2020

• A Critical Reanalysis of Uncontrollable Washboarding Phenomenon in Metal Band Sawing

  Publication

  • K. Orłowski
  • M. Dobrzyński
  • G. Gajowiec
  • M. Lackowski
  • T. Ochrymiuk

  - Materials - 2020

  The article analyzes the cutting process of hard bars. Investigations conducted in industrial conditions demonstrated the presence of surface errors in the machined workpieces in the form of washboard patterns. The purpose of this study was to analyze the results of cutting on band sawing machines with different band saw blades. The cutting processes were conducted on three different horizontal band sawing machine types. Analyzed...

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• Activated Carbon Produced by Pyrolysis ofWaste Wood and Straw for PotentialWastewater Adsorption

  Publication

  • K. Januszewicz
  • P. Kazimierski
  • M. Klein
  • D. Kardaś
  • J. Łuczak

  - Materials - 2020

  Pyrolysis of straw pellets and wood strips was performed in a fixed bed reactor. The chars, solid products of thermal degradation, were used as potential materials for activated carbon production. Chemical and physical activation processes were used to compare properties of the products. The chemical activation agent KOH was chosen and the physical activation was conducted with steam and carbon dioxide as oxidising gases. The eect...

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• An Easy and Ecological Method of Obtaining Hydrated and Non-Crystalline WO3−x for Application in Supercapacitors

  Publication

  • M. Szkoda
  • Z. Zarach
  • K. Trzciński
  • G. Trykowski
  • A. Nowak

  - Materials - 2020

  In this work, we report the synthesis of hydrated and non-crystalline WO3 flakes (WO3−x) via an environmentally friendly and facile water-based strategy. This method is described, in the literature, as exfoliation, however, based on the results obtained, we cannot say unequivocally that we have obtained an exfoliated material. Nevertheless, the proposed modification procedure clearly affects the morphology of WO3 and leads to loss...

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• Autogenous Fiber Laser Welding of 316L Austenitic and 2304 Lean Duplex Stainless Steels

  Publication

  • M. Landowski
  • A. Świerczyńska
  • G. Rogalski
  • D. Fydrych

  - Materials - 2020

  This study presents results of experimental tests on quality of dissimilar welded joints between 316L austenitic and 2304 lean duplex stainless steels, welded without ceramic backing. Fiber laser welded butt joints at a thickness of 8 mm were subjected to non‐destructive testing (visual and penetrant), destructive testing (static tensile test, bending test, and microhardness measurements) and structure observations (macro‐ and...

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• Bio-Based Polyurethane Composites and Hybrid Composites Containing a New Type of Bio-Polyol and Addition of Natural and Synthetic Fibers

  Publication

  • A. Olszewski
  • P. Kosmela
  • A. Mielewczyk-Gryń
  • Ł. Piszczyk

  - Materials - 2020

  This article describes how new bio-based polyol during the liquefaction process can be obtained. Selected polyol was tested in the production of polyurethane resins. Moreover, this research describes the process of manufacturing polyurethane materials and the impact of two different types of fibers—synthetic and natural (glass and sisal fibers)—on the properties of composites. The best properties were achieved at a reaction temperature...

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• Capacitance Enhancement by Incorporation of Functionalised Carbon Nanotubes into Poly(3,4-Ethylenedioxythiophene)/Graphene Oxide Composites

  Publication

  • A. Cymann-Sachajdak
  • M. Sawczak
  • J. Ryl
  • E. Klugmann-Radziemska
  • M. Wilamowska-Zawłocka

  - Materials - 2020

  This paper reports on the role of oxidised carbon nanotubes (oxMWCNTs) present in poly-3,4-ethylenedioxytiophene (PEDOT)/graphene oxide (GOx) composite. The final ternary composites (pEDOT/GOx/oxMWCNTs) are synthesised by an electrodeposition process from the suspension-containing monomer, oxidised carbon nanotubes and graphene oxide. Dissociated functional groups on the surface of graphene oxide play a role of counter-ions for the...

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• Comparative Analysis of Carbon, Ecological, and Water Footprints of Polypropylene-Based Composites Filled with Cotton, Jute and Kenaf Fibers

  Publication

  • J. Korol
  • A. Hejna
  • D. Burchart-Korol
  • J. Wachowicz

  - Materials - 2020

  Composites containing natural fibers are considered environmentally friendly materials which is related to the reduced use of fossil fuels and the emission of carbon dioxide compared to petroleum-based polymers. Nevertheless, a complete evaluation of their environmental impact requires a broader view. This paper presents a carbon, ecological, and water footprints assessment of polypropylene-based composites filled with cotton,...

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• Concrete Compressive Strength Under Changing Environmental Conditions During Placement Processes

  Publication

  • A. Ambroziak
  • P. Ziółkowski

  - Materials - 2020

  The technological process of concrete production consists of several parts, including concrete mix design, concrete mix production, transportation of fresh concrete mix to a construction site, placement in concrete framework, and curing. Proper execution of these steps provides good quality concrete. Some factors can disturb the technological process, mainly temperature and excessive precipitation. Changing daily temperature and...

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• Convenient and Efficient Synthesis of Functionalized 2-Sulfenylindoles

  Publication

  • J. Doroszuk
  • M. Musiejuk
  • B. Jędrzejewski
  • J. Walczak
  • D. Witt

  - Materials - 2020

  A simple, efficient, and practical sulfenylation at the C2 position of N-tosylindoles under mild conditions was developed. The designed transformation is based on the reaction of N-tosylindoles with BuLi and S-alkyl, and S-aryl phosphorodithioates or thiotosylates to produce 2-sulfenylindoles in moderate to high yields. The presence of additional hydroxy, carboxy, or amino functionalities did not disturb the formation of products

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• Corrugated Sheeting as a Member of a Shear Panel Under Repeated Load—Experimental Test

  Publication

  • N. Korcz-Konkol
  • P. Iwicki

  - Materials - 2020

  In stressed-skin design, the cladding stiffening effect on structures is taken into account. However, the “traditional” design is more usual, wherein this effect is neglected. Even if the diaphragm actions are not regarded, in particular cases such as big sheds (and others), the parasitic (unwanted) stressed-skin action may occur with the result of leakage or even failure. The structures of this kind have already been built. Thus,...

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• Detection and Imaging of Debonding in Adhesive Joints of Concrete Beams Strengthened with Steel Plates Using Guided Waves and Weighted Root Mean Square

  Publication

  • E. Wojtczak
  • M. Rucka
  • M. Knak

  - Materials - 2020

  Strengthening of engineering structures is an important issue, especially for elements subjected to variable loads. In the case of concrete beams or slabs, one of the most popular approaches assumes mounting an external reinforcement in the form of steel or composite elements by structural adhesives. A significant disadvantage of adhesive joints is the lack of access to the adhesive film for visual condition assessment, thus, there...

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• Determination of the Bending Properties of Wire Rope Used in Cable Barrier Systems

  Publication

  • D. Bruski

  - Materials - 2020

  This paper presents research on the bending properties of 3 × 7 19-mm wire rope commonly used in road cable barriers. A total of 19 experimental tests were conducted. In addition, two nonlinear 3D numerical models of the wire rope using beam and solid finite elements were developed. Based on these models, four numerical simulations were carried out. The numerical results were validated against the experimental ones and a very good...

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• Diatoms Biomass as a Joint Source of Biosilica and Carbon for Lithium-Ion Battery Anodes

  Publication

  • A. Nowak
  • M. Sprynskyy
  • I. Wojtczak
  • K. Trzciński
  • J. Wysocka
  • M. Szkoda
  • B. Buszewski
  • A. Lisowska-Oleksiak

  - Materials - 2020

  The biomass of one type cultivated diatoms (Pseudostaurosira trainorii), being a source of 3D-stuctured biosilica and organic matter—the source of carbon, was thermally processed to become an electroactive material in a potential range adequate to become an anode in lithium ion batteries. Carbonized material was characterized by means of selected solid-state physics techniques (XRD, Raman, TGA). It was shown that the pyrolysis...

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• Effect of electrode waterproof coating on quality of underwater wet welded joints

  Publication

  • J. Tomków
  • D. Fydrych
  • K. Wilk

  - Materials - 2020

  In this paper, the effects of different hydrophobic coatings on the surface of covered electrodes on the quality of wet welded carbon steel joints were discussed. Commonly available hydrophobic substances used in industrial applications were selected for the research. The aim of using waterproof coatings was to check the possibility to decreasing the susceptibility of highstrength low-alloy S460N steel to cold cracking. During...

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• Effect of the Drying Method of Pine and Beech Wood on Fracture Toughness and Shear Yield Stress

  Publication

  • D. Chuchała
  • J. Sandak
  • K. Orłowski
  • T. Muziński
  • M. Lackowski
  • T. Ochrymiuk

  - Materials - 2020

  The modern wood converting processes consists of several stages and material drying belongs to the most influencing future performances of products. The procedure of drying wood is usually realized between subsequent sawing operations, affecting significantly cutting conditions and general properties of material. An alternative methodology for determination of mechanical properties (fracture toughness and shear yield stress) based...

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• Enhanced Visible Light Active WO3 Thin Films Toward Air Purification: Effect of the Synthesis Conditions

  Publication

  • A. Pancielejko
  • M. Rzepnikowska
  • A. Zaleska-Medynska
  • J. Łuczak
  • P. Mazierski

  - Materials - 2020

  Taking into consideration, our current environmental situation in the world people should face with growing problem of air and water pollution. Heterogeneous photocatalysis is highly promising tool to improve both, air and water quality through decomposition/mineralization of contaminations directly into harmless CO2 and H2O under ambient conditions. In this contribution we focused on the synthesis of self-assembly WO3 thin films...

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• Experimental and Numerical Investigation of Mechanical Properties of Lightweight Concretes (LWCs) with Various Aggregates

  Publication

  • M. Kurpińska
  • T. Ferenc

  - Materials - 2020

  High requirements for the properties of construction materials and activities directed at environment protection are reasons to look for new solutions in concrete technology. This research was directed at solutions affecting the reduction of energy consumption and CO2 emissions. The use of lightweight concretes (LWCs) allows one to meet both conditions at the same time. The purpose of the research presented in this paper was to...

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• Experimental Studies of Concrete-Filled Composite Tubes under Axial Short- and Long-Term Loads

  Publication

  • M. Abramski
  • P. Korzeniowski
  • K. Klempka

  - Materials - 2020

  The paper presents experimental studies on axially compressed columns made of concrete-filled glass fiber reinforced polymer (GFRP) tubes. The infill concrete was C30/37 according to Eurocode 2. The investigated composite pipes were characterized by different angles of fiber winding in relation to the longitudinal axis of the element: 20, 55 and 85 degrees. Columns of two lengths, 0.4 m and 2.0 m, were studied. The internal diameter...

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• Fabrication of ILs-Assisted AgTaO3 Nanoparticles for the Water Splitting Reaction: The Effect of ILs on Morphology and Photoactivity

  Publication

  • J. Zwara
  • A. Pancielejko
  • M. Paszkiewicz-Gawron
  • J. Łuczak
  • M. Miodynska
  • W. Lisowski
  • A. Zaleska-Medynska
  • E. Grabowska-Musiał

  - Materials - 2020

  The design of an active, stable and ecient photocatalyst that is able to be used for hydrogen production is of great interest nowadays. Therefore, four methods of AgTaO3 perovskite synthesis, such as hydrothermal, solvothermal, sol-gel and solid state reactions, were proposed in this study to identify the one with the highest hydrogen generation eciency by the water splitting reaction. The comprehensive results clearly show that...

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• FEM-based wave propagation modelling for SHM: Certain numerical issues in 1D structures

  Publication

  • M. Palacz
  • A. Żak
  • M. Krawczuk

  - Materials - 2020

  The numerical modelling of structural elements is an important aspect of modern diagnostic systems. However, the process of numerical implementation requires advanced levels of consideration of multiple aspects. Important issues of that process are the positive and negative aspects of solution applied methods. Therefore the aim of this article is to familiarise the reader with the most important aspects related to the process of...

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• Ground Tire Rubber Modified by Ethylene-Vinyl Acetate Copolymer: Processing, Physico-Mechanical Properties, Volatile Organic Compounds Emission and Recycling Possibility

  Publication

  • Ł. Zedler
  • P. Burger
  • S. Wang
  • K. Formela

  - Materials - 2020

  Ground tire rubber (GTR) was reclaimed and modified with 10 phr of ethylene-vinyl acetate copolymer via low-temperature extrusion process. Processing, physico-mechanical properties, volatile organic compounds emission, and recycling possibility were investigated. In order to better understand the impact of used modifiers, their efficiency was compared with transpolyoctenamer, which is an additive that is commercially dedicated...

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• High-Temperature Oxidation of Heavy Boron-Doped Diamond Electrodes: Microstructural and Electrochemical Performance Modification

  Publication

  • J. Ryl
  • M. Cieślik
  • A. Zieliński
  • M. Ficek
  • B. Dec
  • K. Darowicki
  • R. Bogdanowicz

  - Materials - 2020

  In this work, we reveal in detail the effects of high-temperature treatment in air at 600 °C on the microstructure as well as the physico-chemical and electrochemical properties of boron-doped diamond (BDD) electrodes. The thermal treatment of freshly grown BDD electrodes was applied, resulting in permanent structural modifications of surface depending on the exposure time. High temperature affects material corrosion, inducing...

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• High-Temperature Structural and Electrical Properties of BaLnCo2O6 Positrodes

  Publication

  • I. Szpunar
  • R. Strandbakke
  • M. Sorby
  • S. Wachowski
  • M. Balaguer
  • M. Tarach
  • J. Serra
  • A. Witkowska
  • E. Dzik
  • T. Norby... and 2 others

  - Materials - 2020

  The application of double perovskite cobaltites BaLnCo2O6−δ (Ln = lanthanide element) in electrochemical devices for energy conversion requires control of their properties at operating conditions. This work presents a study of a series of BaLnCo2O6−δ (Ln = La, Pr, Nd) with a focus on the evolution of structural and electrical properties with temperature. Symmetry, oxygen non-stoichiometry, and cobalt valence state have been examined...

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• Hybrid TiO2–Polyaniline Photocatalysts and their Application in Building Gypsum Plasters

  Publication

  • A. Sulowska
  • I. Wysocka
  • D. Pelczarski
  • J. Karczewski
  • A. Zielińska-Jurek

  - Materials - 2020

  Hybrid materials of conjugated polymer and titanium(IV) oxide have attracted considerable attention concerning their potential benefits, including (i) ecient exploitation of visible light, (ii) a high adsorption capacity for organic contaminants, (iii) and eective charge carriers separation. The new class of the photocatalysts is promising for the removal of environmental pollutants in both aqueous and gaseous phases. For the first...

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• Hydrogen Embrittlement and Oxide Layer E ect in the Cathodically Charged Zircaloy-2

  Publication

  • G. Gajowiec
  • M. Bartmański
  • B. Majkowska-Marzec
  • A. Zieliński
  • B. Chmiela
  • M. Derezulko

  - Materials - 2020

  The present paper is aimed at determining the less investigated effects of hydrogen uptake on the microstructure and the mechanical behavior of the oxidized Zircaloy-2 alloy. The specimens were oxidized and charged with hydrogen. The different oxidation temperatures and cathodic current densities were applied. The scanning electron microscopy, X-ray electron diffraction spectroscopy, hydrogen absorption assessment, tensile, and...

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• In Vitro Biological Characterization of Silver-Doped Anodic Oxide Coating on Titanium

  Publication

  • O. Oleshko
  • I. Liubchak
  • Y. Husak
  • V. Korniienko
  • A. Yusupova
  • T. Oleshko
  • R. Banasiuk
  • M. Szkodo
  • I. Taranets
  • A. Kazek-Kęsik... and 2 others

  - Materials - 2020

  Despite the high biocompatibility and clinical effectiveness of Ti-based implants, surface functionalization (with complex osteointegrative/antibacterial strategies) is still required. To enhance the dental implant surface and to provide additional osteoinductive and antibacterial properties, plasma electrolytic oxidation of a pure Ti was performed using a nitrilotriacetic acid (NTA)-based Ag nanoparticles (AgNP)-loaded calcium–phosphate...

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• In Vitro Studies on Nanoporous, Nanotubular and Nanosponge-Like Titania Coatings, with the Use of Adipose-Derived Stem Cells

  Publication

  • M. Ehlert
  • A. Radtke
  • T. Jędrzejewski
  • K. Roszek
  • M. Bartmański
  • P. Piszczek

  - Materials - 2020

  In vitro biological research on a group of amorphous titania coatings of different nanoarchitectures (nanoporous, nanotubular, and nanosponge-like) produced on the surface of Ti6Al4V alloy samples have been carried out, aimed at assessing their ability to interact with adipose-derived mesenchymal stem cells (ADSCs) and affect their activity. The attention has been drawn to the influence of surface coating architecture and its physicochemical...

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• Influence of Selected Warm Mix Asphalt Additives on Cracking Susceptibility of Asphalt Mixtures

  Publication

  • M. Stienss
  • C. Szydłowski

  - Materials - 2020

  Warm mix asphalt (WMA) has been widely accepted as a future asphalt paving technology. Besides clear advantages, there are still some concerns regarding durability and long-term performance of pavements made with this type of asphalt mixtures. One of the most important issues is low temperature behaviour of WMA because certain additives used for temperature reduction can aect bitumen properties. This paper presents the evaluation...

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• Initial Field Validation of Poroelastic Pavement Made with Crumb Rubber, Mineral Aggregate and Highly Polymer-Modified Bitumen

  Publication

  • P. Jaskuła
  • J. Ejsmont
  • M. Stienss
  • G. Ronowski
  • C. Szydłowski
  • B. Świeczko-Żurek
  • D. Ryś

  - Materials - 2020

  Tire/road noise in most driving conditions dominates other sources of traffic noise. One of the most efficient ways of reducing tire/road noise is to use the so-called “low noise pavement”. According to numerous studies, at present, poroelastic road pavement that is composed of rubber and mineral aggregate and polyurethane or bituminous binder gives the best noise reduction up to 12 dB. Unfortunately, there are many problems with...

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• Integrated Application of GPR and Ultrasonic Testing in the Diagnostics of a Historical Floor

  Publication

  • M. Rucka
  • E. Wojtczak
  • M. Zielińska

  - Materials - 2020

  The paper presents the results of integrated ground penetrating radar (GPR) and ultrasonic testing (UT) measurements conducted on a historical floor in St. Nicholas’ Church, Gdańsk, Poland. The described inspection was the first stage of the technical state assessment of the building. The aim of the study was the detection of underfloor air gaps, which were observed in a few trial pits. The condition of the ground under the floor...

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• Laser Dissimilar Welding of AISI 430F and AISI 304 Stainless Steels

  Publication

  • K. Pańcikiewicz
  • A. Świerczyńska
  • P. Hućko
  • M. Tumidajewicz

  - Materials - 2020

  A dissimilar autogenous laser welded joint of AISI 430F (X12CrMoS17) martensitic stainless steel and AISI 304 (X5CrNi18-10) austenitic stainless steel was manufactured. The welded joint was examined by non-destructive visual testing and destructive testing by macro- and microscopic examination and hardness measurements. With reference to the ISO 13919-1 standard the welded joint was characterized by C level, due to the gas pores...

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• Laser-Assisted Synthesis and Oxygen Generation of Nickel Nanoparticles

  Publication

  • J. Wawrzyniak
  • J. Karczewski
  • J. Ryl
  • K. Grochowska
  • K. Siuzdak

  - Materials - 2020

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• Laser-Assisted Synthesis and Oxygen Generation of Nickel Nanoparticles

  Publication

  • J. Wawrzyniak
  • J. Karczewski
  • J. Ryl
  • K. Grochowska
  • K. Siuzdak

  - Materials - 2020

  Nowadays, more than ever, environmental awareness is being taken into account when it comes to the design of novel materials. Herein, the pathway to the creation of a colloid of spherical, almost purely metallic nickel nanoparticles (NPs) through pulsed laser ablation in ethanol is presented. A complex description of the colloid is provided through UV-vis spectroscopy and dynamic light scattering analysis, ensuring insight into...

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• Material Parameters Identification of Historic Lighthouse Based on Operational Modal Analysis

  Publication

  • A. Tomaszewska
  • M. Drozdowska
  • M. Szafrański

  - Materials - 2020

  In the present paper, the identification of the material parameters of a masonry lighthouse is discussed. A fully non-invasive method was selected, in which the material properties were determined via numerical model validation applied to the first pair of natural frequencies and their related mode shapes, determined experimentally. The exact structural model was built by means of the finite element method. To obtain experimental...

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• Mechanical, Thermal and Rheological Properties of Polyethylene-Based Composites Filled with Micrometric Aluminum Powder

  Publication

  • O. Mysiukiewicz
  • P. Kosmela
  • M. Barczewski
  • A. Hejna

  - Materials - 2020

  Investigations related to polymer/metal composites are often limited to the analysis of the electrical and thermal conductivity of the materials. The presented study aims to analyze the impact of aluminum (Al) filler content (from 1 to 20 wt%) on the rarely investigated properties of composites based on the high-density polyethylene (HDPE) matrix. The crystalline structure, rheological (melt flow index and oscillatory rheometry),...

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• Metal-Organic Framework (MOF)/Epoxy Coatings: A Review

  Publication

  • F. Seidi
  • M. Jouyandeh
  • M. Taghizadeh
  • A. Taghizadeh
  • H. Vahabi
  • S. Habibzadeh
  • K. Formela
  • M. Saeb

  - Materials - 2020

  Epoxy coatings are developing fast in order to meet the requirements of advanced materials and systems. Progress in nanomaterial science and technology has opened a new era of engineering for tailoring the bulk and surface properties of organic coatings, e.g., adhesion to the substrate, anti-corrosion, mechanical, flame-retardant, and self-healing characteristics. Metal-organic frameworks (MOFs), a subclass of coordinative polymers...

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• Modified Manganese Phosphate Conversion Coating on Low-Carbon Steel

  Publication

  • J. Duszczyk
  • K. Siuzdak
  • T. Klimczuk
  • J. Strychalska-Nowak
  • A. Zaleska-Medynska

  - Materials - 2020

  Conversion coatings are one of the primary types of galvanic coatings used to protect steel structures against corrosion. They are created through chemical reactions between the metal surface and the environment of the phosphating. This paper investigates the impact that the addition of new metal cations to the phosphating reaction environment has on the quality of the final coating. So far, standard phosphate coatings have contained...

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• Ni/cerium Molybdenum Oxide Hydrate Microflakes Composite Coatings Electrodeposited from Choline Chloride: Ethylene Glycol Deep Eutectic Solvent

  Publication

  • J. Winiarski
  • A. Niciejewska
  • J. Ryl
  • K. Darowicki
  • S. Baśladyńska
  • K. Winiarska
  • B. Szczygieł

  - Materials - 2020

  Cerium molybdenum oxide hydrate microflakes are codeposited with nickel from a deep eutectic solvent-based bath. During seven days of exposure in 0.05 M NaCl solution, the corrosion resistance of composite coating (Ni/CeMoOxide) is slightly reduced, due to the existence of some microcracks caused by large microflakes. Multielemental analysis of the solution, in which coatings are exposed and the qualitative changes in the surface...

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• Non-Destructive Testing of the Longest Span Soil-Steel Bridge in Europe—Field Measurements and FEM Calculations

  Publication

  • M. Miśkiewicz
  • B. Sobczyk
  • P. Tysiąc

  - Materials - 2020

  The article describes interdisciplinary and comprehensive non-destructive diagnostic tests of final bridge inspection and acceptance proposed for a soil-steel bridge made of corrugated sheets, being the European span length record holder (25.74 m). As an effect of an original concept a detailed and precise information about the structure short-term response was collected. Periodic diagnostics of bridge deformations was done one...

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• Numerical Study of Concrete Mesostructure Effect on Lamb Wave Propagation

  Publication

  • B. Zima
  • R. Kędra

  - Materials - 2020

  The article presents the results of the numerical investigation of Lamb wave propagation in concrete plates while taking into account the complex concrete mesostructure. Several concrete models with randomly distributed aggregates were generated with the use of the Monte Carlo method. The influence of aggregate ratio and particle size on dispersion curves representing Lamb wave modes was analyzed. The results obtained for heterogeneous...

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• Physicochemical and Mechanical Performance of Freestanding Boron-Doped Diamond Nanosheets Coated with C:H:N:O Plasma Polymer

  Publication

  • M. Rycewicz
  • Ł. Macewicz
  • J. Kratochvil
  • A. Stanisławska
  • M. Ficek
  • M. Sawczak
  • V. Stranak
  • M. Szkodo
  • R. Bogdanowicz

  - Materials - 2020

  The physicochemical and mechanical properties of thin and freestanding heavy boron-doped diamond (BDD) nanosheets coated with a thin C:H:N:O plasma polymer were studied. First, diamond nanosheets were grown and doped with boron on a Ta substrate using the microwave plasma-enhanced chemical vapor deposition technique (MPECVD). Next, the BDD/Ta samples were covered with nylon 6.6 to improve their stability in harsh environments and...

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• Plasticity of Bead-On-Plate Welds Made with the Use of Stored Flux-Cored Wires for Offshore Applications

  Publication

  • A. Świerczyńska
  • M. Landowski

  - Materials - 2020

  Extreme atmospheric conditions in the marine and offshore industry are harmful to engineering materials, especially to welded joints, and may cause degradation of their properties. This article presents the results of research on the plasticity of bead-on-plate welds made using two types of seamless, copper plated flux-cored wires. Before welding, spools with wire were stored for 1 month in two distinct locations with different...

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• POM/EVA Blends with Future Utility in Fused Deposition Modeling

  Publication

  • M. Galeja
  • K. Wypiór
  • J. Wachowicz
  • P. Kędzierski
  • A. Hejna
  • M. Marć
  • K. Klewicz
  • J. Gabor
  • H. Okła
  • A. Swinarew

  - Materials - 2020

  Polyoxymethylene (POM) is one of the most popular thermoplastic polymers used in the industry. Therefore, the interest in its potential applications in rapid prototyping is understandable. Nevertheless, its low dimensional stability causes the warping of 3D prints, limiting its applications. This research aimed to evaluate the effects of POM modification with ethylene-vinyl acetate (EVA) (2.5, 5.0, and 7.5 wt.%) on its processing...

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• Post-Pyrolytic Carbon as a Phase Change Materials (PCMs) Carrier for Application in Building Materials

  Publication

  • M. Ryms
  • K. Januszewicz
  • P. Kazimierski
  • J. Łuczak
  • E. Klugmann-Radziemska
  • W. Lewandowski

  - Materials - 2020

  This article covers new application for char as a carrier of phase-change materials (PCM) that could be used as an additive to building materials. Being composed of bio-char and PCM, the granulate successfully competes with more expensive commercial materials of this type, such as Micronal® PCM. As a PCM carrier, char that was obtained from the pyrolysis of chestnut fruit (Aesculus hippocastanum) with different absorbances of the...

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• Precipitation and Transformation of Vaterite Calcium Carbonate in the Presence of Some Organic Solvents

  Publication

  • D. Konopacka-Łyskawa
  • N. Czaplicka
  • M. Łapiński
  • B. Kościelska
  • R. Bray

  - Materials - 2020

  In this paper, the production of CaCO3 particles via the carbonation route in the reaction of CaCl2 and CO2, using NH3 as a promoter of CO2 absorption, was studied. The solvents used as the reaction media for CaCO3 precipitation were aqueous solutions of methanol, isopropanol and dimethyl sulfoxide (DMSO), in a concentration range of 0–20% (v/v). It was found that the presence of an organic additive influenced the precipitation...

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• Preparation and Characterization of Defective TiO2. The Effect of the Reaction Environment on Titanium Vacancies Formation

  Publication

  • Z. Bielan
  • S. Dudziak
  • A. Sulowska
  • D. Pelczarski
  • J. Ryl
  • A. Zielińska-Jurek

  - Materials - 2020

  Among various methods of improving visible light activity of titanium(IV) oxide, the formation of defects and vacancies (both oxygen and titanium) in the crystal structure of TiO2 is an easy and relatively cheap alternative to improve the photocatalytic activity. In the presented work, visible light active defective TiO2 was obtained by the hydrothermal reaction in the presence of three different oxidizing agents: HIO3, H2O2, and...

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• Preparation of Hydrogen Electrodes of Solid Oxide Cells by Infiltration: Effects of the Preparation Procedure on the Resulting Microstructure

  Publication

  • B. Hołówko
  • J. Karczewski
  • S. Molin
  • P. Jasiński

  - Materials - 2020

  In this work, the infiltration technique was used to produce hydrogen electrodes for solid oxide cells. Different infiltration methodologies were tested in order to try to shorten the infiltration cycle time. The porous scaffolds used for infiltration were based on highly porous yttria-stabilized zirconia (YSZ) obtained by etching the reduced nickel from the Ni-YSZ cermet in HNO3 acid. The support had a complex structure which...

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• Pre-Treatment of Furniture Waste for Smokeless Charcoal Production

  Publication

  • P. Kazimierski
  • P. Hercel
  • K. Januszewicz
  • D. Kardaś

  - Materials - 2020

  The aim of this study was to assess the possibility of using furniture waste for smokeless fuel production using the pyrolysis process. Four types of wood-based wastes were used in the pyrolysis process: pine sawdust (PS), chipboard (CB), medium-density fiberboard (MDF), and oriented strand board (OSB). Additionally, the slow and fast types of pyrolysis were compared, where the heating rates were 15 C/min and 100 C/min, respectively....

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• Processing of Polyester-Urethane Filament and Characterization of FFF 3D Printed Elastic Porous Structures with Potential in Cancellous Bone Tissue Engineering

  Publication

  • A. Haryńska
  • I. Carayon
  • P. Kosmela
  • A. Brillowska-Dąbrowska
  • M. Łapiński
  • J. Kucińska-Lipka
  • H. Janik

  - Materials - 2020

  This paper addresses the potential of self-made polyester-urethane filament as a candidate for Fused Filament Fabrication (FFF)-based 3D printing (3DP) in medical applications. Since the industry does not provide many ready-made solutions of medical-grade polyurethane filaments, we undertook research aimed at presenting the process of thermoplastic polyurethane (TPU) filament formation, detailed characteristics, and 3DP of specially...

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• Pulsed Laser Deposition of Bismuth Vanadate Thin Films—The Effect of Oxygen Pressure on the Morphology, Composition, and Photoelectrochemical Performance

  Publication

  • K. Trzciński
  • M. Szkoda
  • M. Gazda
  • J. Karczewski
  • A. Cenian
  • G. Grigorian
  • M. Sawczak

  - Materials - 2020

  Thin layers of bismuth vanadate were deposited using the pulsed laser deposition technique on commercially available FTO (fluorine-doped tin oxide) substrates. Films were sputtered from a sintered, monoclinic BiVO4 pellet, acting as the target, under various oxygen pressures (from 0.1 to 2 mbar), while the laser beam was perpendicular to the target surface and parallel to the FTO substrate. The oxygen pressure strongly affects...

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