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1

Changes in the structure of the AK7 alloy in terms of modification

Romankiewicz Remigiusz

System Safety : Human - Technical Facility - Environment

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2024

|

Vol. 6, iss. 1

384--394

EN

On this work there was decided to verify the possibility of influence of micro additives of strontium and boron on structure of AlSi7Mg (EN-AC-42000) alloy with chemical composition according to PN-EN 1706. As the modifier there were used AlSr10 (0.3%) and AlTi5B1 (0.3%) master alloy, which were added separately and together. Changes in the structure of individual samples of the AK7 alloy were examined using a metallographic microscope. The chemical composition of complex intermetallic phases formed in the structure of the tested alloy was also examined. The most beneficial effect turned out to be the effect of strontium in the form of 0.3% AlSr10, ensuring a favourable conversion of lamellar silicon into the form of fine fibres. The presence of complex phases was observed in all test samples. Most often, these were phases with various needle shapes and variable Fe and Mn contents.

2

Analiza możliwości zastosowania materiałów inteligentnych w lotnictwie

Garwol Arkadiusz

Journal of KONBiN

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2024

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Vol. 54, iss. 2

17--28

PL

W artykule zaprezentowano podstawowe typy materiałów inteligentnych i ich właściwości. Przywołano przykładowe zastosowania tego typu materiałów w przemyśle lotniczym oraz podjęto próbę analizy możliwości ich wykorzystania w przyszłości. Określono możliwe kierunki rozwojowe zastosowań materiałów inteligentnych w lotnictwie.

EN

The article presents the basic types of intelligent materials and their properties. Examples of applications of this type of materials in the aviation industry were mentioned and an attempt was made to analyze the possibilities of their use in the future. Possible development directions for the use of intelligent materials in aviation were determined.

3

Synthesis of metallic alloy particles on flat graphitic interfaces in arc discharge

Breus A., Abashin S., Serdiuk O., Sysoiev Iu.

Archives of Materials Science and Engineering

|

2023

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Vol. 121, nr 2

49--59

EN

Purpose: The application of arc discharge to synthesising encapsulated (Fe-Cu-Al)@C structures is studied. The cost-effectiveness of the proposed technique may be beneficial for developing a new method for large-scale production of metal micro- and nanoparticles protected from oxidation by a carbon shell. Design/methodology/approach: A copper sample was immersed into a mixture of graphite, iron, and aluminium powder and placed into a negatively powered crucible of a setup designed to ignite arc discharge at atmospheric conditions. The proposed approach prevents the oxidation of droplets of Fe-Cu-Al alloy by covering them with a thin layer of carbon, which is also engaged as a collector of the metal particles. Findings: The application of arc discharge resulted in the generation of metal particles and various carbon nanostructures, which were confirmed by SEM images. The nanostructures were grouped into more complex flower-, ball-, tree-, and octopus-shaped structures with a large yield of metallic alloy particles ranging from a few μm (micrometers) to nanometre sizes. These findings suggest the catalytic application of the structures after the grown particles are cleared from the carbon shell to be implemented as active chemical agents. Research limitations/implications: The main limitation is the uncontrolled heat transfer from the discharge volume. Therefore, an additional screen should be installed around the volume in order to improve control over synthesis in future studies. Practical implications: This research confirms a flexible and simple method of synthesising metallic alloy particles that may be applied for catalytic applications. Originality/value: The synthesis is conducted using a well-known arc discharge technique to expand the production yield and diversity of chemically-active metal particles protected from oxidation by a shell before the intended application.

4

Effect of Annealing Treatment on (Mg17Al12) Phase Characterization and Corrosion Behavior in Different Solutions for AZ91 Alloy

Abass Marwa H., Abdulkareem Makarim H., Hussein Hussien A.

Advances in Science and Technology. Research Journal

|

2023

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Vol. 17, no. 2

330--341

EN

Heat treatment is the most suitable technique for altering the microstructure and, consequently, it is possible to create the optimal balance of corrosion resistance and mechanical strength in a material by carefully regulating the conditions during the heating process. The present work aims to investigate the effect of heat treatments (annealing) at (300°C) at different times (10, 20, and 30 hr) on the magnesium alloy. How the Mg17Al12 phase influences the corrosion behavior of AZ91D magnesium alloy was quantified in different solution (SBF, Lactic and Ringer). It was able to construct an extensive range of Mg17Al12 phase volume fractions by varying the annealing period. The corrosion potential of many specimens with varied proportions of the Mg17Al12 phase was evaluated. The results of the conducted tests manifested that the material's resistance to corrosion greatly improved with an increase in the volume fraction of Mg17Al12 phase. The effect of heat treatment on the microstructure was analyzed using transmission electron microscopy and X-ray diffraction. The SEM photographs evinced that the amount of β-Mg17Al12 phase decreased significantly, with the distribution occurring at the grain boundaries and with increasing the time of annealing, resulting in a highly saturated α-grain. The XRD validated the all material peaks of phases that are present. The corrosion test behavior of AZ91 alloy in the simulated body fluid (SBF), lactic, and Ringer solutions was investigated through electrochemical measurements, the result was elucidated as measured along the Tafel slope, and the corrosion current density of all heat treated samples was lower than that of the as-cast sample. The measurement of hardness (HV) demonstrated that the hardness decreased to (64.5 HV0.5) during the heat treatment. The result antibacterial efficiency was revealed that AZ91 at 30 hr was best then as cast against the bacteria E.coli.

5

Gazy osłonowe do spawania tytanu, cyrkonu i ich stopów

Niagaj Jerzy

Stal, Metale & Nowe Technologie

|

2022

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nr 9-10

44---49

PL

W artykule omówiono rodzaj i skład gazów używanych podczas spawania tytanu, cyrkonu i ich stopów, jak również opisano wpływ poszczególnych gazów na proces spawania i jakość złączy spawanych.

EN

The type and composition of gases used in the welding of titanium, zirconium and their alloys are discussed in the paper. The influence of shielding gases on the welding process and quality of welded joints is also described.

6

An Analysis of the Features of Cast Composite Materials Based on Light Alloys Reinforced by Particles

Dan Olena

Journal of Casting & Materials Engineering

|

2022

|

Vol. 6, no. 1

8--13

EN

Light alloys are widely used in industry and everyday life due to their high physical and mechanical properties, wear and corrosion resistance, as well as low cost. In this regard, the use of light alloys as a basis for composite materials is both justified and expedient. The potential of these materials has not been fully used to this day, despite the growing interest in metal matrix composites and extensive investigations aimed at the development of production technology and the introduction of advanced systems based on light matrices. The article presents a short review of the analysis of the main components of the technology of cast composite materials based on light alloys of aluminum and magnesium reinforced by particles. Particular attention is paid to the choice of the matrix alloy, the type, size and amount of reinforcing particles introduced into it, as well as the thermal-time and kinetic parameters of the process.

7

Prospects for the Implementation of New Materials and Technologies in the Aerospace Industry

Yanko Taras, Dmytrenko Olexii

Transactions on Aerospace Research

|

2021

|

Nr 4 (265)

1--10

EN

This article considers the main materials used to make aircraft, both fuselage and engines. First, the problems that force developers to introduce new materials in aircraft production are identified. We then present features of the introduction of heat-resistant titanium alloys, ways of improving the mechanical properties of parts made of titanium alloys, and methods of manufacturing complex details. Other promising materials for the aviation industry, such as high-entropy alloys, quasicrystals, carbon-carbon materials, and nickel foam, are also considered.

PL

W artykule rozważono główne materiały stosowane w budowie samolotów, zarówno w kadłubach jak w silnikach. Najpierw uwagę zwrócono na problemy, które skłaniają konstruktorów do wprowadzania nowych materiałów do produkcji samolotów. Następnie przedstawiono charakterystykę wprowadzania żaroodpornych stopów tytanu, sposoby poprawy własności mechanicznych części wykonanych ze stopów tytanu oraz metody wytwarzania złożonych detali. Rozważono również inne materiały perspektywiczne dla przemysłu lotniczego, takie jak stopy o wysokiej entropii, kwazikryształy, materiały typu węgiel/węgiel oraz pianki niklowe.

8

Solidification microstructure in a supercooled binary alloy

Wang Hongfu, Tang Cheng, An Hongen, Zhao Yuhong

Materials Science Poland

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2021

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Vol. 39, No. 3

383--394

EN

The maximum undercooling that has been achieved for Ni-Cu alloy, by using molten glass purification and cyclic super-heating technology, is 270 K. With the help of high-speed photography, the solidification front images of Ni-Cu alloy at various typical undercooling were obtained. Two grain refinements occurred in the range of 60 K< ΔT < 100 K and ΔT > 170 K, the solidification front became smoother, and the solidification position appeared randomly. With the increase of undercooling, the transition from solute diffusion to thermal diffusion leads to the transition from coarse dendrite to directional fine dendrite. At large undercooling, considerable stress is accumulated and some dislocations exist in the microstructure. However, the proportion of high-angle grain boundaries is as high as 89%, with twin boundaries of 13.6% and most strain-free structures, and the microhardness decreases sharply. This indicates that the accumulated stress at large undercooling causes the plastic strains in the microstructure, and in the later stage of recalescence, part of the plastic strains is dissipated by the system and acts as the driving force to promote the recrystallization of the microstructure.

9

Scaling Behaviour of Si-alloyed Steel Slabs under Reheating Conditions

Mikl Gregor, Höfler Thomas, Gierl-Mayer Christian, Danninger Herbert, Linder Bernhard, Angeli Gerhard

Journal of Casting & Materials Engineering

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2021

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Vol. 5, no. 4

71--74

EN

Reheating of steel slabs for further processing such as hot rolling usually takes place in gas-fired pusher furnaces. Temperatures well above 1000°C, combined with an atmosphere containing H2O, CO2, and O2, lead to substantial oxidation of most steel grades. Newly developed advanced steels often contain significant amounts of Si. This element plays a dominant role in the scaling behaviour near the steel-scale-interface, since fayalite (Fe2SiO4) forms a eutectic with wuestite (Fe1–xO) that melts as low as 1177°C. To better understand the high temperature oxidation behaviour, lab-scale trials were performed with different steel grades containing up to 3 wt.% Si. Possible interactions of Si with other alloying elements present in the samples such as Cr, Mn and Al were also of interest. The atmosphere contained 20% H2O, 7% CO2, and 3% O2, resembling reheating conditions in pusher furnaces, and temperatures ranged from 1100 to 1240°C. For metallographic investigation, the oxidised samples were cold mounted under vacuum using taper section angles. After preparation, the sections were examined through light microscopy, SEM/EDS, XRD, and TEM. The local distribution of the alloying elements could be mapped efficiently, and phase identification was successful in most parts. Under the applied experimental conditions, the elements of interest were present in their oxidic form either as pure or as mixed oxides. Higher Si-contents led to an increased build-up of eutectic melting phase at the steel-scale-interface at temperatures above 1177°C, which in turn further accelerated the oxidation.

10

Gazy osłonowe do spawania tytanu, cyrkonu i ich stopów

Niagaj Jerzy

Stal, Metale & Nowe Technologie

|

2020

|

nr 9-10

62--67

PL

W artykule mówiono rodzaj i skład gazów używanych podczas spawania tytanu, cyrkonu i ich stopów, jak również opisano wpływ poszczególnych gazów na proces spawania i jakość złączy spawanych.

XX

The type and composition of gases used in welding of titanium, zirconium and their alloys are discussed, as well as the influence of shielding gases on welding process and quality of welded joints are described.

11

Gazy osłonowe do spawania niklu, kobaltu i ich stopów

Niagaj Jerzy

Stal, Metale & Nowe Technologie

|

2020

|

nr 5-6

58--64

PL

W artykule omówiono rodzaj i skład gazów używanych podczas spawania niklu, kobaltu i ich stopów, jak również opisano wpływ poszczególnych gazów na proces spawania i jakość złączy spawanych.

EN

The type and composition of gases used in welding of nickel, cobalt and their alloys are discussed, as well as the influence of shielding gases on welding process and quality of welded joints are described.

12

Wpływ warstwy pośredniej na połączenie metal-ceramika

Kula Zofia, Kołodziejczyk Łukasz, Szymanowski Hieronim

Engineering of Biomaterials

|

2019

|

Vol. 22, no. 152

21--28

PL

Protezy stałe wykonane na podbudowie metalowej licowane ceramiką stanowią istotną część metod uzupełnienia braków zębowych, jakie są do dyspozycji w dziedzinie protetyki stomatologicznej. Korzystne wyniki leczenia z zastosowaniem protez stałych, wykonanych ze stopu metalu i/lub ceramiki zależą w dużym stopniu od starannie przeprowadzonej diagnostyki układu stomatognatycznego, a także od właściwego zaplanowania postępowania klinicznego i laboratoryjnego. Najlepsze wyniki można osiągnąć tylko wtedy, gdy wybrany materiał na protezę stałą, a także sposób opracowania zęba będą zgodne również z oczekiwaniami pacjenta. Mimo iż rozwiązania tego typu są znane od bardzo dawna, nadal cieszą się ogromną popularnością wśród pacjentów. Spowodowane jest to bardzo dobrą wytrzymałością oraz odpowiednią estetyką, która jest bardzo ważna dla pacjentów. Wysoką estetykę uzyskuje się poprzez licowanie konstrukcji podbudowy metalowej ceramiką tlenkową, która niemal identycznie odzwierciedla twarde tkanki zęba.W pracy wykorzystano stopy firmy Dentaurum Remanium CSe, na których powierzchnię zostały nałożone warstwy opakerów w postaci proszku i pasty. Na powierzchnię stopu nałożono ceramikę firmy Vita Master oraz VM13. Próbki zostały poddane badaniu chropowatości, porowatości oraz przeprowadzono analizę pierwiastków w danym obszarze ceramiki.Przeprowadzone badania wykazują, że warstwa pośrednia (opakerowa) wpływa na połączenie stopu z ceramiką. Najlepsze rezultaty wykazuje gdy porowatość jest minimalna.Na podstawie wyników nie stwierdzono wpływu rodzaju warstwy pośredniej na wytrzymałość połączenia stopu z ceramiką. Potwierdzono, że parametr chropowatości istotnie wpływa na wytrzymałość połączenia metal-ceramika. Badania morfologiczne wykonane przy użyciu mikroskopu skaningowego SEM wykazały, że po wypaleniu zachodzą zmiany w stężeniu pierwiastków na granicy ceramika-stop.

EN

Fixed alloy and ceramic prostheses constitute an important part of remedies available at the disposal of restorative dentistry. The successful treatment with fixed prostheses made of alloy or ceramics, or a combination of both materials, depends to a large extent on the thorough diagnosis of the masticatory organ, as well as the proper planning of clinical and laboratory procedures. The best results can only be achieved if the material chosen for the permanent prosthesis and the method of developing the tooth is also adjusted to the patient’s expectations. Although this type of solution has been known for a very long time, it is still very popular among patients. This is due to very good durability and appropriate aesthetics, which is very important for patients. High aesthetics is achieved by veneering the metal framework construction with oxide ceramics that almost identically reflect the hard tooth tissues.In this work, we used the Remanium CSe alloy with layers of powder and paste applied to the surface. The samples were subjected to the roughness, porosity, as well as elemental analysis in a given area of ceramics.The conducted examinations showed that the intermediate (opaque) layer affects the connection of the alloy with ceramics. The best results were achieved when the porosity was minimal. Based on the results of the study, it was found that the type of intermediate layer did not influence the strength of the alloy with ceramics. It was confirmed that the roughness parameter significantly affected the strength of the metal-ceramic bond. Morphological studies via SEM scanning microscopy showed that after firing, changes occurred in the concentration of elements at the ceramic-alloy border.

13

Morphology of aluminium with nickel addition on sand casting process

Puspitasari P., Fauzan R., Ginta T. L., Mustapha M., Puspitasari D.

Journal of Achievements in Materials and Manufacturing Engineering

|

2018

|

Vol. 87, nr 1

13--17

EN

Purpose: This research aimed to examine the morphology, elemental changes, and phase in the aluminium cast alloys with variations in nickel addition of 1%, 2% and 3%. Design/methodology/approach: Aluminium 98% was melted in sand casting process. The sand casting process was operated at 7000C and atmospheric pressure. The addition of nickel contain of 92.19% of its element. Specimens consist of 4 pieces Al-Ni with the size of 1 x 1 x 0.5 cm for morphological testing, while for phase identification testing consist of 4 pieces Al-Ni with the size of 1 x 1 x 2 cm. The morphological testing was performed using FEI Inspect S50 Scanning Electron Microscope (SEM) and the phase characterisation was conducted using Nikon ME5 Optical Microscope. Findings: The results showed that the addition of 1% nickel in the aluminium cast product could affect the morphology in granular shape with as similar size, at 2% nickel addition also has granular shape, while at 3% of nickel addition, the morphology of Al-Ni was in elongated shape. Phase identification of Al-Ni cast alloy shows that there were Al matrix with nickel that spread in grain boundary of Al. By increasing the percentage of nickel, it shows that the nickel dominated the grain boundary of Al. These results shows that Al-Ni alloy can be produced at simple route on sand casting process. Research limitations/implications: Sand casting process with 80% silica sand, 10% bentonite, 5% water. Raw material of aluminium contains of 92-99% of purity. Nickel as addition element contain of 90-92% purity. Practical implications: The addition of nickel should be prepared wisely in term of the calculation of alloying treatment because it will effect the mechanical properties of Al alloy itself. This research can be improved by varying the temperature of casting process, variation of nickel percentage, and observation of mechanical properties of Al-Ni alloy. Originality/value: Simple route of making Al-Ni alloy using sand casting method in laboratory and also the observation of nickel addition in aluminium matrix as the result of casting product.

14

Analyses of calcium influence on the AlSi9CuMnNi alloy

Náprstková Nataša, Kraus Pavel, Cais Jaromír, Stančeková Dana, Miturska Izabela

Advances in Science and Technology. Research Journal

|

2018

|

Vol. 12, no. 3

32--38

EN

Treatment of metal alloys is one of the ways to affect the properties of the material. The article describes an experiment realized at FPTM UJEP when was experimentally studied the influence of alloys AlSi9CuMnNi calcium modification on some of its properties. The alloy was modified with various amounts of calcium and subsequently machining. Also hardness was measured in the resulting alloys. Machining was performed under certain cutting conditions. After machining the obtained chip was evaluated. Chip was evaluated for its shape, length and amount of chips per 100 g. Devices in FPTM laboratories were used to prepare experimental casts and to evaluate hardness and chips, like the melting furnace LAC K70/13, hardness tester Ernst AT 250X or microscope Olympus SZX 10. Experimental quantities of calcium was 0.05, 0.1 and 0.15 wt. %. Presented experiments are part of the extensive research undertaken at Faculty of Production Technologies and Management at Jan Evangelista Purkyně University in Ústí nad Labem.

15

Eksperymentalna metodyka oceny wrażliwości stopów na szybkość odkształcania

Moćko W.

Transport Samochodowy

|

2017

|

z. 2

69--86

PL

W pracy omówiono podstawowe metody badawcze, wykorzystujące koncepcję pręta Hopkinsona, wykorzystywane do wyznaczania krzywych ściskania materiałów konstrukcyjnych w warunkach obciążeń udarowych. Ponadto zaprezentowano opracowane i wykonane w Instytucie Transportu Samochodowego stanowisko stosowane do badania charakterystyk mechanicznych materiałów przy dużych szybkościach odkształcania. Opisana aparatura posłużyła do wyznaczenia charakterystyk naprężenia w funkcji odkształcenia wybranych stopów. Na podstawie otrzymanych wykresów można ocenić wrażliwość badanych materiałów na szybkość odkształcania.

EN

Basic experimental methods based on the Hopkinson bar concept were discussed in this paper. The methods are used to determine compressive curves of materials under impact loading conditions. Moreover, the testing stand designed and fabricated in the Motor Transport Institute was introduced. The testing stand is used to analyse mechanical behavior of a materials at a high strain rates. Described equipment was applied to estimate stress-strain curves of selected structural materials. On the basis of the obtained characteristics strain rate sensitivity may be investigated.

16

Application of Ammoniacal Solutions for Leaching and Electrochemical Dissolution of Metals from Alloys Produced from Low-Grade E-Scrap

Rudnik E.

Archives of Metallurgy and Materials

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2017

|

Vol. 62, iss. 3

1681--1688

EN

Paper reports results of the research on the application of ammoniacal solutions (sulfate, chloride, carbonate) for hydrometallurgical treatment of smelted low-grade e-waste. Two Cu-Zn-Sn-Ag-Pb alloys were analyzed in details and discussed. Leaching of copper from the alloys was slow in sulfate solution, but the dissolution rate decreased in chloride and carbonate baths. Anodic alloys dissolution was uniform in sulfate and carbonate electrolytes, but high degradation of the material was observed in chloride bath. Chemical and phase composition of slimes and cathodic deposits produced during electrolysis were characterized. In all cases, separation of copper from other metals was found, but efficiencies of the processes were low.

17

Analysis of the Possibility of Calculating the Charges on the Example of Brasses

Biernat S., Bydałek A. W., Wołczyński W., Najman K.

Archives of Metallurgy and Materials

|

2017

|

Vol. 62, iss. 4

2165--2170

EN

This paper describes the subject of brasses and the method of their production from the secondary raw materials. It focuses on two very important aspects extremely important for today’s world. The first of them is the theme of rational management of materials, particularly metallic scrap. The second issue is the growing importance of products made of brass, which in recent times get also special recognition in medicine. This article presents a proposal for a methodology for calculating the metal charge for brasses of two or more components. It turns out that by using suitable mathematical calculations one can accurately determine the amount of metal charge to obtain a product having the desired chemical composition and desired mechanical properties. Mathematical calculations are also presented in the graphical form for the visualization of dependency and a better explanation of the accepted approach.

18

Effect of topography on wettability of rapidly solidified Al-In alloys

Tashlykova-Bushkevich I., Yakovenko J., Bushkevich I., Żukowski P.

Przegląd Elektrotechniczny

|

2016

|

R. 92, nr 1

151--154

EN

The wettability of rapidly solidified foils of Al-In alloys containing up to 4.7 at.% of In was investigated by means of sessile-drop method and atomic force microscopy. It was found that In significantly changes wetting properties of pure Al from a hydrophobic behaviour to a hydrophilic one. The effect of topography on the wetting properties of nano-rough foils demonstrates that an increase in In content up to 0.7 at.% resulted in a transition from a homogeneous to a heterogeneous wetting behaviour when decreasing the roughness of the surface makes it more hydrophilic.

PL

Zwilżalność szybko skrystalizowanych foli stopu Al-In zawierających In do 4,7 at.% została zbadana za pomocą metody „siedzącej kropli” oraz mikroskopii sił atomowych. Określono, że dodatek In znacząco zmienia właściwości zwilżające czystego Al z hydrofobowych na hydrofilowe. Wpływ topografii na właściwości zwilżające nano-chropowatych folii przedstawia, że wzrost zawartości In do 0,7 at.% skutkuje w zmianie właściwości zwilżających z homogenicznych na heterogeniczne oraz zwiększająca się chropowatość powierzchni powoduje, że stają się one hydrofilowe.

19

Ocena podatności struktur cienkościennych na lokalne odkształcenia plastyczne metodą pomiaru czasu styku

Bławucki S., Zaleski K.

Mechanik

|

2016

|

R. 89, nr 11

1602--1603

PL

Opisano dotychczas stosowane rozwiązania w zakresie pomiaru odkształcenia i naprężenia w warstwie wierzchniej elementów umacnianych poprzez zgniot. Przedstawiono nowy, zgłoszony do opatentowania, sposób pomiaru podatności metalowych struktur cienkościennych na miejscowe, powierzchniowe odkształcenie plastyczne. Polega on na porównaniu czasu styku elementu nagniatającego z obrabianym przedmiotem cienkościennym oraz przedmiotem o dużej sztywności. Eksperyment zweryfikowano metodą elementów skończonych.

EN

This paper describes existing solutions for measuring deformations and stress in the surface layer of strain-hardened parts. It also presents a new, patent pending method of measuring susceptibility of metal thin-walled structures to a local, plastic deformation on their surface. This method compares the time of contact of an impacting element with the thin- -walled workpiece and a high-rigidity object. The experiment was verified using the Finite Element Method.

20

Mikrostruktura i trwałość zmęczeniowa po wielokrotnym przetopie stopu A359 i kompozytu na bazie stopu A359 zbrojonego cząsteczkami SiC

Pietrzak K., Wojciechowski A., Klasik A., Maj M.

Mechanik

|

2016

|

R. 89, nr 5-6

524--525

PL

Mikrostrukturę stopu A359 i kompozytu na bazie stopu A359 zbrojonego cząsteczkami SiC poddano metalograficznej ocenie ilościowej. Przedstawiono charakterystyki mechaniczne tych materiałów wyznaczone w oparciu o oryginalną zmodyfikowaną próbę niskocyklową. Zaproponowano wielokrotny przetop jako alternatywę dla innych metod recyklingu.

EN

The microstructure of alloy A359 and A359-based composite reinforced with SiC particles was quantitatively assessed. The mechanical characteristics determined by means of the modified low cycle fatigue method on these materials were disclosed. The multiple remelting process was proposed as an alternative for the other recycling methods.