogl, Deutsche Gesellschaft für Materialkunde meeting, Bochum, June 1995. 96Ham R G Hamerton, Alean International Ltd, Banbury Laboratory, Private Communication, June 1996. 96Thol M C Thornton, Alean International Ltd, Banbury Laboratory, Private Communication, January 1996. 96Tho2 M C Thornton, Alean International Ltd, Banbury Laboratory, Private Communication, April 1996. 96Tho3 M C Thornton, Alean International Ltd, Banbury Laboratory, Private Communication, May 1996. 96Tho4 M C Thornton, Alean International Ltd, Banbury Laboratory, Private Communication, September 1996. 96Wei/Rog F Weitzer, Ρ Rogl, F H Hayes, J A J Robinson, Phase Relations in the Aluminium-Rich Part of the System: Aluminium-Iron- Manganese, in "Werkstoff Woche '96, Materialwissenschaftliche Grundlagen", ed. F Aldinger and H Mughrabi, 1997, Deutsche Gesellschaft für Materialkunde, pp 185190. 97Rob/Hay J A J Robinson, F H Hayes, A Semeeis, F Weitzer, Ρ Rogl, Smith Thermal Analysis Studies of the Al-rich Portion of the Al-Mn and Al-Mn-X (X = Fe, Si) Systems, Proceedings of <strong>COST</strong> <strong>507</strong> Final Workshop, Vaals, The Netherlands, March 1997, European Commission, DG XII, Luxembourg. 261
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European Commission COST European c
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European Commission COST European c
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Preface The Final Workshop of the C
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COST 507 STRUCTURE Measurement and
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GRl: Mirtee S.A., Volos Mr.P.Polati
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D9 Dll Fl GR2 II NI S3 SF1 "Thermop
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A Summary of the COST 507 Action an
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Aluminium-based systems Titanium-ba
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An Example using the COST 507 Datab
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Appendix COST 507: Some Key Meeting
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Al - 0.5 Fe, 1 Mg, 0.8 Mn, 0.2 Si (
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Fig 4 Aluminium beverage cans. The
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Fig 6 High pressure compressor vane
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INTRODUCTION All of us are aware of
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In the interaction with materials a
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There was a first warning more than
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Some time ago, the well-known physi
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Today there is a whole range of ins
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The dimension of this reservoir inc
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REFERENCES [ 1 ] G. Petzow, "Man, M
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Trends in Application of Materials
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Raw Materials The Cycle of Material
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i LÌ i.'»Af·· iù^ VV.V.X. iTTa
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1600 OJ 1200 .« 1100 d 1000 900 Si
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Al Phase Relations in the Aluminium
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oundaries of the single phase regio
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Table 1 : Crystallographic Data of
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order to facilitate the evaluation
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(especially around 33 at% Mg) in or
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3.System Ti-Sn-Al-N. The investigat
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6) N.Durlu, U.Gruber, M.Pietzka, H.
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Summary of final report Directional
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calculate the thermodynamic mixing
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Introduction It is the aim of this
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Thermodynamic evaluations for high
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Figure 5 presents the calculated li
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There is a complete lack in the lit
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a.B5 ø.ia 0.15 0.20 0.25 0.30 0.35
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700 [53Phi] 800 +[90Kuz21 ]iquld a
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Thermodynamic Assessments, Experime
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AIN and TiNi_ x is also given. Vari
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satisfied the three requirements of
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84Bey R. Beyers, R. Sinclair, and M
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Material and Methods 2.1 Fabricatio
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3.4 Electronmicroscopy (SEM) and X-
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Tab. 3: Density of the Ti20Albase
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Tab.5. continued TÌ20A1 5CulONi Ti
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Fig. 3: ESMA and Xray diffraction
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Fig.7: Wetting angle of Ti 15A1 lOC
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Thermophysical Properties of Light
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Tab.2 Chemical composition of terna
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700 (AI)+AIFeS¡«_600 KS1275.1 l
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4.2 Thermal conductivity of industr
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4.3 AlSiZn alloys Electrical re
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94Jar/Bra G.Jaroma-Weiland, R.Brand
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MgZn9 (C 14) and Mg2Zn u in the Al
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The three Laves phases were describ
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References [13Ege] G. Eger, Z. Meta
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0.30 0.35 0.40 0.45 0.50 mole fract
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□ [48Koe] 600 500 400 0 0.1 0
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MggZn,, this work □ Single phase,
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Temperatures in °C 0.05 0.10 mole
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Table 2 : Alloy compositions Alloy
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All. Dy 50 Cpexp °C Cpadd Table 5
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Zn ¿Kl Si Fig. 2 : Position of the
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22.5 ■■ 7.5 Temperature ICI Tem
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.to 2.5 "lõõ soo iÍOõ dOõ rtõ
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GR2 Differential Scanning Calorimet
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Time (x10 3 sec) Fig. 1. DSC Thermo
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solidification. It can be seen that
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4. Conclusions Differential scannin
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COST 507 - ROUND Π UNIT II SEZIONE
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[96Sac] The Rrich regions of the
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List of publications in the framewo
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2Contributions: oral or posters p
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1996 REPORT 2 s ' PART: ACTIVITY CA
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[96Sei] Excess Gibbs energy coeffic
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List of publications in the framewo
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Proc. :7 th Meeting on "Syntheses a
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2.1 Solid solubility measurements T
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eviews by Rivlin and Raynor [81 Riv
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inaires. Thesis, Universite Scienti
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Table 1. Review of the ternary phas
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L) Liq+bcc=FeSi+t_1 M) Liq+t 1=FeSi
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Extrapolations based on Ti-C-N S3 B
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value has been accepted in all thre
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with high precision whereas Jonsson
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only fit the hightemperature asym
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Jonsson combined his descriptions o
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Table II. Solubility product of TiC
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Ti-C, Z.Metallkd. 86 (1995) 5 319
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1000 1500 2000 2500 3000 Τ (K) Fig
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o Oí o 3 4 5 6 7
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M^øD^ O Kelley(1944) • Kelley an
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— cale, with Dumitrescu (1997) -
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€ gfc-π m-, .-π-, π-π .-saa J
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+graph 0 TiN 0.2 0.4 0.6 X TiC 0.8
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Binder et al (1992) TiN 1423 K ■
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0.08 600°C 700°C 800°C 900°C 10
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[59Sto]: Ä600°C □ 70D°C O8Q0°
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2000 Cale, with Saunders (1997) —
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An Experimental Investigation of th
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