Publikacje

red. Bartłomiej Wierzba

Publikacje z listy filadelfijskiej:

                    2020

64. Maciej Motyka, Wojciech Nowak, Bartek Wierzba, and Witold Chromiński, Characterization of the interface between α and β titanium alloys in the diffusion couple, MMTA (2020) in print

63. Wojciech J. Nowak, Bartek Wierzba, Aleksander Mazurkow, Artur Jaworski, Łukasz Krawczyk, Increase of ductile iron D5S durability by high temperature pre-treatment, Journal of Mining and Metallurgy, Section B: Metallurgy (2020) in print

62. Wojciech Nowak, Krzysztof Siemek, Kamil Ochał, Barbara Kościelniak, Bartek Wierzba, Consequences of different mechanical surface preparation of Ni-base alloys during high temperature exposure, materials 13 (2020) 3529

61. Daria Serafin, Tomasz Bartkowiak, Wojciech J. Nowak, Bartek Wierzba, Influence of microgeometry of iron surface on the oxidation process – a comparison of multiscale geometric methods and their applicability Appl. Surf. Sci. 527 (2020) 146838

60. Wojciech J. Nowak, Małorzata Tomków, Patrycja Wierzba, Kamil  Gancarczyk, Bartek Wierzba, The role of substrate surface roughness on in-pack aluminization kinetics of Ni-base superalloy, Journal of Manufacturing and Materials Processing 4 (2020) 15

59. D. Serafin, W. J. Nowak, B. Wierzba, Differences in oxides morphology as a result of surface preparation of NiFe alloy, Surface & Coatings Technology 385 (2020) 125421

58. G. Smola, M. Drozdz, K. Kyziol, M. Migdalska, Z. Jurasz, B. Wierzba, Z. Grzesik, Modification of the high-temperature performance of thin chromium coatings deposited on valve steels, Materials at High Temperatures 37 (2020) 145

57. W. J. Nowak, T. Kubaszek, M. Goral, B. Wierzba, Durability of underaluminized thermal barrier coatings during exposure at high temperature, Surface & Coatings Technology 382 (2020) 125236

                    2019

56. W. J. Nowak, K. Ochał, P. Wierzba, K. Gancarczyk, B. Wierzba, Effect of Substrate Roughness on Oxidation Resistance of an Aluminized Ni-base Superalloys, Metals 9 (2019) 782-796

55. D. Serafin, W. J. Nowak, B. Wierzba, Mechanically prepared copper surface in oxidizing and non-oxidizing conditions, Applied Surface Science 492 (2019) 607-616

54. D. Serafin, W. J. Nowak, B. Wierzba, The calculation of the diffusion coefficients in ternary multiphase Ti-NiAl system, Computational Materials Science 165 (2019) 1-6

53. W. J. Nowak, D. Serafin, B. Wierzba, Effect of Surface Mechanical Treatment on Oxidation Behavior of FeAl-model Alloy, JMatScience Metals 54 (2019) 9185–9196

52. B. Wierzba, W. J. Nowak, Phase separation during the sedimentation process in Cu-Sn alloy, Physica A 523 (2019) 602-610

51. D. Serafin, W. J. Nowak, B. Wierzba, The effect of surface preparation on high temperature oxidation of Ni, Cu and Ni-Cu alloy, Applied Surface Science 476 (2019) 442-451

50. B. Wierzba, W. J. Nowak, D. Serafin, The sequence of the phase growth during diffusion in Ti based systems, HTMP 38 (2019) 151-187

                    2018 

49. W. J. Nowak, B. Wierzba, Effect of Surface Treatment on High Temperature Oxidation Behavior of IN 713C JMEP 27 (2018) 5280

48. B. Wierzba, W. J. Nowak, The Changes in the Morphology of Bi–Sb System under Centrifugal Force at Room Temperature, Materials 11 (2018) 1065

47. B. Wierzba, W. J. Nowak, The diffusion path model in a ternary multiphase system, Physica A 509 (2018) 265-274

46. W. J. Nowak, B. Wierzba, J. Sieniawski, Effect of Ti and Ta on oxidation kinetic of chromia forming Ni-base superalloys in Ar-O2 based atmosphere, HTMP 37 (2018) 801-806

45. B. Wierzba, W. J. Nowak, D. Serafin, The interface reaction between Titanium and Iron-Nickel alloys, HTMP 37 (2018) 683-691

44. B. Wierzba, T. Mashimo, M. Danielewski, Competition between chemical and gravity forces in binary alloys, HTMP 37 (2018) 285-288

43. M. Drożdż, B. Wierzba, Z. Grzesik, Concentration of point defects in metal deficient Zn1-yO, HTMP 37 (2018) 17-23

                    2017

 42. B. Wierzba, S. Wedrychowicz, W. J. Nowak, P. Wierzba, Z. Grzesik, The voids formation in Ni-Cu alloys, IJMCE 15 (2017) 285-293

41. B. Wierzba, The vacancies formation and agglomeration under centrifugal force, Physica A 484 (2017) 482-487.

40. B. Wierzba, The Kirkendall effect and multi component diffusion simulations, HTMP 36 (2017) 447-451

                    2016

39. K. Dychton, P. Kocurek, P. Rokicki, B. Wierzba, M. Drajewicz and J. Sieniawski, Microstructure and Residual Stress in AMS 6308 Steel after Vacuum Carburizing and Gas Quenching, ACTA PHYSICA POLONICA A 130 (2016) 953-955

38. B. Wierzba, The voids formation during diffusion - two dimensional approach, HTMP 35 (2016) 629-633

37. B. Wierzba, W. Skibiński, The interdiffusion in copper-nickel alloys, Journal of Alloys and Compounds 687 (2016) 104-108

36. B. Wierzba, Phase competition in ternary Ti-Ni-Al system, Physica A 454 (2016) 110-116

35. B. Wierzba, S. Wędrychowicz, W. Skibiński, The marker conservation law in multi-phase systems, HTMP 35 (2016) 209-214

                    2015

34. B. Wierzba, W. Skibiński, The intrinsic diffusivities in multi component systems, Physica A 440 (2015) 100-109

33. B. Wierzba, W. Skibiński, S. Wędrychowicz, P. Wierzba, The voids kinetic during diffusion process, Physica A 433 (2015) 268-273

32. A. Gusak, Bartek Wierzba, M. Danielewski, Electromigration Revisited: Competition between Kirkendall Shift and Backstress in Pure Metals and Two-Phase Alloys, Philosophical Magazine 95 (2015) 1093-1104

31. Bartek Wierzba, Jolanta Romanowska, Maryana Zagula-Yavorska, Janusz Markowski, Jan Sieniawski, The Ni-Al-Zr multiphase diffusion simulations, HTMP 34 (2015) 495-502

30. Bartek Wierzba, J. Romanowska, K. Kubiak, J. Sieniawski, The cyclic carburization process by bi-velocity method, HTMP 34 (2015) 373-379

                    2014

29. Bartek Wierzba, M. Danielewski, The lattice shift generated by two dimensional diffusion process, COMMAT 95 (2014) 192-197

28. Bartek Wierzba, The Kirkendall and Frenkell effects during 2D diffusion process, Physica A 413 (2014) 71–76

27. A. Gusak, B. Wierzba and M. Danielewski, Competition between Kirkendall shift and backstress in interdiffusion revisited – simple analytic model, Philosophical Magazine 94 (2014) 1153–1165

26. Bartek Wierzba, Competition between Kirkendall and Frenkel effects during multicomponent interdiffusion proces, Physica A 403 (2014) 29–34

25. Bartek Wierzba, The Kirkendall effect in single-phase multicomponent systems: dependence on drift and entropy distribution, Philosophical Magazine 94 (2014) 611–623

24. Bartek Wierzba, Katarzyna Tkacz-Śmiech, Andrzej Nowotnik, Kamil Dychtoń, Aluminizing of Nickel Alloys by CVD. The Effect of HCl Flow, Chem. Vap. Deposition 20 (2014) 1–11

                    2013

23. Bartek Wierzba, Katarzyna Tkacz-Śmiech, Diffusion zone formation in aluminized MAR-247 from Bi-velocity Phase Field Method, Physica A 392 (2013) 1100–1110

22. Bartek Wierzba, The Kirkendall effect in binary diffusion couples, Physica A 392 (2013) 2860–2867

21. Bartek Wierzba, Wojciech Skibiński, The generalization of the Boltzmann–Matano method, Physica A 392 (2013) 4316–4324

20. Marek Danielewski, Bartek Wierzba, Katarzyna Tkacz-Śmiech, Andrzej Nowotnik, Bogusław Bożek and Jan Sieniawski, Bi-velocity model of mass transport in two-phase zone of ternary system, Philosophical Magazine 93 (2013) 2044–2056

19. Władysław Pohorecki, Tadeusz Kuc, Beata Ostachowicz, Marek Danielewski, Bartłomiej Wierzba, Tritium production rate in HCLL TBM: Conception of a measurementsystem with application of liquid scintillation technique, Fusion Engineering and Design 88 (2013) 2492– 2496

18. Bartek Wierzba, Katarzyna Tkacz-Śmiech, and Andrzej Nowotnik, Reactive Mass Transport during the Aluminization of Rene-80 Chem. Vap. Deposition 19 (2013) 267–273

17. Marek Danielewski, Bartek Wierzba, Katarzyna Tkacz-Śmiech, Andrzej Nowotnik, Bi-velocity phase field method; reactive diffusion in Ni–Cr–Al., Computational Materials Science 69 (2013) 1–6

                    2012

16. Bartek Wierzba, Entropy production in Cu–Fe–Ni alloys — The bi-velocity method, Physica A 391 (2012) 56–61

15. Bartek Wierzba, Gravity Induced Diffusion: Sedimentation in Condensed Matter, JPEDAV 33 (2012) 437–442

14. Bartek Wierzba, Marek Danielewski, Katarzyna Tkacz-Śmiech, and Jan Sieniawski, The Growth Kinetics of Nickel Aluminide Coatings by the Bi-velocity Method, Chem. Vap. Deposition 18 (2012) 267–273

                    2011

13. Bartek Wierzba, Marek Danielewski, Segregation in multicomponent mixtures under gravity: The bi-velocity method, Physica A 390 (2011) 2325–2332

12. Bartek Wierzba and Marek Danielewski, Entropy production during interdiffusion under internal stress, Philosophical Magazine 91 (2011) 3228–3241

11. B. Grysakowski, J.J. Jasielec, B. Wierzba, T. Sokalski, A. Lewenstam, M. Danielewski, Electrochemical Impedance Spectroscopy (EIS) of ion sensors Direct modeling and inverse problem solving using the Nernst–Planck–Poisson (NPP) model and the HGS(FP) optimization strategy, Journal of Electroanalytical Chemistry 662 (2011) 143–149

10. Marek Danielewski, Bartek Wierzba, Andriy Gusak, M. Pawełkiewicz and J. Janczak-Rusch, Chemical interdiffusion in binary systems; interface barriers and phase competition, JOURNAL OF APPLIED PHYSICS 110 (2011) 123705

                    2010

9. Marek Danielewski, Bartek Wierzba, Thermodynamically consistent bi-velocity mass transport phenomenology, Acta Materialia 58 (2010) 6717–6727

                    2009

8. B. Wierzba, Chem i cal Dif fu sion; Bi-ve loc ity Method, Polish J. Chem., 83 (2009) 1481–1488

7. M. Danielewski and B. Wierzba, Diffusion, drift and their interrelation through volume density, Philosophical Magazine 89 (2009) 331–348

                    2008

6. Marek Danielewski, Bartłomiej Wierzba, Mechano-chemistry; diffusion in multicomponent compressible mixtures, Physica A 387 (2008) 745–756

5. MAREK DANIELEWSKI and BARTLOMIEJ WIERZBA, Modeling the Interdiffusion and Reactive-Diffusion Processes in Multicomponent Systems, METALLURGICAL AND MATERIALS TRANSACTIONS B 39B (2008) 629

4. Marek Danielewski, Bartłomiej Wierzba, Diffusion processes determining the oxidation rate of multicomponent alloys, Corrosion Science 50 (2008) 1161–1168

                    2006

3. M. Danielewski, Bartlomiej Wierzba, Diffusion and stress in tungsten; different time scales, Diffusion and Defect Data – Solid State Data. Pt. A 258-260 (2006) 79

2. Marek Danielewski, Bartlomiej Wierzba, Renata Bachorczyk-Nagy, and Maciej Pietrzyk, Three-Dimensional Interdiffusion Under Stress Field in Fe-Ni-Cu Alloys, JPEDAV 27 (2006) 691-698

                    2005

1. Marek Danielewski and Bartłomiej Wierzba, Unified Description of Interdiffusion in Solids and Liquids, JPEDAV 26 (2005) 573-578

 

 

Pozostałe publikacje:

                    2019

51. D. Serafin , W. J. Nowak, P. Wierzba, S. Wędrychowicz, B. Wierzba, Diffusion Path in Ternary One-Phase Systems: An Overview, AMST 1 (2019) 71-78

                    2018

50. Daria Serafin, Wojciech J. Nowak, Bartek Wierzba, Sedimentation in binary Cu-Sn system, CMMS 18 (2018) 115-121

49. B. WIERZBA, Ścieżka dyfuzji w trójskładnikowych układach równowagi fazowej, Oficyna Wydawnicza Politechniki Rzeszowskiej, Rzeszów, 2016

48. B. Wierzba, The diffusion path in NiCu-Ti ternary diffusion couples, Thermal Science and Engineering Progress 6 (2018) 34–40

47. D. Serafin, B. Wierzba, THE HIGHEST ENTROPY PRODUCTION DURING DIFFUSION, CMMS 18 (2018) 11-17

46. W. J Nowak, B. Wierzba, J. Sieniawski, Surface preparation effect on oxidation kinetics of Ni-base superalloy, Journal of Physics: Conference Series 936 (2018) 012002

                    2017

45. B. Wierzba, W. J. Nowak, P. Wierzba, M. Góral J. Sieniawski, The influence of H2/HCl ratio on aluminizing by CVD method, ADVANCES IN MANUFACTURING SCIENCE AND TECHNOLOGY 41 (2017) 65-74

44. W. J. Nowak, P. Wierzba, B. Wierzba, J. Sieniawski, OXIDE SCALE FORMATION ON IN 792 AT EARLY STAGES OF HIGH TEMPERATURE EXPOSURE, ADVANCES IN MANUFACTURING SCIENCE AND TECHNOLOGY 41 (2017) 65-74

43. B. Wierzba, W. J. Nowak, P. Wierzba, J. Sieniawski, External force field during diffusion - sedimentation in condensed matter, CMMS 17 (2017) 18-21

                    2016

42. K. Tkacz-Śmiech, B. Wierzba, B. Bożek, M. Danielewski, Nitrogen Diffusion and Stresses during Expanded Austenite Formation in Nitriding, Defect and Diffusion Forum 371 (2016) 49-58

41. J. Romanowska, B. Wierzba, J. Markowski, M. Zagula-Yavorska, J. Sieniawski, The Ni-Al-Hf multiphase diffusion, Arch. Metall. Mater. 61 (2016) 587-592

40. B. WIERZBA, The choice of reaction path during ternary diffusion proces, Journal of Physics: Conference Series 738 (2016) 012047

39. B. WIERZBA, THE KIRKENDALL SHIFT AND FRENKEL EFFECT DURING MULTI-COMPONENT DIFFUSION PROCESS, ECCOMAS Congress 2016 VII European Congress on Computational Methods in Applied Sciences and Engineering M. Papadrakakis, V. Papadopoulos, G. Stefanou, V. Plevris (eds.) Crete Island, Greece, 5–10 June 2016

38. B. WIERZBA, Modelowanie procesów transportu masy, Oficyna Wydawnicza Politechniki Rzeszowskiej, Rzeszów, 2016

                    2015

37. B. WIERZBA, W. Skibiński, S. Wędrychowicz, The Frenkel effect during diffusion process, PTM 2015 - Proceedings of the International Conference on Solid-Solid Phase Transformations in Inorganic Materials 2015 393-398

36. W. Skibiński, B. WIERZBA, Competition between Kirkendall and backstress effects during diffusion process, PTM 2015 - Proceedings of the International Conference on Solid-Solid Phase Transformations in Inorganic Materials 2015 399-404

35. B. WIERZBA, W. Skibiński, Calculation of Kirkendall Plane Position in Single and Multiphase Systems, Defect and Diffusion Forum 363 (2015) 40-45

34. B. WIERZBA, P. Wierzba, Competition between Kirkendall Shift and Frenkel effect during 2D diffusion process — Wpływ położenia płaszczyzny Kirkendalla oraz efektu Frenkla podczas procesu dyfuzji wzajemnej, Computer Methods in Materials Science 15 (2015) 176–178

                    2014

33. B. WIERZBA, K. Kubiak, J. Sieniawski, THE MODELING OF ALUMINUM LAYER FORMATION ON NICKEL ALLOYS BY BI-VELOCITY METHOD, 11th World Congress on Computational Mechanics.

32. B. WIERZBA, W. Skibiński, M. Danielewski, The Relation Between Drift, Entropy Distribution and Kirkendall Plane Position During Diffusion, Defect and Diffusion Forum 354 (2014) 67-71.

31. M. Danielewski, B. WIERZBA, K. TKACZ-ŚMIECH, A morphology of diffusion zone from entropy production calculations, Diffusion Foundations 1 (2014) 31–45

                    2013

30. W. SKIBIŃSKI, B. WIERZBA, M. Danielewski, Uogólnienie metody Boltzmanna-Matano — The generalization of the Boltzmann-Matano method in binary systems, Inżynieria Materiałowa 34 (2013) 864–867

29. M. ZAJUSZ, K. TKACZ-ŚMIECH, K. Dychtoń, B. WIERZBA, M. Danielewski, Modelowanie procesu pulsacyjnego nawęglania stali — Pulse carburization of steel – process modelling, Inżynieria Materiałowa 34 (2013) 916–920

28. B. WIERZBA, The migration of Kirkendall plane during diffusion — Kryteria ewolucji płaszczyzny Kirkendalla podczas procesu dyfuzji, Computer Methods in Materials Science 13 (2013) 364–367

27. K. TKACZ-ŚMIECH, B. WIERZBA, A. Nawotnik, M. DANIELEWSKI, Ewolucja strefy dwufazowej podczas dyfuzji wzajemnej w stopach potrójnych — Evolution of two-phase zone during interdiffusion in ternary alloys, Inżynieria Materiałowa 34 (2013) 907–910

                    2012

26. Bartek WIERZBA, Sedimentation in multicomponent solids, Diffusion and Defect Data – Solid State Data. Part A, Defect and Diffusion Forum 323–325 (2012) 523–527

25. P. J. Masset, A. Bogusz, J. Sieniawski, B. WIERZBA, K. TKACZ-ŚMIECH, Optimisation of nickel aluminising by CVD, Diffusion and Defect Data – Solid State Data. Part A, Defect and Diffusion Forum 323–325 (2012) 367–372

24. K. Tkacz-Śmiech, B. WIERZBA, A. Nowotnik, M. Danielewski, Modelowanie i symulacje obróbki cieplno-chemicznej superstopów na bazie niklu — Modelling and simulations of thermochemical treatment of nickel based superalloys, Inżynieria Materiałowa 33 (2012) 613–617

23. M. PAWEŁKIEWICZ, B. WIERZBA, M. J. DANIELEWSKI, J. Janczak-Rusch, Modeling of multi-phase solid state reactions – case of IMC growth, Diffusion and Defect Data – Solid State Data. Part A, Defect and Diffusion Forum 323–325 (2012) 127–132

                    2011

22. B. WIERZBA, M. Danielewski, Thermodynamically consistent formulation of the sedimentation in solids and liquids, Diffusion and Defect Data – Solid State Data. Part A, Defect and Diffusion Forum 309–310 (2011) 275–278

21. W. Skibiński, B. WIERZBA, M. Danielewski, Sedymentacja w ciałach stałych i cieczach — Sedimentation in solids and liquids, Inżynieria Materiałowa 32 (2011) 132–134

20. W. Skibiński, M. Danielewski, J. Sieniawski, B. WIERZBA, Dziś i jutro modelowania i symulacji obróbki cieplno-chemicznej w inżynierii powierzchni — Today and tomorrow, modelling and simulations of thermo-chemical treatment for surface engineering, Ochrona przed Korozją 54 (2011) 71–75

19. B. WIERZBA, M. Danielewski, Composition dependent diffusivities in multi-component systems, Diffusion and Defect Data – Solid State Data. Part A, Defect and Diffusion Forum 312–315 (2011) 127–131

18. Bartek WIERZBA, Bi-velocity reactive mass transport phenomenology; modelling of CVD process — Reakcyjna dyfuzja wzajemna; modelowanie procesu CVD, Computer Methods in Materials Science 11 (2011) 364–368

                    2010

17. B. WIERZBA, O. Politano, S. Chevalier, M. DANIELEWSKI, Numerical determination of intrinsic diffusion in {Fe-Cr-Al} systems, Diffusion and Defect Data – Solid State Data. Pt. A, Defect and Diffusion Forum 297–301 (2010) 948–953

16. J. J. Jasielec, B. WIERZBA, B. GRYSAKOWSKI, T. Sokalski, M. DANIELEWSKI, A. LEWENSTAM, Novel strategy for finding the optimal parameters of ion selective electrodes, ECS Transactions 33 (2010) 19–29

15. B. Bożek, B. WIERZBA, M. Danielewski, Molecular ion channels; electrodiffusion in R3, Diffusion and Defect Data – Solid State Data. Pt. A, Defect and Diffusion Forum 297–301 (2010) 1469–1474

14. M. Danielewski, B. WIERZBA, Bi-velocity method and linear nonreversible thermodynamics interdiffusion in R2, Diffusion and Defect Data – Solid State Data. Pt. A, Defect and Diffusion Forum 297–301 (2010) 1461–1468

                    2009

13. B. WIERZBA, S. Chevalier, O. Politano, M. Danielewski, Numerical determination of intrinsic diffusion coefficient of aluminide coatings on metals, Diffusion and Defect Data – Solid State Data. Pt. A, Defect and Diffusion Forum 289–292 (2009) 269–276

12. A. Lewenstam, T. Sokalski, J. Jasielec, W. Kucza, R. Filipek, B. WIERZBA, M. Danielewski, Modeling non equilibrium potentiometry to understand and control selectivity and detection limit, ECS Transactions 19 (2009) 219–224

11. M. Danielewski, A. Gusak, B. WIERZBA, Corrosion at nanoscale; interface barriers and phase competition — Korozja w nanoskali; granice międzyfazowe i kinetyka procesu, Ochrona przed Korozją 52 (2009) 434–442

10. A. Paszyńska, M. Paszyński, M. Pietrzyk, B. WIERZBA, Cellular automata multi-component diffusion models — Model automatów komórkowych dyfuzji wieloskładnikowej, Computer Methods in Materials Science 9 (2009) 221–227

                    2008

9. B. WIERZBA, M. Danielewski, The analysis of the selective oxidation of multicomponent alloy, Diffusion and Defect Data – Solid State Data. Pt. A, Defect and Diffusion Forum 277 (2008) 145–150

8. B. WIERZBA, M. Danielewski, Stochastic searching of diffusivity in multicomponent alloys by hierarchical genetic strategy, Vísnik Čerkas'kogo Uníversitetu. Seríâ: Fíziko-Matematiční Nauki. 141 (2008)14–19

7. M. Danielewski, B. WIERZBA, B. Kucharska, New possibility to extend Wagner method for oxidation process modelling — Nowe możliwości rozwinięcia metody Wagnera dla modelowania procesu utleniania, Inżynieria Materiałowa 29 (2008) 830–834

6. M. Danielewski, B. WIERZBA, Intrinsic diffusivities and modeling of the diffusion multiples, Diffusion and Defect Data – Solid State Data. Pt. A, Defect and Diffusion Forum 237–276 (2008) 105–112

5. M. Danielewski, B. WIERZBA, Interdiffusion revisited, Diffusion-Fundamentals 1–11 (2008) 11

4. B. WIERZBA, M. Pietrzyk, M. Danielewski, 1.CADiff – the inter and reactive diffusion simulation tool — CADiff – narzędzie do symulacji dyfuzji wzajemnej i reakcyjnej, Computer Methods in Materials Science 8 (2008) 47–53

                    2007

3. B. WIERZBA, M. Danielewski, R. Bachorczyk-Nagy, M. Pietrzyk, The stress field in {Cu-Fe-Ni} diffusion couples, Diffusion and Defect Data – Solid State Data. Pt. A, Defect and Diffusion Forum, 264 (2007) 47–54

2. M. Danielewski, M. Pietrzyk, B. WIERZBA, Electro-mechano-chemistry; transport problem in four time scales, Diffusion and Defect Data – Solid State Data. Pt. B, Solid State Phenomena 129 (2007) 11–17

                    2005

1. M. Danielewski, B. WIERZBA, Kryształ Plancka-Kleinerta; defekty, fale, siły i cząstki w krysztale regularnym — The Planck-Kleinert crystal; the defects, waves, forces and practicles in the cubic crystal, Inżynieria Materiałowa 26 (2005) 222–226

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