APMME 2023

Katedra Mechaniki i Podstaw Konstrukcji Maszyn Politechniki Częstochowskiej
ma zaszczyt zaprosić na konferencję

Applications of Physics in Mechanical and Material Engineering
APMME 2023

która odbędzie się
29.06.2023r.
w sali B1 Wydziału Inżynierii Mechanicznej i Informatyki Politechniki Częstochowskiej

Druk wybranych materiałów konferencyjnych planowany jest w czasopismach:

Acta Physica Polonica A, czasopismo posiada IF (na 2020 rok – 0.577) i w wykazie czasopism MNiSzW ma przypisane 70 punktów.

Archives of Metallurgy and Materials, czasopismo posiada IF (na 2020 rok – 0.767) i w wykazie czasopism MNiSzW ma przypisane 40 punktów.

Zakres tematyczny

  • Właściwości fizyczne i chemiczne materiałów
  • Fizyka materii skondensowanej
  • Fizyka stosowana
  • Drgania i stabilność w układach fizycznych
  • Modelowanie materiałów konstrukcyjnych
  • Modelowanie i symulacja, optymalizacja konstrukcji
  • Metody i systemy w projektowaniu maszyn
  • Teoretyczna i stosowana matematyka i fizyka w inżynierii
  • Mechanika eksperymentalna i walidacja numeryczna
  • Symulacje dynamiki maszyn i układów wieloobiektowych

Komitet Naukowy

Dr hab. inż. Wojciech Sochacki, prof. PCz – przewodniczący

Sekcja inżynierii mechanicznej
Dr hab. inż. Janusz Szmidla, prof. PCz – przewodniczący
Dr hab. inż. Dawid Cekus, prof. PCz – wiceprzewodniczący

Sekcja inżynierii materiałowej
Dr hab. Marcin Nabiałek, prof. PCz – przewodniczący
Prof. dr hab. inż. Jerzy J. Wysłocki – wiceprzewodniczący

Sekcja informatyki technicznej i telekomunikacji
Dr hab. inż. Mariusz Kubanek, prof. PCz – przewodniczący
Dr hab. inż. Janusz Bobulski, prof. PCz – wiceprzewodniczący

Prof. dr. Mohd Mustafa Al Bakri Abdullah, Universiti Malaysia Perlis, MY
Doc. dr. Yilmaz Aksu, Akdeniz University Antalya, TR
Prof. dr hab. inż. Jerzy Bajkowski, Lotnicza Akademia Wojskowa w Dęblinie, PL
Dr hab. inż. Marcin Bajkowski, Politechnika Warszawska, PL
Dr hab. Piotr Bała, prof. AGH, Akademia Górniczo-Hutnicza, PL
Dr hab. Katarzyna Błoch, prof. PCz, Politechnika Częstochowska, PL
Dr inż. Wojciech Borek, Politechnika Śląska, PL
Dr hab. inż. Dawid Cekus, prof. PCz, Politechnika Częstochowska, PL
Dr hab. inż. Krzysztof Chwastek, prof. PCz, Politechnika Częstochowska, PL
Dr inż. Paweł Czaja, IMIM PAN, PL
Dr hab. Grzegorz Dercz, prof. UŚ, Uniwersytet Śląski, PL
Dr hab. inż. Tomasz Domański, prof. PCz, Politechnika Częstochowska, PL
Dr hab. inż. Artur Durajski, prof. PCz, Politechnika Częstochowska, PL
Dr inż. Sebastian Garus, Politechnika Częstochowska, PL
Dr hab. inż. Piotr Gębara, prof. PCz, Politechnika Częstochowska, PL
Dr hab. inż. Renata Gnatowska, prof. PCz, Politechnika Częstochowska, PL
Dr hab. inż. Adam Gnatowski, prof. PCz, Politechnika Częstochowska, PL
Dr hab. inż. Grzegorz Golański, prof. PCz, Politechnika Częstochowska, PL
Dr Joanna Gondro, Politechnika Częstochowska, PL
Dr inż. Roman Gozdur, Politechnika Łódzka, PL
Prof. Dr. Gultekin Goller, Istanbul Technical University, TR
Dr inż. Marcin Jarosik, Politechnika Częstochowska, PL
Dr inż. Bartłomiej Jeż, Politechnika Częstochowska, PL
Prof. dr hab. inż. Małgorzata Klimek, Politechnika Częstochowska, PL
Dr hab. inż. Marcin Kubiak, prof. PCz, Politechnika Częstochowska, PL
Dr inż. Paweł Kwiatoń, Politechnika Częstochowska, PL
Prof. dr hab. inż. Bogusław Major, czł. koresp. PAN, IMIM PAN, PL
Dr Angelos P. Markopoulos, National Technical University of Athens, GR
Associate Prof. Gayane Marmaryan, Armenian National Agrarian University, AR
Dr Paweł Pietrusiewicz, Politechnika Częstochowska, PL
Prof. dr hab. inż. Bogdan Posiadała, Politechnika Częstochowska, PL
Dr hab. inż. Przemysław Postawa, prof. PCz, Politechnika Częstochowska, PL
Prof. dr hab. inż. Jacek Przybylski, Politechnika Częstochowska, PL
Dr inż. Hanna Purzyńska, Instytut Metalurgii Żelaza, PL
Dr inż. Adam Rylski, Politechnika Łódzka, PL
Prof. Milan Sága, University of Žilina, SK
Associate Prof. dr Andrei Victor Sandu, Gheorghe Asachi Technical University of Iasi, RO
Associate Prof. dr Alžbeta Sapietová, University of Žilina, SK
Prof. Vitalij Savinkin, North Kazakhstan State University, KZ
Dr hab. inż. Krzysztof Sokół, prof. PCz, Politechnika Częstochowska, PL
Dr hab. inż. Marek Sroka, Politechnika Śląska, PL
Associate Prof. dr Andriana Surleva, University of Chemical Technology and Metallurgy, BG
Prof. dr hab. Radosław Szczęśniak, Politechnika Częstochowska, PL
Dr hab. Michal Šofer, VŠB – Technical University of Ostrava, CZ
Dr hab. Agata Śliwa, prof. PŚ, Politechnika Śląska, PL
Dr hab. inż. Tomasz Tański, prof. PŚ, Politechnika Śląska, PL
Prof. Eng. & Ec. Aurel Mihail Titu, Sc. D. & Ph. D., Dr. Habil., DHC, „Lucian Blaga” University of Sibiu, RO
Dr hab. inż. Sebastian Uzny, prof. PCz, Politechnika Częstochowska, PL
Prof. dr Petrică Vizureanu, Gheorghe Asachi Technical University of Iasi, RO
Dr Simon Walters, University of Brighton, Brighton, GB
Prof. dr hab. inż. Robert Zalewski, Politechnika Warszawska, PL
Prof. dr hab. inż. Adam Zieliński, Instytut Metalurgii Żelaza, PL

Komitet Organizacyjny

Przewodniczący
Dr inż. Sebastian Garus

Wiceprzewodniczący
Dr hab. inż. Wojciech Sochacki, prof. PCz
Dr hab. Marcin Nabiałek, prof. PCz
Dr hab. inż. Mariusz Kubanek, Prof. PCz

Członkowie
Dr inż. Paweł Kwiatoń – sekretarz
Dr inż. Bartłomiej Jeż
Associate Prof. dr Andrei Victor Sandu
Dr hab. inż. Renata Gnatowska, prof. PCz
Mgr inż. Justyna Garus

Invited guests

Keynote Speaker

Professor Dr. Mohd Mustafa Al Bakri Abdullah, PTech, MMSET, AAE
Faculty of Chemical Engineering & Technology
Universiti Malaysia Perlis (UniMAP)
Malaysia

Vice President, World Invention Intellectual Property Associations (WIIPA)
Honorary Secretary – Malaysian Research & Innovation Society (MyRIS)

Short Bio:

Mohd Mustafa Al Bakri Abdullah, currently he is Professor at Universiti Malaysia Perlis (UniMAP) and Dean for Faculty of Chemical Engineering & Technology. Area of expertise are concrete processing and testing, geopolymer concrete, green concrete, composite, ceramic, and polymeric concrete. Between 2005 and April 2021, he was appointed several positions such as College Principal, Deputy Dean (Students Affair), Dean (Centre of Diploma Studies, Director (Research Management Centre) and the highest position is an Acting Deputy Vice Chancellor (Research & Innovation) starting 2020 until May 2021. He was awarded Top Research Malaysia (TRMS) in 2013 and received several awards from international and national organizations based on his geopolymer research. Now he is one of the specialists in the geopolymer field and established Center of Excellence Geopolymer & Green Technology (CEGeoGTech), UniMAP the only geopolymer center in ASEAN. This center is number one in ther world for geopolymers based on publications. He also has research funding and collaboration with King AbdulAziz City Science & Technoloy (KACST) Saudi Arabia, European Commission, University of Plymouth UK, Liverpool John Moores University UK and also with few more universities from Greece, Poland, Romania and Indonesia. His achievements include more than 725 journal publications based on Scopus Database (with 41 h-index), and more than 35 books and 40 patents of his research product. He has appointed as Visiting professor at Universiti Sultan Zainal Abidin (UniSZA) Malaysia and Universitas Ubudiyah Indonesia. Also appopinted as Research Advisor to State University of Makassar Indonesia and Associate Researcher in Technical University of Iasi (TUIASI) & Technical University of Cluj-Napoca, Romania and University of Chemical Technology and Metallurgy (UCTM), Bulgaria

RECENT PROGRESS IN GEOPOLYMER CONSTRUCTION MATERIALS RESEARCH: PROCESSING AND PERFORMANCE

Abstract The development of geopolymer research is to step ahead towards searching for green materials with the purpose to minimize or replace the use of ordinary Portland cement (OPC) and emissions of carbon dioxide (CO2). The production method applied is significant and user and eco-friendly with lower consumption of energy. The potential of source materials in a wide range of slag, natural clay, waste and natural Al–Si minerals possibly will provide as potential source materials for the production of geopolymer. current research on geopolymer demonstrates how geopolymer products display superior properties good for many applications including as a new building materials (lightweight concrete, insulating concrete, lightweight brick, lightweight aggregate, a new steel fiber reinforced concrete), a new materials for road base application, as a repair materials, a new materials for corrosion application, a new filler in piping application, as underwater concrete materials, a low sintering temperature ceramic, as reinforced material in solder alloy, lightweight ceramic application and also high strength paste application. The advancement made in the various research of science and technology has helped us to have equivalence or a better quality of existing product. The characteristic and performance of geopolymer products has proved for better thermal insulation properties, higher fire resistance, lower processing temperature, low permeability, good chemical resistance, excellent in acid and salt environment.

Keynote Speaker

Associate Professor Ir. Dr. Mohd Arif Anuar Mohd SALLEH
Universiti Malaysia Perlis (UniMAP)

Dr Mohd Arif Anuar Mohd Salleh is an Associate Professor under the Materials Engineering Programme at the Faculty of Chemical Engineering Technology, Universiti Malaysia Perlis. He was graduated with B.Eng with honours in Mechanical Engineering (2006) followed by M.Eng in Mechanical Engineering majoring in Materials (2007) at the UniversitiTun Hussein Onn Malaysia. He received his PhD in 2016 from the University of Queensland, Australia in the field of Materials Engineering specifically in the development of advance solder materials. He is also a Professional Engineer and registered as a corporate member of the Institute Engineers Malaysia (IEM). He is currently the President of Tin Solder Technology Research Malaysia under the Tin Industry Board (Research and Development), Malaysia. He has experience working and lecturing in the electronic packaging materials field for more than 13 years. Before joining Universiti Malaysia Perlis he was a Failure Analysis Engineer at Intel Malaysia. He also worked as part time research officer for a few research projects on solder materials development at the University of Queensland Australia (2013-2015) and at Imperial College London (2015). He has published more than 200 publications including proceedings, journals, books and modules as the main author and co-author with H-index 18. He was conferred the Top Research Scientist Malaysia award in 2020 by Academy Science Malaysia and was one of the recipient of National Academic Awards Malaysia 2022. In addition, his passion in research has enabled him to secure almost 3 million worth of research grants.

EFFECTS OF DIFFERENT SURFACE FINISH TO THE MICROSTRUCTURE AND PROPERTIES OF SN-BASED SOLDER JOINTS

Abstract The growth and formations of primary intermetallics formed in Sn-3.5Ag soldered on Cu-OSP and ENIG surface finish after multiple reflowed were systematically investigated. Real-time synchrotron imaging was used to investigate the microstructure, focussing on the in-situ growth behavior of primary intermetallics during the solid-liquid-solid interactions. In the case of Sn-3.5Ag/Cu-OSP solder joint, the well-known Cu6Sn5 intermetallic compound (IMC) was observed in each reflows where the size and amount of IMC increase as the increasing number of reflows due to the copper diffusion from the substrate. While for the Sn-3.5Ag/ENIG solder joints, the Ni3Sn4 were formed first followed up with the (Cu,Ni)6Sn5 IMC where formation was detected after the five cycles of reflow. The results obtained shows that the Ni layer from ENIG surface finish possessed excellent barrier to suppressed and control the Cu dissolution from the substrates up to four cycles of reflow. Hence, resulting in thinner and smaller size of primary IMC also producing a stronger solder joint strength for Sn-3.5Ag/ENIG even after repeated reflow process relative to the Sn-3.5Ag/Cu-OSP joints.

Invited Speaker

Eddie Shih
The Director of International Development
World Invention Intellectual Property Associations

Invention is the key to promoting human development and social progress, solving various problems we encounter in our daily life; „invention” exists like a „dream”. WIIPA hopes that everyone has the right to realize their dreams. WIPA Our mission is to make more people’s dreams come true, and the right to realize dreams is not limited to students, we also expect people in the community to learn for life and then practice inventions dream.

Invited Speaker

Ir. Dr. Juyana A Wahab
Program Chairman (Materials Engineering)
Faculty of Chemical Engineering & Technology, UniMAP

Dr. Juyana A Wahab is a Senior Lecturer at the Faculty of Chemical Engineering & Technology at Universiti Malaysia Perlis. Currently serving as the Program Chairman of Materials Engineering, Dr. Juyana is an esteemed professional engineer recognized by the Board of Engineers Malaysia. With expertise in corrosion, surface modification, laser texturing, erosion, and tribology, Juyana has contributed significantly to research in these areas. They have published 24 research articles indexed in the Scopus database, with an h-index of 7, demonstrating the impact and influence of their work within the scientific community.

Title: Erosion Resistance Of Laser Textured Plasma-Sprayed Al2o3-13%Tio2 Coatings On Mild Steel

Invited Speaker

Associate Professor Dr. Dewi Suriyani Che Halin
Faculty of Chemical Engineering & Technology, UniMAP

Dewi Suriyani Che Halin (PhD) is a Senior Lecturer under the Materials Engineering Programme at the Faculty of Chemical Engineering Technology, Universiti Malaysia Perlis. She was graduated with B.Eng with honours in Mineral Resources Engineering (2004) and Master in Science (M. Sc.) in Materials Engineering (2005) at the UniversitiSains Malaysia. She received her PhD in 2009 from the Universiti Kebangsaan Malaysia in the field of Materials Science specifically in the semiconductor materials. She was appointed as a Metallurgical Engineering Program Chairman (2010-2015). She is currently the member of Tin Solder Technology Research Malaysia under the Tin Industry Board (Research and Development), Malaysia, member of Malaysia Board of Technologist and member of Institute of Materials, Malaysia. She has experience working and lecturing in the surface engineering and electronic packaging materials field for more than 11 years. She has published more than 70 publications including proceedings, journals, books and modules as the main author and co-author with H-index 8.

Title: Characterization Of SnO2/TiO2 With The Addition Of Polyethylene Glycol Via Sol-Gel Method For Self-Cleaning Application

Invited Speaker

Dr. Nur Izzati Muhammad Nadzri
Centre of Excellence Geopolymer and Green Technology
Faculty of Chemical Engineering Technology
Universiti Malaysia Perlis, UniMAP

Dr. NurIzzati Muhammad Nadzri (PhD) is a Senior Lecturer Professor under the Materials Engineering Programme at the Faculty of Chemical Engineering Technology, Universiti Malaysia Perlis. He was graduated with B.Eng with honours in Metallurgy Engineering, followed by MSc in Materials Science at the Universiti Malaysia Perlis. She received her PhD in 2021 from Imperial Collge, London in the field of Materials Engineering specifically in the development of thin films. Her research focuses on the nitride based thin films which covers from binary to ternary nitrides and towards the progression from 3D materials to 2D materials. She works closely on the micromechanical properties of materials specifically on microcompression to study the mechanical effect of the material in thin film production. She is also a Professional Engineer registered under Board of Engineer Malaysia (BEM). She is currently working on the development of High Entropy Alloy materials towards thin films application. She also awarded The National grant from the Ministry of Higher Education Malaysia has been awarded to her for her research for RM 174, 000), Malaysia. She is also an active member of Electronic Packaging and Thin Film Group under Center Of Excellenece of Geopolymer and Green Technology, Universiti Malaysia Perlis.

Title: MoNbTaW Ultra Strong High Entropy Alloy

Invited Speaker

Dr. Eng. HANNA PURZYŃSKA

DIRECTOR OF THE MATERIALS RESEARCH CENTER IN ŁUKASIEWICZ-GÓRNOŚLĄSKI INSTYTUT TECHNOLOGICZNY
LIDER IN THE RESEARCH GROUP OF MATERIALS FOR THE POWER INDUSTRY IN ŁUKASIEWICZ- GÓRNOŚLĄSKI INSTYTUT TECHNOLOGICZNY

Dr. Eng. Hanna Purzynska is a director of the Materials Research Center in Łukasiewicz GórnośląskiInstytutTechnologiczny in Gliwice, Poland. As part of herresearch and implementationactivities, shedealsmainly with the issues of creepresistance of steels and alloys, researchmethods and issues of assessment of service life and destruction of materials. It cooperatesmainly with the electricity and heatgenerationindustry, companiesproducingpressureequipmnet as well as repair and diagnosticplants. She manager numerousresearchprojects. Her achievementsincludenumerousstudies in the field of steeldurability for the powerindustry. Sheisauthor and co-author of over 40 publications in domestic and foreignscientific and technicaljournals and conference materials. Sheisauthor and co-author of over 300 researchpapers and expertopinionscommissioneddirectly by the Energy and petrochemical industries.

Member of the Łukasiewicz GIT Council, , reviewer of manyscientificarticles, reviewer in the election of aninnovativescientist of Mazovia in Poland, promoter of manydoctoraldissertations, member of KMM. VIN EuropenVirtual Institute on Knowledge-BasedMultifuncionalMaterials AISBLl, finalist of the Woman of Energy 2022 competition. Honored in the Polish Woman of the 21st Century competition in the Innovations and New Technologies category for “Developing procedures and guidelines for the assessment of power plants during the energy transformation and for the security of the country”.

Title: Microstructural changes and mechanical properties of Inconel 800HT alloy after long-term service

Abstract: Changes in the microstructure and strength properties of the Incoloy 800HT alloy in the delivery condition and after 70,000 hours of service under creep conditions were evaluated. An increase in the number of M23C6 carbide precipitates and the σ(Cr,Ni) phase identified on the basis of their morphological features and places of occurrence revealed in the structure observations was observed in the material after the exploitation. The identification was made on the maps of the distribution of chemical elements and the X-ray phase analysis of the chemical compounds present. Changes in the microstructure caused a decrease in strength properties. This was confirmed by the obtained values of mechanical properties. The studies of the microstructure of the nickel-based Inconel 800HT alloy after long-term exposure to temperature and stress made it possible to assess the dynamics of microstructure changes and the precipitation process, which allowed for an objective interpretation of the degradation of this alloy due to long-term operation under creep conditions.

Terminy i opłaty

Wysokość opłaty konferencyjnej: 600 zł lub 130 EUR.

Opłata konferencyjna obejmuje m.in. publikacje materiałów pokonferencyjnych w czasopismach (po uzyskaniu akceptacji abstraktu przez czasopismo i pozytywnych recenzji):

Opłaty

600 PLN lub 130 € — koszt uczestnictwa w konferencji (opłata dokonana do 31.05.2023r.)

1200 PLN lub 260 € — koszt uczestnictwa w konferencji (opłata dokonana po 31.05.2023r.)

Opłatę prosimy kierować (po akceptacji streszczenia):
Numer konta: 06 1750 1211 0000 0000 0416 8728

Nazwa banku: BNP Paribas Bank Polska

Politechnika Częstochowska
ul. J.H. Dąbrowskiego 69
42-201 Częstochowa

w tytule przelewu prosimy zamieścić poniższe dane:
1.0141 APMME 2023, imię nazwisko uczestnika (-ów), uczelnia (lub miejsce zatrudnienia)

Registration Fee

130 € — Conference registration fee (payment made by May 31, 2023)

260 € — Conference registration fee (payment made after May 31, 2023)

Payment includes:
Conference fee covers: the participation, conference materials (after obtaining the abstract’s approval and positive reviews).

Please pay the fee to the account (after the abstracts have been approved by the organizing committee and the editors of the journal):
PL 06 1750 1211 0000 0000 0416 8728
SWIFT: PPABPLPKXXX

Bank name: BNP Paribas Bank Polska

Czestochowa University of Technology
ul. J.H. Dąbrowskiego 69
42-201 Częstochowa

please include the following details in the title of the transfer:
1.0141 APMME 2023, name surname of participant (s), university (or place of employment)

Ważne terminy

14.05.2023
– drugi termin przesyłania abstraktów do czasopisma Acta Physica Polonica A
do 31.05.2023
– 600 PLN lub 130 € — koszt uczestnictwa w konferencji
po 31.05.2023
– 1200 PLN lub 260 € — koszt uczestnictwa w konferencji
29.06.2023
– data konferencji

Program

Program Ramowy Konferencji

10.30-11.00    Rejestracja

11.00-11.30   Otwarcie konferencji

11.30-13.30    Referaty plenarne

11.30
Professor Dr. Mohd Mustafa Al Bakri Abdullah, PTech, MMSET, AAE
RECENT PROGRESS IN GEOPOLYMER CONSTRUCTION MATERIALS RESEARCH: PROCESSING AND PERFORMANCE

11.45
Associate Professor Ir. Dr. Mohd Arif Anuar Mohd SALLEH
EFFECTS OF DIFFERENT SURFACE FINISH TO THE MICROSTRUCTURE AND PROPERTIES OF SN-BASED SOLDER JOINTS

12.00
Eddie Shih
Innovative Inventions with Intellectual Property

12.15
Ir. Dr. Juyana A Wahab
Erosion Resistance Of Laser Textured Plasma-Sprayed Al2o3-13%Tio2 Coatings On Mild Steel

12.30
Associate Professor Dr. Dewi Suriyani Che Halin
Characterization Of SnO2/TiO2 With The Addition Of Polyethylene Glycol Via Sol-Gel Method For Self-Cleaning Application

12.45
Dr. Nur Izzati Muhammad Nadzri
MoNbTaW Ultra Strong High Entropy Alloy

13.00
dr inż. Marcin Jarosik, Eurolaser Poland Sp. z o. o., Politechnika Częstochowska
Cutting Technical Textile Materials Using a Laser Cutter with a Single Galvanometric Head

13.15
dr hab. n. med. dr n. hum. Sławomir Letkiewicz
Eksperymentalna terapia fagowa – innowacyjna metoda leczenia antybiotykoopornych zakażeń bakteryjnych

13.30
Dr. Eng. Hanna Purzyńska
Microstructural changes and mechanical properties of Inconel 800HT alloy after long-term service

13.45-14.00    Przerwa kawowa

14.00-15.00    Sesja posterowa

15.00-16.30    Zamknięcie konferencji i wręczenie nagród

Acta Physica Polonica A

Abstrakty do akceptacji podobnie jak chęć udziału w konferencji należy zgłaszać poprzez formularz zgłoszeniowy znajdujący się na stronie.

W razie pytań prosimy o kontakt na e-mail konferencji: conf@apmme.pl

Wydruk zgłoszonych prac, które uzyskają akceptacje abstraktów od Redakcji czasopisma, a następnie pozytywne recenzje, jest planowany na listopad 2023r.

Przesłanie zgłoszenia oznacza jednoczesną akceptację Regulaminu konferencji.

Przewidywany jest druk materiałów konferencyjnych (po zaakceptowaniu streszczeń przez redakcję czasopisma, a następnie uzyskanie pozytywnych recenzji pełnych tekstów referatów) w czasopiśmie Acta Physica Polonica A (70 pkt. w wykazie MNiSzW, IF: 0.577).

Pliki do pobrania

Regulamin konferencji APMME 2023
Wytyczne dla autorów artykułów w Acta Physica Polonica A
Szablon artykułu APPA
Zgoda na przetwarzanie danych osobowych i wykorzystanie wizerunku (RODO)
Umowa przeniesienia praw autorskich

Zaakceptowane abstrakty:

  1. Influence of chemical composition on the Curie temperature change in amorphous alloys
    B. Jeż
  2. Core losses in the remagnetization process of soft amorphous Fe based alloys
    M. Nabiałek, B. Jeż
  3. The influence of medium movement on the occurrence of band gaps in quasi two dimensional phononic crystals
    S. Garus, W. Sochacki, J. Rzącki
  4. Squeezed states generation in a three-mode system of nonlinear quantum oscillators
    J.K. Kalaga
  5. A comparative study on primary recrystallization of metallic materials using experimental and numerical simulations
    T.A. Walasek
  6. Numerical evaluation of the impact of selected physical phenomena and riser shape on the formation of shrinkage defects in the casting-riser system
    L. Sowa, T. Skrzypczak
  7. Influence of thermal loads on the microstructure and mechanical properties of structural steel
    T. Domański, W. Piekarska, M. Sága, M. Kubiak, Z. Saternus, Z. Ságová
  8. The problem of modeling hoisting ropes using a viscoelastic material
    P. Kwiatoń
  9. Calorimetric analysis of grain modified Mg-Li alloys
    M. Król
  10. The phenomenon of magnetic anisotropy in amorphous materials produced using the injection-casting method
    B. Jeż, M. Nabiałek, J.J. Wysłocki
  11. Influence of the spin wave stiffness parameter in amorphous materials on saturation magnetisation value
    B. Jeż, M. Nabiałek, P. Postawa
  12. Influence of Hf and Y content on the local occurrence of antiferromagnetic interactions in amorphous Fe based alloys
    P. Postawa, M. Nabiałek, S. Walters, B. Jeż
  13. The influence of structural relaxation on the Holstein-Primakoff paraprocess
    P. Postawa, M. Nabiałek, B. Jeż
  14. Research on the influence of small changes in the chemical composition on changes in the environment of Fe atoms in rapid quenched alloys
    P. Pietrusiewicz, S. Walters, B. Jeż, M. Nabiałek
  15. Influence of metaatom geometry on the occurrence of local resonance regions in two-dimensional finite phononic structures
    S. Garus, W. Sochacki, J. Garus, M. Šofer, P. Šofer
  16. The effect of nitrogen doping on the electrochemical properties of lithium battery anode of activated carbon
    P. Trihutomo, P. Puspitasari, M. B. Radja, M. R. Busono, T. A. T. Abdullah
  17. The influence of the shape of acoustic impedance change on the propagation of a mechanical wave in multilayer phononic structures
    S. Garus
  18. Characterization of doped ZnO thin film for ammonia gas sensing application
    S. Johari, F.A. Hasbullah, A.S. Rosman, M.M. Ramli, M.F. Ahmad, N.A. Karim, N.A. Hashim, N.H. Osman, D. Darminto
  19. Scattering state solutions of Schrodinger equation with Deng-Fan-Eckart oscillator
    C.O. Edet, N. Ali, S.A.A. Rais, M.M. Ramli, S.K. Singh, M. Asjad
  20. Research on magnetic anisotropy in amorphous materials with soft magnetic properties
    K. Jeż, M. Nabiałek
  21. Influence of Co and Fe content on the magnetization process of FeCoYB amorphous alloys
    B. Jeż
  22. Transmission of a binary phononic superlattice made of dynamic materials
    S. Garus, W. Sochacki, J. Garus, J. Rzącki, P. Vizureanu, A.V. Sandu
  23. Changes in the surroundings of the central iron atom in amorphous alloys
    P. Pietrusiewicz
  24. Multi-scale analysis of the mechanical properties of crack tip region
    S. Zhufeng, F. Yusof, N. Yusoff
  25. Process of magnetization in strong magnetic fields of amorphous Fe-based alloys
    M. Nabiałek
  26. Influence of defects in amorphous structure on the change of the course of the primary magnetization curve
    K. Błoch
  27. Short range stresses in soft magnetic amorphous iron alloys
    J. Gondro
  28. Study of the real structure of soft magnetic amorphous alloys using Mossbauer spectroscopy
    K. Jeż
  29. The share of additional losses in total core losses in the remagnetization process of amorphous FeB-based alloys
    M. Nabiałek, K. Błoch, B. Jeż
  30. Free volumes and their influence on disaccomodation of magnetic susceptibility
    M. Nabiałek
  31. Changes in the initial magnetic susceptibility in amorphous alloys exhibiting soft magnetic properties
    B. Jeż
  32. Influence of a small addition of Cu on the magnetization process of rapid quenched alloys in strong magnetic fields
    B. Jeż, P. Postawa, M. Nabiałek
  33. The phenomenon of additional losses in Fe – based bulk amorphous alloys
    P. Postawa, M. Nabiałek, B. Jeż
  34. Comparing of C3N and C3B materials with graphene using DFT calculations
    G. Kasprzak
  35. The critical behavior studies in the vicinity of the Curie temperature in the MnCoGe alloy
    K. Kutynia, A. Przybył, P. Gębara
  36. Magnetic interactions and coercivity mechanism in nanocrystalline Nd-Fe-B alloy ribbons with Nb addition
    A. Przybył, M. Rychta, P. Gębara
  37. Strong-Coupling Character of Superconducting Phase in Heavily-Doped cg-C4H4
    M.W. Jarosik
  38. Study of airfoil flow control with micro-cylinders using optical method
    R. Gnatowska, K. Gajewska, P. Niegodajew
  39. Numerical investigations of the influence of cooling rate during solidification on shrinkage cavities and grain formation process
    T. Skrzypczak, E. Węgrzyn-Skrzypczak, L. Sowa
  40. Numerical investigation of the optical properties related to combined periodic and porous surface structures
    M. Dośpiał, K. Gruszka
  41. UV-filtration properties of a quasi-one-dimensional photonic crystal
    K. Gruszka, M. Dośpiał
  42. Influence of Extinction Coefficient on Electromagnetic Wave Transmission in Thin Superlattices
    K. Gruszka
  43. Theoretical and experimental studies of thermomagnetic properties of the LaFe11.0Co0.8Si1.2 alloy
    P. Gębara
  44. Influence of arrangement for elements of bed to flow and heat transfer
    E. Szymanek
  45. Numerical modelling of the influence of changes in a flat solar collector system on thermal efficiency with the use of fractional calculus
    P. Szymanek, E. Szymanek

Archives of Metallurgy and Materials

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