Nauki Techniczne

Archives of Metallurgy and Materials

Zawartość

Archives of Metallurgy and Materials | 2000 | No 2

Pobierz PDF Pobierz RIS Pobierz Bibtex

Bibliografia


[1] A. Couture, AFS Int. Cas. Met. Jour., 9-17, Dec. (1981).

[2] P. Murza-Mucha, W. Karwowski, Aluminium 60, 4, E255-E258 (1984).

[3] S. Yaneva, Z. Metallkde. 75, 5, 395-398 (1984).

[4] D. Munson, J. Inst. Met. 95, 217-219 (1967).

[5] A. M. Zakharow, I. T. Guldin, A. A. Arnold, Yu. A. Matsen ko, Izw. VUZ, Tsvetn. Metal 2, 90-94.

[6] A. M. Zakharow, I. T. Guldin, A. A. Arnold, Yu. A. Matsenko, Izv. AN SSSR, Metally 3, 178-181 (1988).

[7] A. M. Zakharov, I. T. Guldin, A. A. Arnold, Yu. A. Matsen ko, Izv. VUZ., Tsvetn. Metal 4, 89 ( 1988).

[8] A. M. Zakharov, I. T. Guldin, A. A. Arnold, Yu. A. Matsen ko, Izv. VUZ., Tsvetn. Metal. 4, 78 (I 989).

[9] M. Sukiennik, A. Flores - Valdes, A. H. Castillejos - Escobar, F. A. Acosta - - Gonazles, M. I. Pecb - Canul, Arch. Met. 42, 25 (1997).

[10] A.Flores - Valde, M. Sukiennik, A. H. Castillejos - Escobar, F. A. Acosta - Gonazles, M. Mendez - Nonell, Arch. Met. 41, 294 (1996).

[11] Hildebrandt, Proc. Natl. Acad. Sci. USA 13, 267 (1927).

[12] F. Woolleyl, J. F. Elliott, Trans. TMS-AIME 239, 1872 (1967).

[13] S. V. Radcliffe, B. L. Averbach, M. Cohen, Acta Metali. 9,169 (1961).

[14] J. Eldrige, K. L. Komarek, Trans. TMS-AIME 226, 226 (1964).

[15] R. Hultgren, P. D. Desai, D. T. Hawkins, M. Gleiser, K. K. Kelley, Selected Values of the Thermodynamic Properties of Binary Alloys, American Society for Metals, Ohio (1973).

[16] N. S. Jacobson, G. M. Mehrotra, Met. Trans. 24 B (3) 481-486 (1993).

[17] Y. O.Esin, Y. V.Gorbunov, M. S. Petrushevskii, P. V.Geld, Izv. VUZ, Chern. Metali. 2, 8 (1975).

[18] G. I. Batalin , E. A. Beloboro do va, V. A.Stukalo, A. A.Chekhovski i, Ukr. Khim. Zhu. 38 (8) 825 ( 1972).

[19] J.P. Bues, H. Eglami, P. Gaene, Ber. Bunsenges. 85, 333-336 (1981).

[20] S. C. Schaefer, N. A. Gokeen, High Temp. Sci. li, 31-39 (1979).

[21] O. Berth on, G. Petot-Ervans, C. Petot, P. Des re, Compt. Rend. 268, 1939-1942 (1969).

[22] G. I. Batalin, N. N. Minenko, W. S. Sudawcowa, Izv. AN SSSR, Metally 5, 99-103 (1974).

[23] R. J. Fruehan, Met. Trans. I, 805 (1970).

[24] A. Tanaka, Trans. Jpn. Inst. Met. 20, 526 (1979).

[25] J. O. Esin, N. P. Bobrov, M. S. Petrusze wski, P. V. Geld, Zhur. Fiz. Khim. 8 (5) (1987).

[26] R. Schmid, Calphad 4 (2) 101-108 (1980).

Przejdź do artykułu

Autorzy i Afiliacje

Bogusław Onderka
Maksymilian Sukiennik
Krzysztof Fitzner
Pobierz PDF Pobierz RIS Pobierz Bibtex

Bibliografia


[1] J. Wypartowicz, Interpretacja własności termodynamicznych ciekłych roztworów w układzie Cu-Pb-Fe-As, Zeszyty Naukowe Politechniki Śląskiej, 48 1995.

Przejdź do artykułu

Autorzy i Afiliacje

Marian Kucharski
Wiesław Mróż
Janusz Kowalczyk
Marian Wamruz
Piotr Romanowicz
Jerzy Garbacki
Grzegorz Szwancyber
Pobierz PDF Pobierz RIS Pobierz Bibtex

Bibliografia


[1] R. J. Barnhurs t, Zinc and Zinc Alloys. Metals Handbook. X-th ed. 10, 527 (1992).

[2] E. J. Kubel, Expanding Horizonts for ZA Alloys. Metal Progress 7, 51 (1987).

[3] W. Krajewski, Recent Research on Development of the High-Aluminium Zinc Foundry Alloys. Acta Metallurgica Slovaka 4, 2, 198 (1998).

[4] W. Krajewski, The Effect of Ti Addition on Properties of Selected Zn-Al Alloys. Physica Status Solidi (a) 147, 389 (1995).

[5] W. Krajewski, Modification of the High-Aluminium Zinc Alloys with Zn-Ti Master Alloy. Sci. Bull. of the Polish Academy of Sciences: Solidification of Metals and Alloys 22, 124 (I 995).

[6] W. Krajewski, Phases of Heterogeneous Nucleation in the ZnA125 Alloy Modified by Zn-Ti and Al-Ti Master Alloys. Zeitschrift fiir Metallkunde 87, 645 (1996).

[7] W. Krajewski, Investigation of the High-Aluminium Zinc Alloys Grain Refinement Process due to Ti Addition. Archives of Metallurgy 44, 51 (1999).

[8] W. Krajewski, Research of Phase Transformation in High-Aluminium Zinc Foundry Alloys Modified by Ti Addition. Practical Metallography. Special issue 30, 327 (1999).

[9] W. Krajewski, Gibbs Free Energy Changes due to TiAl3 _, Ti (Al, Zn}, Transformation. Archives of Metallurgy 41, 427 (1996).

[IO] W. Krajewski, The Effect of Ti Addition on the Kinetics and Enthalpy of the Supersaturated ZnAI Alloy Phase Transformation. Physica Status Solidi (a) 142, 75 (I 994).

[11] W. Krajewski, Structure and Composition of Ti-base Particles-Substrate of a' Phase Nucleation in Modified Zn-Al Alloys. Materials Engineering 6, 2 I (1999).

[I 2] J. L. Murray, The Al-Zn (Aluminium-Zinc) System. Bulletin of Alloy Phase Diagrams 4, 35 (1983). 3' 152

[13] P. Zięba, W. Gust, Analytical Electron Microscopy of Discontinuous Solid State Reactions. International Materials Review 43, 70 (1998).

[14] I. Manna, Grain Boundary Migration in Solid State Discontinuous Reactions. Interface Sci. 6, 113 (1998).

[15] W. Krajewski, Research on the Heterogeneous Nucleation Mechanism in High-Aluminium Zinc Alloys Modified by Ti Addition. Wydawnictwa AGH, Dissertations Monographies 52, 117, Kraków 1996.

Przejdź do artykułu

Autorzy i Afiliacje

Jakub Deda
Paweł Zięba
Władysław Baliga
Pobierz PDF Pobierz RIS Pobierz Bibtex

Bibliografia


[1] N. Claussen, K. L. Weisskop f, M. Ruhle, J. Am. Ceram. Soc. 69 [3] 288-292 (1986).

[2] Zh. Ding, R. Oberacker, F. Thiimler, J. Europ. Ceram. Soc. 12 [5] 377-383 (1993).

[3] M. Poorteman, P. Descamps, F. Cambier, J. Leriche, B. Thierry, J. Europ. Ceram. Soc. 12 103-109 (1993).

[4] K. Haberko, Z. Pędzich, J. Piekarczyk, M. M. Bućko, M. Faryna, in Eighth CIMTEC Proceedings, ,,Ceramic: Charting the Future", vol. 3, Techna Publishers S.r.l. 2035-2044 (1994).

[5] K. Haberko, Z. Pędzich, G. Róg, M. M. Bućko, M. Fary n a, Eur. J. Solid State Inorg. Chem. 32 593-601 (1995).

[6] Z. Pędzich, K. Haber ko, in Key Engineering Materials Vols 132-136, Trans Tech Publications, Switzerland, 2076-2079 (1997).

[7] J. VIeugeus, O. Van Der Biest, in Key Engineering Materials Vols. 132-136, Trans Tech Publications, Switzerland, 2064-2067 (1997).

[8] J. Babiarz, K. Haberko, Z. Pędzich, J. Piekarczyk, in Key Engineering Materials Vols. 132-136, Trans Tech Publications, Switzerland 2072-2075 (1997).

[9] M. Tay a, S. Hayashi, A. S. Kobayash i, H. S. Yoon, J. Amer. Ceram. Soc. 73 [5] 1382-1391 (1990).

[10] Z. Pędzich, K. Haberko, M. Faryna, in Composite Science and Technology, S. Adali, E. Verijenko (Eds.), University of Natal, Durban, South Africa, 379-384 (1996).

[11] Z. Pędzich, K. Haberko, Ceramics Int. 20 [2] 85-89 (1994).

[12] R. Pampuch, L. Stobierski, Ceramics Int. 17 69-74 (1991).

[13] J. Piekarczyk, K. Haberko, P. Pisarkiewicz, Z. Pędzich, in Fourth Euro-Ceramics, vol. 3, Basic Science - Optimisation of Properties and Performance by Improved Design and Microstructural Control, S. Meriani, V. Sergo (wyd.), Gruppo Editoriale Faenza Editrice S. p. A., 197-204 (1995).

[14] P. J. Goodhew, F. J. Humphreys, Electron Microscopy and Analysis, Taylor & Francis, London - New York - Philadelphia, 1988.

Przejdź do artykułu

Autorzy i Afiliacje

Zbigniew Pędzich
Krzysztof Haberko
Pobierz PDF Pobierz RIS Pobierz Bibtex

Bibliografia


[1] G. I. Taylor, Plastic strain in metals, J. Inst. Metals 62, 307 (1938).

[2] G. Sachs, Zur abteilung einer fleissbedingung, Zeit. Der V.DJ. 72, 739 (1928).

[3] P. Van Houtte, On the equivalence of the relaxed Taylor theory and the Bishop Hill theory for partially constrained plastic deformation of crystals, Mat. Sci. Engng 55, 69 (1982).

[4] G. R. Canova, C. N. Tome, U. F. Kock s, J. J. Jonas, The yield surface of textured polycrystals, J. Mech., Phys. Solids 33, 371 (1985). 183

[5] E. Kroner, Zur plastichen verformung des vielkristalls, Acta Metali 9, 155 (1961).

[6] R. Hill, Continuum micro-mechanics of elastoplastic polycrystals, J. Mech. Phys. Solids 13, 89 (1965).

[7] J. D. Eshelby, The determination of the elastic field of an ellipsoidal inclusion, and related problems, Proc. Roy. Soc. A241, 376 (1957).

[8] B. Budiansky, T. T. Wu, Theoretical prediction of plastic strains of polycrystals, Proc., 4th US Nat. Cong. of Applied Mech., 1175 (1962).

[9] J. W. Hutchinson, Plastic stress-strain relations of FCC polycrystalline metals hardening according to Taylor rule, J. Mech. Phys. Solids 12, 1 l (1964).

[10] J. W. Hutchinson, Plastic deformation of BCC polycrystals, J. Mech. Phys. Solids 12, 25 (1964).

[11] M. Berveiller, A. Zaoui, An extention of the self-consistent scheme to plastically flowing polycrystals, J. Mech. Phys. Solids 26, 325 (1979).

[12] T. Iwakuma, S. Nemat-Nasser, Finite elastic-plastic deformation of polycrystalline metals, Proc. R. Soc. Lond. A394, 87 (1984).

[13] P. Li piński, M. Berveiller, Elastoplasticity of micro-inhomogeneous metals at large strains, Int. J. of Plasticity 5, 149 (1989).

[14] P. Lipiński, Modćlisation du comportement des rnćtaux, en transformations ćlastoplastiques finies, ,l partir des methodes de transition d'echelles, Habilitation, University of Metz (1993).

[15] P. Lipiński, J. Krier, M. Berveiller, Elastoplasticite des metaux en grandes transformations: comportement global et evolution de la structure interne, Rev. Phys. Appliquće 25, 361 (1990).

[16] P. Lipiński, A. Naddari, M. Berveiller, Recent results concerning the modelling of polycrystalline plasticity at large strains, Int. J. Solids Structures 29, 1873 (1992).

[17] K. Wierzbanowski, Some results of a theoretical study of plastic deformation and texture formation in polycrystals, Scientific Bulletins of St. Staszic University of Mining and Metallurgy, No 1132, Phys. Bull. 12 (1987).

[18] M. Berveiller, A. Zaoui, Methode self-consistente en mćcanique des solides hćtćrogeness. 15emc Collogue du Groupe Franęais de Rheologie, Paris, France, 175 (1980).

[19] P. Zattarin, A. Carmasol, P. Lipiński, Une nouvelle approche numerique pour calculer les interactions entre deux inclusions dans un milieu anistrope, Compt. Rend. 3•rne congres de mecanique, SMSM, Maroc, 845 (1997).

[20] A. Baczmański, K. Wierzbanowski, J. Tarasiuk, M. Ceretti, A. Lodini, Anisotropy of Micro-Stresses Measured by Diffraction, Rev. de Metali. 94, 1467 (1997).

[21] A. Baczmański, K. Wierzbanowski, J. Tarasiuk, Models of Plastic Deformation Used for Internal Stress Measurements, Z. Metallkd. 86, 507 (1995).

[22] T. Leffers, Phys. Stat. Sol. 25, 337 (1968).

[23] T. Leffers, A. Kinematic Model for the Plastic Deformation of Face-Centred Cubic Polycrystal Riso Report No 302, Danish Atomic Energy Commission, Riso, Denmark (1975).

[24] K. Wierzbanowski, Z. Jasieński, Some Comments on Sachs and Taylor Type Deformation, Scripta Met 15, 585 (1981 ).

[25] K. Wierzbanowski, J. Jura, W. G. Haije, R. B. Helmholdt, FCC Rolling Texture Transitions in Relation to Constraint Relaxation, Cryst. Res. Techno!. 27, 513 (1992).

[26] E. Kroner, Kontinuumstheorie der Versetzungen and Eigenspannungen, Berlin, Springer-Verlag (1958).

[27] J. F. Nye, Physical properties of crystals, Clarendon, Press Oxford (1957).

[28] L. P. Kubin, G. Canova, The modelling of dislocation patterns, Scripta Metali Mater. 27, 957 (1992).

[29] P. Franciosi, M. Berveiller, A. Zaoui, Latent hardening in copper and aluminium single crystals, Acta Met 28, 273 (1980).

[30] Ch. Schmitt, P. Lipiński, M. Berveiller, Micromechanical modelling of the elastoplastic behaviour of polycrystals containing precipitates. Application to hypo and hyper eutectoid steels, Int. J. Plasticity 13, 183 (1997).

[31] R. Hill, On the elasticity and stability of perfect crystals at finite strain, Math. Proc. Camb. Phil. Soc. 77, 225 (1975).

[32] O. Fassi-Fehri, Le probleme de la paire d'inclusions plastiques et hetćrogenes dans une matrice anisotrope, Ph. D. Thesis, University of Metz (1985).

Przejdź do artykułu

Autorzy i Afiliacje

Patric Zattarin
Andrzej Baczmański
Paweł Lipiński
Krzysztof Wierzbanowski
Pobierz PDF Pobierz RIS Pobierz Bibtex

Bibliografia


[1] D. Apelian, G. K. Sigworth, K. R. Whaler, Assessment of grain refinement and modification of Al-Si foundry alloys by thermal analysis, Trans. of the AFS, 459-469 (1984).

[2] L. Backerud, Recent developments in thermal analysis of aluminium casting alloys, 93rd Casting Congress, San Antonio, TX (1989).

[3] L. Backerud et al., Solidification characteristics of aluminium alloys, I, Des Plaines, ILL, AFS (1990). 196

[4] L. Backerud et al., Solidification characteristics of aluminium alloys, 2, Des Plaines, ILL, AFS (1990).

[5] I. G. Chen, D. M. Stefanescu, Computer-aided differential thermal analysis of spheroidal and compact graphite cast irons, AFS Transactions 30, 947-964 (1984).

[6] D. M. Stefanescu, G. Upadhya, D. Bandyopadhyay, Heat transfer-solidification kinetics modeling of solidification of castings, Metallurgical Transactions, 21 A, 997-1005 (1990).

[7] L. Backerud, E. Krol, J. Tamminen, Solidification characteristics of aluminium alloys, Skanaluminium Universitetforlaget, Oslo, Norway 63-74 (1986).

[8] B. M. Bussian, W. Hardle, Robust smoothing applied to white norse and single outlier contaminated roman spectra, Appl. Spectrosc. 38, 309-313 (1984).

[9] A. Savitsky, M. Golay, Smoothing and differentiation of data by simplified least squares procedures, Anal. Chem. 36 (8), 1627-1639 (1964).

[10] C. R. Brooks, Heat treatment, structure and properties of non-ferrous alloys, AFS, 229-251 (1982).

[11] S. Chu, J. Li, Z. Liu, Z. Shi, H. Fu, On morphologies, microsegregation and mechanical behavior of directionally solidified cobalt-base super alloy at medium cooling rate, Metallurgical and Materials Transactions 25 A, 637-642 (1994).

[12] M. Rappaz, Ph. Thevoz, Solute diffusion model for equiaxed dendritic growth, Acta Metall. 35 (7), 1487-1497 (1987).

[13] M. Rappaz, Ph. Thevoz, Solute diffusion model for equiaxed dendritic growth, Acta Metali. 35 (12), 2929-2933 (1987).

[14] G. Chai, L. Backerud, T. Rolland, L. Arnberg, Dendrite coherency during equiaxed solidification in binary aluminium alloys, Metallurgical and Materials Transactions 26 A, 965-970 (1995).
Przejdź do artykułu

Autorzy i Afiliacje

Jose C. Escobedo Bocardo
Marco A. Ramirez
Jerzy Donizak
Zygmunt Kolenda
Pobierz PDF Pobierz RIS Pobierz Bibtex

Bibliografia


[1] K. Rażniewicz, Tablice cieplne z wykresami, WNT, Warszawa 1966.

[2] A. S. Ochotin, Teploprowodnost' twierdych tie! - sprawocznik, Energoatomizdat, Moskwa 1984.

[3] W. J. Parker, R. J. Jenkins, C. P. Butler, G. L. Abbot, Flash Method of Determining Thermal Diffusivity, Heat Capacity, and Thermal Conductivity, Journal of Applied Physics 32, 9, 1679-1684 (1961).

[4] R. Cerny, J. Toman, A Difference Method for Determining the Thermal Conductivity of Porous Materials in a Wide Temperature Range, High Temperatures-High Pressures 29, 51-57 (1997).

[5] D. Lesnic, L. Elliot, D. B. Ingham, Identification of the Thermal Conductivity and Heat Capacity in Unsteady Noinlinear Heat Conduction Problems Using the Boundary Element Method, Journal of Computational Physics 126, 410-420, (1996).

[6] Z. Malinowski, A. Buczek, T. Telejko, S. Słupek, Określenie współczynnika przewodzenia ciepła metodą rozwiązania odwrotnego, Materiały IV Konferencji. Zastosowanie komputerów w zakładach przetwórstwa metali, I 997, Ustroń-Jaszowiec, pp. 199-206 (in Polish).

[7] T. Telejko, Z. Malinowski, A. Buczek, Analysis of the Inverse Solution in Application to Determining Thermal Conductivity of Metals, Metallurgy and Foundry Engineering 23, 3, 177-185 (1998).

[8] Lykow, Teorija teploprovodnosti, GTTI, Moskwa 1952. [9] T. Kręglewski, T. Rogowski, A. Ruszczyński, J. Szymanowski, Metody optymalizacji w języku FORTRAN, PWN, Warszawa 1984.

[10] J. G. Hust, A. B. Lankford, Report of Investigation Research Materials 8420 and 8421, National Bureau of Standards, Gaithersburg, May 1984.

Przejdź do artykułu

Autorzy i Afiliacje

Tadeusz Telejko
Pobierz PDF Pobierz RIS Pobierz Bibtex

Bibliografia


[1] Cz. Malinowski, Arch. Hutnictwa 3, Series 29, 353 ( 1984).

[2] Cz. Malinowski, ZN AGH, Metalurgia i Odlewnictwo 141, 1456, I (1991).

[3] Cz. Malinowski, Therm. Acta 119, 329 (1987).

[4] Cz.Malinowski, K. Malinowska, ZN AGH Metalurgia i Odlewnictwo, No. 1138, 109, 113 (1987).

[5] Cz. Malinowski, Archives of Metallurgy 2, 32, 203 (1987).

[6] Cz. Malinowski, S. Małecki, K. Malinowska, J. Thermal Anal., Series 32, 1747 ( 1987).

[7] Cz. Malinowski, K. Malinowska, J. Wolter, XIX Oktobarsko Savctovanije Rudara i Metalurga, October 1987, Saopstenija, Knjiga li, 5 I 7-524, Bor-Jugoslavia.

[8] Cz. Malinowski, M. Malinowska, S. Małecki, Therm. Acta 275,117 (1996).

[9] S. Małecki, Cz. Malinowski, Archives of Metallurgy 44, 4 (1999).

[10] W. D. Ponomariev, E.W. Margulis, lzv. AN Kaz. SSR, 3, (1958).

[11] T. Rosenqvist, Metallurg. Trans., Series 9b, 337 (1978).

Przejdź do artykułu

Autorzy i Afiliacje

Stanisław Małecki
Czesław Malinowski

Instrukcja dla autorów

Instructions for Authors


Archives of Metallurgy and Materials is a quarterly journal of Polish Academy of Sciences and Institute of Metallurgy and Materials Science PAS which publishes original scientific papers and reviews in the fields of metallurgy and materials science, foundry, mechanical working of metals, thermal engineering in metallurgy, thermodynamic and physical properties of materials, phase equilibria in the broad context and diffusion. In addition to the regular, original scientific papers and conference proceedings, invited reviews presenting the up-to-date knowledge and monothematic issues devoted to preferred areas of research will be published. Submission of a paper implies that it has not been published previously, that it is not under consideration for publication elsewhere, and that if accepted it will not be published elsewhere in the same form.


When preparing the manuscript, please pay attention to the following rules:


1. Manuscript submission

1.1. Manuscripts to be considered for publication should be submitted to the Editorial Office via www.editorialsystem.com/amm/. Authors should designate corresponding author, whose responsibility is to represent the Authors in contacts with the Editorial Office. The corresponding author receives an e-mail notification confirming the submission of the manuscript to the Editorial Office and is informed about the progress of the review process.


1.2. Manuscript should not exceed 15 pages of full-size paper (A4), must be double spaced (please use 12 point font), with generous margins, and the pages must be numbered. Authors should submit an electronic file of their manuscript in Microsoft Word (minimum : version 2000).


1.3. All manuscripts must be written in good English. Both British and U.S. English are acceptable but Authors should be consistent in their usage. It is sole responsibility of the Authors to make sure that the manuscript is grammatically correct and spell checked. Authors are strongly encouraged to have the manuscript proofread by a native speaker of English or a language professional, before it is submitted to the editorial office. Papers written in poor English will be automatically rejected without being subjected to review.


1.4. Authors should submit an electronic copy of final version of their paper in Microsoft Word Format, shemes (sketches) and figures saved as .eps, .jpeg, or .tiff.


1.5. Articles submitted for publication should include abstract and maximum 5 keywords.


1.6. Please adhere to the following order of presentation:


Author(s) with first names in full and ORCID.

Affiliation(s): in a short form (Institution, City, Country). Use the superscripts (*, **, . . .) after the Authors’ names in case of different affiliations.

Title: All words in lower case (first letter of first word capitalized).


Abstract: maximum 10 lines, including primary objective, research design, methods and procedures, main outcomes and results. Do not use abbreviations in the abstract.

Keywords: 5 maximum.

Main text: Begin on the second page with Introduction, followed by Experimental (Materials and Methods) and/or Theory section, Results, Discussion, and end with Conclusion section and Acknowledgement. When appropriate the Authors may choose to combine Results section and Discussion section into one Results and Discussion section. Make sure the text in sections is divided logically into paragraphs.
Use the decimal system for sections, subsections and (at the most) sub-subsections, as exemplified in the headings of these instructions.
All abbreviations should be spelled out the first time they are introduced in text or references. Thereafter the abbreviation can be used.


Appendices

References

Correspondence address: title, name, postal address, telephone and e-mail address of the corresponding Author, number ORCID.

Figure captions

Tables

2. Manuscript preparation


The editorial system includes:


1. Manuscript, which should contain the full text with figures, tables and signatures to them where they are placed.


2. Figures, tables and signatures to them as separate files.


2.1. Formulae, equations and units
The formulas should be written in Microsoft Equation and MathType with the possibility of editing (not as graphics).
Formulae and equations should be typed on separate lines and numbered consecutively in parentheses on the right side (1) . . . (n). Vectors must be indicated as such. Size of symbols should be kept uniform for all equations in the manuscript. Formulae and equations should be referred to in the text as follows: Eq. (1).
Numbers and units must be separated by a space, e.g. 5.5 wt.%, 273.15 K, 1013 MPa, etc. The only exception are angle degrees, e.g. 90°.

2.2. Figures

Figures should be complete without corrections and additions in the word. Figures are usually printed in reduced size (fitting column width of 85 mm) and this should be taken into account when preparing them. For the best results, make sure that lettering on figures and micrographs is at least 2 mm high after reduction, and the style of labeling must be uniform for all figures. Each figure should have its own caption explaining the content without reference to the text. Figure captions should be typed on a separate page at the end of manuscript. The appropriate place of in the text should be indicated by <Fig. 3 > written in separate line. Figures should be referred to in text as follows: Fig. 1. The magnification must be indicated by a labeled scale marker on the micrograph itself, not drawn below it. For optimum printing quality micrographs should be saved as .eps or .tiff at a resolution of at least 300 dpi while line drawings at a resolution of at least 600 dpi.

2.3. Move file
The authors can make movie files up to 100 MB in MP4 format.
The author at the first reference (Movie 1. Click here) should with the Click here command connect the web address with the place of uploading the movie (hyperlink) and at the end of the article provide a list of hyperlinks (samples: Movie 1, hyperlink, movie no 2, hyperlink ......).

The files will be removed from the edytorial system when rejected or published article (moved to Rejected or Published manuscripts).


2.4. Tables

Tables together with captions should be typed on separate page at the end of manuscript. Tables are to be numbered consecutively using Arabic numbers in the text (TABLE 1 . . . n). A caption must be placed above respective table and should explain the symbols used in the heading and in the left hand column. Tables should be referred to in the text as follows: TABLE 1.


2.5. References

References should be typed on separate pages and numbered consecutively applying the system accepted by the Quarterly (initials and names all authors, journal title [abbreviated according to the Journal Title Abbreviations of Web of Science: http://library.caltech.edu/reference/abbreviations/, everyone abbreviation should be end with a dot - example. Arch.Metall.Mater.] or book title; journal volume or book publisher; page spread; publication year in bracket).

The use of DOI numbers (full notation and linked) is mandatory for each paper and should be formatted as shown in the examples below:

Journals:

[1] L.B. Magalas, Development of High-Resolution Mechanical Spectroscopy, HRMS: Status and Perspectives. HRMS Coupled with a Laser Dilatometer. Arch. Metall. Mater. 60 (3), 2069-2076 (2015). DOI: https://doi.org/10.1515/AMM-2015-0350

[2] E. Pagounis, M.J. Szczerba, R. Chulist, M. Laufenberg, Large Magnetic Field-Induced Work output in a NiMgGa Seven-Lavered Modulated Martensite. Appl. Phys. Lett. 107, 152407 (2015). DOI: https://doi.org/10.1063/1.4933303

[3] H. Etschmaier, H. Torwesten, H. Eder, P. Hadley, Suppression of Interdiffusion in Copper/Tin thin Films. J. Mater. Eng. Perform. (2012).DOI: https://doi.org/10.1007/s11665-011-0090-2 (in press).

Books:

[2] M. H. Kamdar, A.M.C. Westwood, Environment-Sensitive Mechanical Behaviour, New York 1981.

Proceedings:

[3] F. Erdogan, in: H. Liebowitz (Ed.), Fracture 2, Academic Press 684, New York (1968).

Internet resource:

[4] http://www.twi.co.uk/content/fswqual.html

PhD Thesis:

[6] F.M. LIang. World Hyphenation by Computer. PhD thesis, Stanford University, Stanford, CA 94305, June.

Chapter in books:

[7] R. Major, P. Lacki, R. Kustosz, J. M. Lackner, Modelling of nanoindentation to simulate thin layer behavior, in: K. J. Kurzydłowski, B. Major,

P. Zięba (Ed.), Foundation of Materials Design 2006, Research Signpost (2006).

Articles in press:

[8] H. EtschmaIer, H. Torwesten, H. Eder, P. Hadley, J. Mater. Eng. Perform. (2012), DOI: 10.1007/s11665-011-0090-2 (in press).

3. Fees

No honorarium will be paid. The journal does not have article processing charges (APCs) nor article submission charges.

4. Review and proofread process

4.1. Peer review process All submitted manuscripts undergo review by renowned specialists appointed by the Editor-in-Chief and members of the Editorial Board. Reviewers receive guidance to help them perform the review, and submit written opinion on the manuscript together with recommendation to accept as is, or reject, or accept after revision. In the latter case i.e. when revision is requested, the authors are obliged to respond to Editor and Reviewers’ comments in detail and make revisions to the manuscript. A rebuttal to Reviewers’ comments can also be sent via the Editorial System in writing. Decision to reject the article is taken by the Editorial Board with the final decision belonging to the Editor, who may appoint another reviewer if necessary. Reviewers remain anonymous to Authors and their identity cannot be revealed by the Editorial Office.

In a separate file, the authors are requested to suggest names and contact details (affiliations and valid e-mail addresses) of at least three experts who could serve as reviewers.

Brief explanation (2-3 sentence-long) why each person is suitable as a reviewer should also be provided. The suggested reviewers cannot be from the same country as affiliation of the corresponding author. The decision to appoint a reviewer belongs solely to the editor.

4.2. Revised manuscript submission

When revision of a manuscript is requested, Authors should return the revised version of their manuscript as soon as possible. Prompt action may ensure fast publication if a paper is finally accepted for publication in Arch. Metall. Mater. If it is the first revision of an article Authors are requested to return their revised manuscript within 7 days.

If it is the second revision Authors are requested to return their revised manuscript within 1 day.

4.3. Final proofreading

Authors will receive a pdf file with the edited version of their manuscript for final proofreading. This is the last opportunity to view an article before its publication on the journal web site. No changes or modifications can be introduced once it is published. Thus authors are requested to check their proof pages carefully against manuscript within 3 working days and prepare a separate document containing all changes that should be introduced. Authors are sometimes asked to provide additional comments and explanations in response to remarks and queries from the language or technical editors.

5. Original version

Starting from issue 1/ 2018, Volume 63, Archives of Metallurgy and Materials is published in electronic via www.journals.pan.pl. The printed version is printed only for designated libraries (legal basis: Regulation of the Minister of Culture and Art of March 6, 1997).

6. Prevent cases of plagiarism

Readers should be sure that the authors present the results of their work transparently, fair and honest, regardless of whether they are the direct authors, or used the help of a specialized entity (natural or legal person). To prevent cases of plagiarism, "ghostwriting" and "guest Authorship", the Editorial Office will require that the Authors disclosed the contribution of individual Authors in the creation of manuscript (with their affiliations and contributions, i.e. the information who is responsible for: research concept and design, collection and/or assembly of data, data analysis and interpretation, writing the manuscript). Funding sources (together with grant number) must also be revealed. The corresponding Author will bear the main responsibility for the manuscript. Detected cases will be exposed, including notifying the appropriate entities (institutions employing the Authors, scientific societies, associations of editors of scientific journals, etc.).

7. License type

Articles are printed in an open access and distributed under the terms of the Creative Commons Attribution-NonCommercial (CC BY-NC 4.0, https://creativecommons.org/licenses/by-nc/4.0/). This license allows authors to copy and redistribute the material in any medium or format, remix, transform, and build upon the material. Authors may not use the material for commercial purposes. However, this condition does not include dependent works (they may be covered by another license).

Submission of an article to the journal is unequivocal to expressing consent to the publication in both paper and electronic form.

Dodatkowe informacje

Archives of Metallurgy and Materials is covered by the following services:


Arianta, Baidu Scholar, BazTech, Celdes, Chemical Abstracts Service (CAS) - CAplus, Clarivate Analytics (formerly Thomson Reuters) - Current Contents/Engineering, Computing, and Technology, Clarivate Analytics (formerly Thomson Reuters) - Journal Citation Reports/Science Edition, Clarivate Analytics (formerly Thomson Reuters) - Materials Science Citation Index, Clarivate Analytics (formerly Thomson Reuters) - Science Citation Index Expanded, CNKI Scholar (China National Knowledge Infrastructure), CNPIEC, DOAJ (Directory of Open Access Journals), EBSCO (relevant databases), EBSCO Discovery Service, Elsevier - SCOPUS, Genamics JournalSeek, Google Scholar, Index Copernicus, J-Gate, JournalTOCs, KESLI-NDSL (Korean National Discovery for Science Leaders), Microsoft Academic, Naviga (Softweco), Primo Central (ExLibris), ProQuest (relevant databases), ReadCube, ResearchGate, SCImago (SJR), Sherpa/RoMEO, Summon (Serials Solutions/ProQuest), TDNet, TEMA Technik und Management, Ulrich's Periodicals Directory/ulrichsweb, WanFang Data, WorldCat (OCLC)

Ta strona wykorzystuje pliki 'cookies'. Więcej informacji