Wyniki wyszukiwania - BazTech

1

Ocena wybranych właściwości mechanicznych budowlanych materiałów wibroizolacyjnych na bazie polimerowych granulatów recyklingowych

Korbiel Tomasz, Bal Renata, Berezowski Wojciech, Kruk Radosław

Materiały Budowlane

|

2024

|

nr 3

27--31

PL

W artykule przedstawiono koncepcję wykorzystania materiałów z recyklingu do wytwarzania elementów wibroizolacyjnych stosowanych w budowie dróg szynowych. Granulaty recyklingowe charakteryzują się stabilnymi parametrami mechanicznymi, co pozwala na ich wykorzystanie w produkcji materiałów do budowy torowisk w terenach zurbanizowanych. W artykule omówiono technologię wytwarzania tego typu materiałów oraz wstępne badania podstawowych właściwości mechanicznych. Zaprezentowane wyniki pozwalają na wybór technologii produkcji mat wibroizolacyjnych z materiałów recyklingowych w zależności od obszaru zastosowania. Określenie poziomu energii dyssypowanej w trakcie obciążenia dynamicznego umożliwiło skalowanie właściwości produktów podczas produkcji. Przedstawione badania pozwalają na wykorzystanie granulatów polimerów PET oraz PiB.

EN

The article presents the concept of using recycled materials to produce vibration-isolating elements used in the construction of railroads. Recycling granulates are characterized by stable mechanical parameters, which allows them to be used in the production of materials for the construction of tracks in urban areas. This work discusses the technology of producing this type of materials and preliminary research on the basic mechanical properties. The presented results allow the selection of a technology to produce vibration-insulating mats from recycled materials depending on the area of application. Determining the level of energy dissipated during dynamic loading made it possible to scale the properties of products during production. The presented research allows the use of PET and PiB polymer granulates.

2

Experimental of buckling restrained brace hysteretic performance with carbon fiber wrapped in concrete

Fang Yuan, Lv Lei, Gao Yuqiang, Fu Zhongqiu

Archives of Civil Engineering

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2024

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Vol. 70, nr 1

527--541

EN

Buckling restrained brace is an important structure for improving the seismic resistance of structures. Conducting research on new types of buckling restrained brace can improve the seismic performance and reliability of buckling resistant support. Four different types of buckling restrained braces specimens were designed and manufactured: cross-shaped square steel pipe members, cross-shaped round steel pipe members, cross-shaped carbon fiber members, and in-line carbon fiber members. By conducting quasi-static tests, the force displacement hysteresis curves, skeleton curves, stiffness degradation, equivalent viscous damping coefficient, and energy dissipation ratio of four different types of buckling restrained brace were analyzed. The research results showed that all four buckling restrained brace specimens have good hysteresis performance. The load-bearing capacity and energy consumption performance of the three specimens of square steel pipe, round steel pipe and carbon fiber with the same core unit are the same, but the inline type is worse than the cross type. The core unit specimen with a width of 80 mm is about 60% higher in bearing capacity and energy consumption than a specimen with a width of 50 mm. The core unit of some specimens undergoes multi-wave buckling. For carbon fiber specimens, the CFRP is prone to breakage due to the lateral thrust of the restraining unit. Therefore, steel hoop or stirrup should be added to the end to improve the restraint effect when designing and manufacturing.

3

Heave plates with holes for floating offshore wind turbines

Ciba Ewelina, Dymarski Paweł, Grygorowicz Mirosław

Polish Maritime Research

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2022

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nr 1

26--33

EN

The paper presents an innovative solution which is heave plates with holes. The long-known heave plates are designed to damp the heave motion of platforms. They are most often used for Spar platforms. The growing interest in this type of platform as supporting structures for offshore wind turbines makes it necessary to look for new solutions. Based on the available literature and the authors’ own research, it was concluded that the main element responsible for the damping of heave plates is not so much the surface of the plate, but its edge. Therefore, it was decided to investigate the effect of the holes in heave plates on their damping coefficient. Model tests and CFD calculations were performed for three different structures: a smooth cylinder, a cylinder with heave plates with a diameter of 1.4 times the diameter of the cylinder, and a cylinder with the same plate, in which 24 holes were cut (Fig. 1). Free Decay Tests (FDT) were used to determine the damping coefficient and the natural period of heave, and then the values obtained were compared. The full and punched heave-plate designs were also tested with regular waves of different periods to obtain amplitude characteristics. The results obtained are not unequivocal, as a complex motion appears here; however, it is possible to clearly define the area in which the damping of a plate with holes is greater than that of a full plate.

4

Analysis of the hydrodynamic properties of the 3-column Spar platform for offshore wind turbines

Ciba Ewelina, Dymarski Paweł, Grygorowicz Mirosław

Polish Maritime Research

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2022

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nr 2

35--42

EN

The article presents a design of a floating platform for offshore wind turbines. The concept is a modification of the Spar design and consists of three variable section columns connected to each other by a ballast tank in the lower part of the platform. This solution makes it possible to influence the position of the centre of buoyancy and the centre of mass of the structure. Compared to the classic Spar platform structure, the centre of buoyancy can be higher than mid-draft, which will provide the platform with greater stability. At the same time, this concept is better, in terms of technology, because of its modular structure and smaller bending radii.On the basis of the model testing performed, the hydrodynamic coefficients of the designed platform and its response to a given regular wave were determined (the transfer functions for heave and pitch motion were determined). Then, based on the damping coefficients, the platform was modelled in the ANSYS AQWA program and the results were very similar.

5

Influence of the Cooling Rate on Damping Characteristics of the ZnAl4Cu1 Alloy

Piwowarski Grzegorz, Gracz Beata

Journal of Casting & Materials Engineering

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2022

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Vol. 6, no. 3

58--63

EN

The paper presents the results of damping coefficient tests in the ZnAl4Cu1 alloy (ZL5). The damping coefficient has been calculated on the basis of specimen measurements obtained with the use of the signal echo method. The method consists in passing the ultrasonic wave through the tested material. The ultrasonic wave from a transmitting and receiving head passes through a specimen, bounces off its bottom surface and comes back to the measuring head in the form of a signal echo. Difference in the signal strength between the first and the second echo in relation to the distance travelled by the ultrasound wave is a measure of the material’s damping characteristics. The specimens were cast into three molds made of different materials, i.e. green sand, plaster and metal. Thermophysical properties of these materials are different what affecting the rate of heat absorption from the cast. Three series of specimens have been obtained which cooled at different rates. The specimens were then subjected to ultrasound and microscopic tests to assess the alloy structure. The internal alloy structure affects its damping properties to a great extent.

6

Virtual synchronous generator frequency response study of energy computing and storage devices

Zhang Baoge, Ping Shanyan, Long Yi, Jiao Yuemin, Wu Boxiang

Archives of Electrical Engineering

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2022

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Vol. 71, nr 4

895--907

EN

Renewable energy sources are connected to the grid through inverters, resulting in reduced grid inertia and poor stability. Traditional grid-connected inverters do not have the function of voltage and frequency regulation and can no longer adapt to the new development. The virtual synchronous generator (VSG) has the function of voltage and frequency regulation and has more outstanding advantages than the traditional inverter. Based on the principle of the VSG, the relationship between energy storage capacity, frequency response and output power of the VSG is derived, and the relationship between the virtual inertia coefficient, damping coefficient and frequency characteristics of the VSG and output power is revealed. The mathematical model is established and modeled using the Matlab/Simulink simulation software, and the simulation results verify the relationship between energy storage capacity and frequency response and the output power of the VSG.

7

Heave motion of a vertical cylinder with heave plates

Ciba Ewelina

Polish Maritime Research

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2021

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nr 1

42--47

EN

The shape of a vertical cylinder resembles the classic form of a spar platform. Spar platforms are floating platforms that are successfully used in waters of great depths and have several advantages that mean they are readily used in the oil industry. Many of these advantages are also relevant to their application for offshore wind turbines, which is currently being considered. In the hydrodynamic analysis of spar platforms, the determination of their hydrodynamic coefficients plays an important role. They can be determined based on the free decay test. The study presents a method for determining the hydrodynamic coefficients of an object based on the free decay test. The results of free oscillation calculations with the help of numerical fluid mechanics tools are presented and compared with the results of the experiment and analytical solution. The application of determined coefficients and their significance for floating platforms are discussed. The influence of change in the form of an additional damping element on the behaviour of spar structures is shown.

8

A new design solution for reducing the impact of transported rock on belt conveyors in mining

Gondek Horst, Pokorný Jiří, Boháč Daniel, Kolman Jiří

Mining Machines

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2020

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no. 1

18--25

EN

As we are increasingly focusing on the economy of mining, researchers are constantly trying to find new technologies to improve existing machines to be more efficient and less perishable. Such actions allow mining companies to save money in all of the mining processes. The authors focused on the transport of materials and how to improve it. The most frequent problems in this matter are caused by the destruction of conveyor belts. The cost of repairs is estimated at about half a billion crowns in the Czech Republic. That is why engineers are working on reduction of the rock impact force on the conveyor belt. The paper deals with the issue of reducing the passage of conveyor belts by proposing a new solution to the impact stand, which will considerably reduce the number of conveyor belt breaks.

PL

Zwracając uwagę na ekonomikę wydobycia, nieustannie trwają badania poszukujące nowych technologii ulepszających istniejące maszyny i urządzenia, by były one bardziej wydajne i mniej wadliwe. Takie działania pozwalają firmom górniczym oszczędzać pieniądze we wszystkich procesach wydobywczych. Autorzy skupili się na transporcie materiałów i tym, jak go poprawić. Najczęstsze problemy w tej kwestii są spowodowane zniszczeniem taśm przenośnikowych. W Czechach koszt napraw szacowany jest na około pół miliarda koron rocznie. Dlatego inżynierowie pracują nad zmniejszeniem siły uderzenia skały w taśmę przenośnika. W artykule poruszono kwestię zmniejszenia awaryjności taśm przenośnikowych w miejscu przesypu, proponując nowe rozwiązanie stołu udarowego pochłaniającego energię uderzenia, który znacznie zmniejszy liczbę zerwań taśmy przenośnikowej. (Nowe rozwiązanie konstrukcyjne zmniejszające wpływ transportowanej skały na przenośniki taśmowe w górnictwie)

9

A review of the vehicle suspension system

Jiregna Iyasu, Sirata Goftila

Journal of Mechanical and Energy Engineering

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2020

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Vol. 4, No 2

109--114

EN

The driving comfort of the vehicle is primarily determined by the design of the suspension system, which transmits the force between the vehicle and the ground. There are different types of vehicle suspension systems, including active suspension systems that provide significant benefits for ride comfort while driving. However, the existing active suspension systems have limited functions such as power, and also complex structure. To overcome the problem, the proper design of the active suspension system by considering its present limitations is essential. A well-designed active suspension system controls the load on the wheels under the resonance of the body structure and ensures driving comfort. It reduces the vibrational energy of the vehicle body caused by the excitation of the road while keeping the stability of the vehicle within an acceptable limit. For a proper design of the active suspension system, the road surface, the seat suspension, and the wheel load are the most important elements to consider. In this study, different types of vehicle suspension systems with their limitations have been thoroughly investigated. Many aspects of control and some of the essential practical considerations are also explored.

10

The use of a linear half-vehicle model for the optimization of damping in the passive suspension system of a railway car

Lozia Z., Kardas-Cinal E.

Archives of Transport

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2016

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Vol. 39, iss. 3

31--49

EN

The paper presents a methodology of optimizing the parameters of the passive suspension system of a railway vehicle. A linear half-vehicle model and an example of the procedure carried out to optimize a selected parameter of the model have been demonstrated. A method of the selection of damping in the suspension system of a railway vehicle, based on over 40-year achievements of the cited authors of publications in the field of motor vehicles, has been shown. The optimization of linear damping in the secondary suspension system of a passenger carriage moving on a track with random profile irregularities has been described in detail. The algorithms adopted for the calculations have a wider range of applicability; especially, they may be used for determining the optimum values of the other parameters of the railway vehicle model under analysis, i.e. stiffness of the secondary suspension system as well as stiffness and damping of the primary suspension system.

11

Porównanie parametrów częstotliwościowo-amplitudowych sejsmicznych źródeł mechanicznych

Pilecki Z., Chamarczuk M., Kubańska A., Isakow Z., Czarny R., Krawiec K., Pilecka E., Sierodzki P.

Zeszyty Naukowe Instytutu Gospodarki Surowcami Mineralnymi i Energią PAN

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2015

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nr 89

33--50

PL

Pomiary sejsmiczne w zastosowaniach do celów inżynierskich można prowadzić z wykorzystaniem różnych źródeł sejsmicznych. Wybór odpowiedniego źródła jest jednym z czynników przy projektowaniu pomiarów, który decyduje o zasięgu głębokościowym badań i rozdzielczości wynikowego obrazu sejsmicznego. Efektywność danego źródła sejsmicznego zależy nie tylko od parametrów technicznych samego źródła, ale także właściwości badanego ośrodka geologicznego, parametrów rejestracji oraz sposobu przetwarzania i interpretacji danych sejsmicznych. W pracy przedstawiono wyniki badań sejsmicznych, mające na celu porównanie parametrów różnych źródeł sejsmicznych w identycznych warunkach pomiarowych na terenie Instytutu Technik Innowacyjnych EMAG w Katowicach. Porównano dwa sejsmiczne źródła mechaniczne: młot o masie 4 kg oraz kafar zasilany elektrycznie o masie uderzającej 100 kg. Rejestracje wykonano z użyciem 3-składowych geofonów o częstotliwości własnej 4,5 Hz. W wyniku pomiarów uzyskano rejestracje składowych Z, Xi Y prędkości drgań dla 1, 3 oraz sześciokrotnego składania udaru młotem i kafarem. Wykonano obliczenia parametrów amplitudowo-częstotliwościowych zastosowanych źródeł sejsmicznych takich jak: maksymalna amplituda składowych i wypadkowa maksymalnej amplitudy prędkości drgań, tłumienie amplitudy, energia sygnału, zakres częstotliwościowy głównej energii sejsmicznej, częstotliwości dominujące. Obliczone parametry amplitudowo-częstotliwościowe wskazały na kafar jako źródło sejsmiczne pozwalające uzyskać korzystniejsze wyniki w związku z większym zasięgiem głębokościowym, łatwiejszym przetwarzaniem interpretacją danych sejsmicznych oraz korzystniejszej rozdzielczości obrazów wynikowych. Natomiast podkreślono, że użycie młota w zadaniach niewymagających większego zasięgu głębokościowego jest jak najbardziej korzystne, gdyż efekt uzyskany przy kilkunastokrotnym składaniu sygnału jest zbliżony do użycia kafaru.

EN

A variety of seismic sources has been developed for use in seismic method for engineering purposes. The choice of an appropriate energy source is one of the parameters used in designing the seismic acquisition survey, that choice determines the maximum depth range and seismic resolution. The effectivity of the seismic source depends not only on the source parameters itself, but also upon the environmental conditions, recording parameters and the interpretation of the seismic data. These factors affect the amplitude and spectral content of the seismic wave propagating in subsurface. This paper presents the results of the seismic survey comparing different sources parameters under identical survey conditions at a single site in Institute of Innovative Technologies EMAG, Katowice. We compared two mechanical seismic sources: 4-kg sledgehammer and an electrically operated weight-drop of impact mass 100 kg. The survey was conducted with 3-component geophones of a natural frequency of 4.5 Hz. As a result of the survey, we acquired Z, X and Y component vibration velocity records for 1, 3 and 6 stacking numbers for both the sledgehammer and weight-drop. The following amplitude-frequency parameters were calculated: maximum amplitude for 3 components and net velocity value, amplitude damping, signal energy, main seismic energy frequency range and dominant frequencies. The calculated parameters showed that weight drop is the source capable of generating records of better quality due to the larger depth range, easier processing and interpretation of seismic records and a higher resolution of the output results. However, it was pointed out that use of the sledgehammer in surveys with no need of a larger bigger depth range, is by far more profitable, as the outcome of multifold stacking number with sledgehammer is similar to that of the weight-drop.

12

Wybrane właściwości mechaniczne stopu ZnAl10 poddanego modyfikacji zaprawami wprowadzającymi tytan

Piwowarski G., Krajewski P. K., Buraś J., Krajewski K.

Archives of Foundry Engineering

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2015

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Vol. 15, iss. 4 spec.

99--102

PL

Stopy Zn-Al charakteryzują się wieloma pozytywnymi cechami, między innymi zdolnością do tłumienia drgań, co stawia je w grupie tworzyw o zaawansowanych właściwościach. W stanie po odlaniu, zwłaszcza do form piaskowych stopy Zn-Al cechuje niekorzystna ze względu na właściwości plastyczne silnie dendrytyczna struktura. Aby zmienić charakterystykę wydzieleń dendrytycznych a jednocześnie rozdrobnić ziarno stosuje się zabieg modyfikowania struktury stopu. Najlepsze efekty uzyskuje się wprowadzając do ciekłego stopu obce cząstki Ti w zaprawach. W technologii stopów Zn-Al wykorzystuje się zaprawy znane z technologii stopów Al-Zn oraz nowe zaprawy Zn-Ti, które charakteryzują się bardzo dobrą rozpuszczalnością w temperaturach topienia stopów Zn-Al oraz zbliżoną gęstością. W artykule prezentowane są wyniki badań dla stopu Zn - 10%Al, który został zmodyfikowany zaprawą AlTi3C0,15 oraz zaprawą ZnTi3,2. Najpierw wytopiono stop wstępny ZnAl10 a następnie prowadzono jego modyfikację. Obydwie zaprawy wprowadzane były do stopu w taki sposób, aby dostarczyć 25, 50, 100, 200 i 400 ppm Ti. Stop wyjściowy i po modyfikacji odlewane były do suszonych form zbudowanych z klasycznej masy formierskiej. Próbki po wybiciu z formy obrabiane były mechanicznie a następnie badane. W celu wyznaczenia współczynnika tłumienia prowadzane były badania ultradźwiękowe. Wytrzymałość na rozciąganie oraz wydłużenie badane były na maszynie wytrzymałościowej Instron 6025. Zestawienie wyników pozwoliło porównać skuteczność modyfikacji daną zaprawą, oraz ich wpływ na daną właściwość stopu. W znacznej części badania dowodzą tego, że obydwie zaprawy działają w bardzo podobny sposób i wywierają podobny wpływ na właściwości stopu ZnAl10.

EN

Zn-Al alloys are characterised by several positive features, among others by the ability of damping vibrations, which situates them in the group of materials of advanced properties. In as cast condition, especially in sand moulds, Zn-Al alloys have strongly dendritic structure which is disadvantageous on account of their plastic properties. In order to change the characteristic dendritic precipitates and simultaneously to refine grains, the procedure of modifying the alloy structure is applied. The best effects are obtained when Ti particles contained in inoculants are introduced into liquid alloys. The inoculants known from the Al-Zn alloys technology, as well as new Zn-Ti inoculants characterised by very good solubility at melting temperatures of Zn-Al alloys and by similar density, are applied in the Zn-Al alloys technology. The results of investigations of the Zn - 10%Al alloy, which was modified by the AlTi3C0,15 and ZnTi3,2 inoculants, are presented in the hereby paper. The master foundry alloy ZnAl10 was at first melted and then its modification was performed. Both inoculants were introduced into the alloy in such way as to supply 25, 50, 100, 200 and 400 ppm of Ti. The master alloy and the alloy after the modification were cast into dry moulds made of the classic moulding sand. The samples, after knocking out from the mould, were subjected to mechanical working and then investigated. To determine the damping coefficient ultrasound tests were performed. The tensile and elongation strengths were tested by the testing machine Instron 6025. The compilation of results allowed to compare the efficiency of the modification by the given inoculant and their influence on the given property. Investigations, in a significant part, prove that both inoculants operate in a very similar fashion and have a similar influence on the ZnAl10 alloy properties.

13

Reflected and transmitted powers of electromagnetic waves through a ferrite-dielectric photonic crystal

Ubeid M. F., Shabat M. M.

International Letters of Chemistry, Physics and Astronomy

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2014

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Vol. 14, iss. 1

86--98

EN

In this work, reflection and transmission of electromagnetic wave by a periodic ferrite-dielectric photonic crystal are investigated theoretically and numerically. The ferrite material is described and its main parameters are given in detail. After the construction of the problem, the reflection and transmission coefficients are derived in a closed form by a transfer matrix method. The reflected, transmitted, and loss powers of the crystal are calculated using these coefficients. In the numerical results the mentioned powers are computed and illustrated as a function of frequency, angle of incidence, dielectric thickness, and applied magnetic field intensity when the damping coefficient changes.

14

Research on elastic-damping properties of unit loads

Piątkowski T.

Journal of Polish CIMAC

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2013

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Vol. 8, no 3

75--81

EN

In the paper, the results of tests of free-fall of unit load (cubicoidal package) from a height on the stiff ground are presented. The aim of this study is to determine the elastic-damping properties of packaging for all surfaces, edges and corners. These tests allow us to evaluate the protective ability of packages in case of impact in any direction typical for real transport systems. The maximum accelerations registered during experimental tests are subjected to approximation by means of B-spline surface. It enables the visual interpretation of data in three-dimensional space, allowing detection critical packaging places for the safety of transported goods. In addition, the registered acceleration waveforms were used to determine the coefficients of: restitution, damping and rigidity. These parameters are required to the analytical descriptions of loads contact with obstacles - such as in the models of sorting or positioning processes of packagings.

15

Influence of temperature on characteristics properties of flexible coupling

Homisin J., Kassay P.

Transport Problems

|

2012

|

T. 7, z. 4

123-129

EN

The presented article deals with issue of characteristics changes of flexible shaft couplings used in drive systems of transport devices (dynamic torsional stiffness and damping coefficient) which is caused by influence of increase or decrease of flexible elements temperature. The influence is presented on a unit and percentage change of dynamic characteristics of four selected flexible couplings with rubber, plastic and pneumatic flexible elements. Identification of influence of flexible element temperature was done through experimental measurement on kinematic excitation device with free mass on the output.

PL

Niniejszy artykuł jest poświęcony zagadnieniu zmiany właściwości charakterystycznych (dynamicznej sztywności skrętnej oraz współczynnika tłumienia) sprzęgieł elastycznych łączących wały, stosowanych w układach napędowych urządzeń transportowych, pod wpływem wzrostu lub obniżenia temperatury elementu elastycznego. Wpływ ten został przedstawiony na przykładzie zmian jednostkowej oraz procentowej właściwości dynamicznych czterech wybranych typów sprzęgieł elastycznych, łączących wały z gumowymi, plastikowymi oraz pneumatycznymi elementami elastycznymi. Określenie wpływu temperatury elementu elastycznego zostało przeprowadzone w formie pomiarów eksperymentalnych, wykonywanych na urządzeniu ze wzbudzaniem kinematycznym oraz swobodną masą początkową.

16

Facility for investigating the vibration of the plate with magnetorheological fluid

Snamina J.

Mechanics and Control

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2012

|

Vol. 31, no. 2

85-89

EN

This study briefly outlines the structure of the test facility for investigating the behaviour of a sandwich plate filled with magnetorheological (MR) fluid. The plate has two outer layers made of aluminium and the space between them is filled with MR fluid. The test facility is engineered within the framework of the research project focused on vibration reduction in beams and plates using MR fluids. The paper outlines the design of the test facility and the measurement equipment. Measurement data are summarised, including the free and forced vibration of the plate.

PL

W artykule przedstawiono stanowisko laboratoryjne do badania płyt z cieczą magnetoreologiczną (MR). Badana płyta jest płytą trójwarstwową, w której dwie zewnętrzne warstwy są wykonane z aluminium, a przestrzeń między nimi jest wypełniona cieczą MR. Stanowisko zbudowano w ramach projektu badawczego dotyczącego redukcji drgań belek i płyt przy wykorzystaniu cieczy MR. W pracy przedstawiono strukturę stanowiska oraz oprzyrządowanie układu pomiarowego. Zamieszczono wyniki pomiarów drgań własnych i wymuszonych płyty.

17

Viscoelastic Characterization of Different Solid Rocket Propellants Using the Maxwell Spring-Dashpot Model

Shekhar H., Kankane D. K.

Central European Journal of Energetic Materials

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2012

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Vol. 9, nr 3

189-199

EN

A single spring and a single dashpot in series was utilized to simulate the stress-strain curve for different classes of solid rocket propellants, namely extruded double base propellants (EDBP) and composite propellants (CP), in the uniaxial tensile mode in a constant rate of travel machine. The propellant behaves as a viscoelastic material and invariably exhibits stress relaxation, which cannot be simulated by elastic mechanical property parameters. In order to generate a complete stress-strain curve of a solid rocket propellant under tensile testing, different classes of solid rocket propellants were evaluated and the stress-strain curve generated was modelled using the single spring-single dashpot Maxwell fluid model. Using two constants, called the spring constant (K) and the damping factor (D), it was possible to generate a complete stress-strain curve. Mathematical formulation gives the stress (σ) - strain (ε) relation as….[wzór]. Additionally the physical nature of the spring constant resembles that of the elastic constant and the damping coefficient gives the contribution of the viscous part of the load bearing capacity of solid rocket propellants. The development of a general mathematical formulation, the calculation of constants for different classes of propellants and insight into the viscoelastic nature of propellants are the main themes of this article. For all classes of propellants, two ratios are defined. The first is a dimensionless parameter 'H', which is the ratio of the spring constant to the initial elastic modulus. The second is the ratio of the damping coefficient to the spring constant depicted by parameter 'S'. The spring constant is higher than the initial elastic modulus and the value of 'H' is always higher than 1. For brittle propellants (extruded double base propellants, EDBPs, with a high elastic modulus), the spring constant is numerically very close to the spring constant (H is around 1.75). As the ductility (percentage elongation) of the solid rocket propellants increases (from cartridge loaded composite propellants, CLCPs, to case-bonded composite propellants, CBCPs), the value of parameter 'H' also increases (H ~ 10 for CP). For EDBPs the parameter 'S' is smaller (~ 1.24), but for CLCPs and CBCPs, it is high (S ~ 5 to 8). Both of these ratios are basic properties of the polymeric matrix. The first ratio depicts the departure of the actual stress-strain curve from linearity, while the second ratio is another way of expressing the relaxation time. A higher 'H' indicates a softer and more ductile propellant, while a higher 'S' indicates a shorter relaxation time for the propellant. A lower 'S' indicates that the propellant recovers faster on removal of strain.

18

Damping properties vs. structure fineness of the high-zinc aluminum alloys

Krajewski W. K., Haberl-Faerber K., Buras J., Krajewski P. K.

Archives of Foundry Engineering

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2012

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Vol. 12, iss. 3

63-66

EN

The subject of this study is the presentation of relation between the degree of structure fineness and ultrasonic wave damping coefficient for the high-zinc aluminium alloys represented in this study by the sand mould cast alloy Al - 20 wt% Zn (AlZn20). The studied alloy was refined with a modifying (Al,Zn)-Ti3 ternary master alloy, introducing Ti in the amount of 400 pm into metal. Based on the analysis of the initial and modified alloy macrostructure images and ultrasonic testing, it was found that the addition of (Al,Zn)-Ti3 master alloy, along side a significant fragmentation of grains, does not reduce the coefficient of ultrasonic waves with a frequency of 1MHz.

19

Influence of temperature changes on torsional rigidity and damping coefficient of rubber torsional vibration damper

Homik W.

Transport Problems

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2011

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T. 6, z. 1

129-135

EN

The short explanation of usefulness of rubber torsional dampers in crankshaft in multi-cylinder engines is presented. The description of the construction and operation of rubber torsional damper is also included. In the rubber torsional damper, the damping is achieved as the effect of internal friction resulting from the deformation of the rubber material. This deformation appears while the internal rubber elasticity is overloaded. Both the physical and mechanical rubber properties depend on temperature change. In cooperation with rubber dampers manufacturer the experimental investigations are made in order to establish the influence of temperature change on torsional stiffness and damping.

PL

W pracy zamieszczono krótkie uzasadnienie celowości stosowania w wielocylindrowych samochodowych silnikach spalinowych, tłumików drgań skrętnych wałów korbowych. Omówiono także budowę oraz zasadę działania gumowego tłumika drgań skrętnych. Gumowy tłumik drgań skrętnych jest tłumikiem, który tłumi drgania skrętne wału dzięki istnieniu wewnętrznego tarcia gumy podczas jej deformacji. Deformacja ta występuje w chwili, gdy zostanie pokonana sprężystość wewnętrzna gumy. Mając na względzie fakt, że właściwości fizyczne i mechaniczne gumy są bezpośrednio związane ze zmianą temperatury, we współpracy z producentem gumowych tłumików drgań skrętnych zostały przeprowadzone badania, których celem było ustalenie wpływu zmian temperatury na sztywność skrętną i tłumienie tłumika. Wyniki badań i ich analizę zamieszczono w niniejszej pracy.

20

Dynamics of a rotor of two-pole asynchronous motor with damping

Morzuch W.

Vibrations in Physical Systems

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2010

|

Vol. 24

289--293

EN

The paper presents an analysis of dynamic stability of a rotor in two-pole asynchronous motor. A model of the rotor with continuous mass distribution, with changeable rigidity and with damping have been applied in the analysis. In order to determine the stability of the rotor transverse motion equations of its transverse vibration have been formulated. From the equations of motion, differential equations interrelating of the rotor dynamic deflection with space and time have been derived. Eventually, homogeneous, partial, differential equations have been obtained and solved by the Fourier’s method. Then an ordinary differential equation (Hill’s equation) describing the rotor vibration have been solved. An analysis of the solution became the basis for determining the regions of rotor motion instability. Finally, the critical damping coefficient values at which parametric resonance occurs have been determined.

PL

Artykuł przedstawia analizę stateczności dynamicznej wirnika dwubiegunowego silnika asynchronicznego. Przyjęto model wirnika z ciągłym rozłożeniem masy, o zmiennej sztywności z tłumieniem. W celu określenia stateczności wirnika ułożono równania opisujące jego drgania gięte. Na podstawie równań ruchu otrzymano równania różniczkowe opisujące ugięcia dynamiczne wirnika w funkcji przestrzeni i czasu. Ostatecznie otrzymano równanie różniczkowe cząstkowe, które rozwiązano metodą Fouriera. Następnie rozwiązano równania różniczkowe Hilla opisujące drgania poprzeczne wirnika. Analiza rozwiązania powyższego równania była podstawą do wyznaczenia obszarów niestateczności wirnika. Ostatecznie wyznaczono krytyczną wartość współczynnika tłumienia przy której ma miejsce rezonans parametryczny.