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1

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.

2

The use of moisture-responsive materials in 4D printing

Al Nahari B.B.M.A., Zarbane K., Beidouri Z.

Journal of Achievements in Materials and Manufacturing Engineering

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2023

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Vol. 119, nr 1

5--13

EN

Purpose The objective of this research paper is to compile a list of key moisture-sensitive smart materials used in 4D printing. These materials have applications in various fields, including industrial and medical, and the list can be used as a reference for creating 4D-printed sensors and actuators. Design/methodology/approach The smart materials used in 4D printing are discussed, and a description of each material is given, including its principle, applications and areas of use. Findings We have discovered a large number of different materials that are sensitive to moisture and have identified those that are most essential for use in 4D printing. Research limitations/implications According to the results of this research, the moisture-sensitive materials used in 4D printing have very limited use and application, and the majority of these materials are still in the research and development stage. Originality/value This review article provides researchers interested in using smart materials to exploit 4D printing in the industrial and medical fields, as well as in many other disciplines, with a means to identify the most widely used and prevalent moisture-sensitive materials.

3

Aktywne i inteligentne materiały opakowaniowe

Gajlewicz Izabela

Przemysł Spożywczy

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2022

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T. 76, nr 5

36--42

PL

Zainteresowanie rozwojem inteligentnych i aktywnych materiałów opakowaniowych wzrasta, ponieważ producenci żywności starają się pozytywnie wpływać na zrównoważony rozwój i środowisko swoich produktów, przy jednoczesnym zachowaniu ich jakości i bezpieczeństwa. Aktywne materiały opakowaniowe zawierają składniki zwiększające ich funkcjonalność. Przykładami takich składników są: środki przeciwdrobnoustrojowe, przeciwutleniacze czy stabilizatory UV. Inteligentne materiały opakowaniowe zawierają elementy wykrywające, które zapewniają wskazanie zmiany kontrolowanych parametrów żywności, takich jak jakość, dojrzałość lub bezpieczeństwo. W artykule omówiono kilka rozwiązań stosowanych w opracowywaniu aktywnych i inteligentnych materiałów opakowaniowych dla przemysłu spożywczego.

EN

The interest in the development of intelligent and active packaging materials, especially biodegradable ones, is increasing as food producers try to improve the sustainable development and environmental impact of their products, while maintaining their quality and safety. Active packaging materials contain ingredients that increase their functionality, such as antimicrobials agents, antioxidants, UV stabilizers. Smart packaging materials contain sensing elements that provide an indication of changes in food parameters such as quality, maturity or safety. The article discusses several solutions used in the development of active and intelligent packaging materials in the food industry.

4

Instalacja do wytwarzania proszku ferromagnetycznego metodą elektrolizy w warunkach laboratoryjnych

Sołtys Krzysztof, Bartel Sebastian, Kluszczyński Krzysztof

Przegląd Elektrotechniczny

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2022

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R. 98, nr 9

77--81

PL

Artykuł prezentuje koncepcję własnej metody wytwarzania proszku ferromagnetycznego w warunkach laboratoryjnych na małą skalę przy wykorzystaniu procesu elektrolizy chemicznej. Autorzy opracowali projekt i zbudowali stanowisko badawcze, którego kluczowym elementem jest separator magnetyczny, analizowany z wykorzystaniem programów FEMM i CFD. Proszki ferromagnetyczne, uzyskane z użyciem dwóch różnych elektrolitów: wodnego roztworu NaCl oraz wodnego roztworu FeSO4 poddano testom potwierdzających ich magnetyczne właściwości.

EN

The article presents the concept of own method of producing ferromagnetic powder in small-scale laboratory conditions using the chemical electrolysis process. The authors developed a project and built a test stand, the key element of which is a magnetic separator, analyzed with the use of FEMM and CFD programs. Ferromagnetic powders obtained with the use of two different electrolytes: aqueous NaCl solution and aqueous FeSO4 solution were tested to confirm their magnetic properties.

5

A new BEM for modeling and simulation of 3T MDD laser-generated ultrasound stress waves in FGA smart materials

Fahmy Mohamed A.

Computer Methods in Materials Science

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2021

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Vol. 21, No. 2

95--104

EN

The goal of this study is to present a new theory known as the three-temperature memory-dependent derivative (MDD) of ultrasound stress waves in functionally graded anisotropic (FGA) smart materials. It is extremely difficult to address the difficulties related to this theory analytically due to its severe nonlinearity. As a result, we suggest a new boundary element method (BEM) to solve such equations. The suggested BEM technique incorporates the benefits of both continuous and discrete descriptions. The numerical results are visually represented to demonstrate the impacts of MDD three temperatures and anisotropy on the ultrasound stress waves in FGA smart materials. The numerical findings verify the proposed methodology’s validity and accuracy. We may conclude that the offered results are useful for comprehending the FGA smart materials. As a result, our findings contribute to the advancement of the industrial applications of FGA smart materials.

6

Concept of an adaptive-tuned particles impact damper

Żurawski Mateusz, Zalewski Robert, Chiliński Bogumił Daniel

Journal of Theoretical and Applied Mechanics

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2020

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Vol. 58 nr 3

811--816

EN

The most popular devices for attenuation of mechanical vibrations are dampers or shock absorbers. Two main energy dissipation strategies can be generally distinguished: passive and active (semi-active). Passive vibration isolation methods are the most commonly used, mainly because of their simplicity and low maintenance costs. Among passive vibration attenuation techniques, also Particle Impact Dampers (PID) are involved. Classical PID solutions have some certain limitations. This paper aims at presenting the new concept of an adaptive tuned PID damper that can pretend to be placed among semi-active energy dissipation methods.

7

Investigations of applications of smart materials and methods in fluid valves and drives

Milecki Andrzej, Rybarczyk Dominik

Journal of Machine Engineering

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2019

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Vol. 19, No. 4

122--134

EN

In the paper the investigations performed at the Division of Mechtronic Devices at Poznan University of Technology in the area of application of both: smart materials in electro-hydraulic and electro-pneumatic valves, and new methods to control of hydraulic servo drives, are presented. In a first part the piezo bender actuator is shortly described and its application in servo valve is proposed. This actuator replaced the torque motor in the available on the market servo valve. The new valve simulation model is proposed. The simulation and investigations results of the servo valve with the piezo bending actuator are included. In the next part of the paper the application of piezo tube actuator in flapper-nozzle pneumatic valve is described. The test stand and investigations results are presented. Later, in the article, the Model Following Control (MFC) and Fractional order Control (FoC) methods are described. Their application in control of electrohydraulic servo drive is proposed. Some investigations results are included in the paper, showing the advantages of those control methods.

8

The integration of a material structure with sensors and effectors - from theory to technology

Lipski Stanisław, Betiuk Marek

Journal of Machine Construction and Maintenance - Problemy Eksploatacji

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2019

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no. 3

39--45

EN

One of the directions of modern development in the field of material research is the inclusion of features, enabling them to detect external stimuli and change their own properties in order to adapt to changes in the environment. Such materials evoke a new design philosophy that combines the actions of sensors, executive mechanisms, and control functions in one structure, which are capable of changing their response, depending on changes detected in the environment. In the article, the authors confront the expectations of theoretical solutions with the practical possibilities of modern technologies for the creation of intelligent engineering materials.

PL

Jednym z kierunków współczesnego rozwoju w dziedzinie badań materiałowych jest włączenie cech, umożliwiając im detekcję bodźców zewnętrznych i zmianę ich własnych właściwości w celu dostosowania się do zmian w środowisku. Takie materiały wywołują nową filozofię ich projektowania, która łączy działania sensorów, mechanizmów wykonawczych i funkcji sterujących w jednej strukturze, zdolnej do zmiany swojej reakcji w zależności od zmian wykrywanych w otoczeniu. W artykule autorzy konfrontują oczekiwania teoretycznych rozwiązań z praktycznymi możliwościami współczesnych technologii tworzenia inżynierskich materiałów inteligentnych. Dodatkową zaletą referatu są liczne przykłady nowych osiągnięć na świecie w tej dziedzinie z odniesieniami do współczesnej literatury naukowej.

9

Semi-active torsional vibration isolation utilizing magnetorheological elastomer

Marzuki W. M. R. W., Muthalif A. G. A., Nordin N. H. D.

Vibrations in Physical Systems

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2018

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Vol. 29

art. no. 2018014

EN

In rotating machinery, unattenuated excessive torsional vibration leads to damage and excessive wear. This type of vibration, which is transferred from one structure to another can be estimated using torsional transmissibility factor (TTF). The value of the TTF describes the ratio of output to input and reaches its peak at the natural frequency. Hence, the ability to vary coupling stiffness of two rotating shafts will allow the control of the TTF towards better performance and preventions from fatigue loading. Traditionally, passive rubbers are used as a flexible coupling in between two shafts. However, the constant passive stiffness of the material limits its performance. To address this issue, an adaptive coupling based on magnetorheological elastomer (MRE) is proposed to achieve better TTF at varying frequencies. Mathematical modelling, simulation study and experimental results of MRE for torsional vibration isolation are presented in this work. Natural frequency obtained from the TTF shows an increase of about 3 Hz when current changed from 1 to 6 A.

10

Przegląd rozwiązań aktywnej kontroli drgań dla narzędzi skrawających

Kasprowiak M.

Stal, Metale & Nowe Technologie

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2018

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nr 3-4

18--23

PL

W artykule przedstawiono problematykę drgań występujących w trakcie obróbki skrawaniem, negatywne konsekwencje, jakie za sobą niosą, a także to, w jaki sposób wpływają na proces obróbki skrawaniem. Omówiono również nowoczesne materiały wykorzystywane w aplikacjach tłumiących drgania, niemniej jednak zasadniczą część publikacji stanowi przegląd opublikowanych rozwiązań konstrukcyjnych wspomagających walkę ze zjawiskiem drgań towarzyszącym procesowi skrawania.

EN

The paper presents the issue of vibrations during the machining process, negative consequences caused by them and how they influence the machining process. Moreover, smart materials used in vibration damping have been discussed. The main part of the paper describes a review of published solutions which support the fight with the vibration phenomenon during machining.

11

Finite Element Analysis of the local effect of a piezoelectric patch on an aluminum plate

Lebied A., Necib B., Sahli M.

Mechanics and Mechanical Engineering

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2017

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Vol. 21, nr 2

233--242

EN

We have been accustomed to traditional materials such as wood, leather, wool... and have known the revolution of plastics and composites materials. Recently, we have known other innovations: these of smart materials able to change the shape as the piezoelectric materials. This work deals with the electro-mechanical modeling of these structures by the finite element method. It consists on to model and to simulate deformations in a square aluminum plate subjected to an electric field. This is achieved by using PZT piezoelectric transducers that have such particularity to deform under the influence of an electric field. The study of the deformed aluminum plates equipped with a PZT patch is considered and these types of materials are commonly used in aeronautics and astronautics, which is the context of our study. We have clearly shown the effect of the electromechanical properties of different piezoelectric materials, the transverse piezoelectric coefficient d31 and the longitudinal piezoelectric coefficient d33 of PZT patch on the final response of the intelligent structure.

12

Operational characteristics of rotating magnetoreological clutches and brakes

Bajkowski J.

Journal of Machine Construction and Maintenance - Problemy Eksploatacji

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2017

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no. 3

7--12

EN

The following article is devoted to research on particular operational characteristics of prototypes of rotating magnetorheological clutches and brakes. The experiments were conducted on a specialized test stand, including a high power servo-motor, torque meters, and thermal sensors. In addition to the generally determined relationship of the clutch or brake torque transmitted over time and depending on the electric current, it has been shown that the particular operational characteristics of these devices are necessary for the full operational picture of the performance of the device. These are, among others, the torque versus rotational speed, temperature, and operational time dependencies.

PL

Praca poświęcona jest badaniom prototypów sprzęgieł i hamulców magnetoreologicznych pracujących w ruchu obrotowym. Zostały one przeprowadzone na specjalistycznym stanowisku badawczym. Obok powszechnie wyznaczanych zależności przenoszonego momentu obrotowego sprzęgła lub hamulca w funkcji czasu i w zależności od wartości natężenia prądu płynącego w solenoidach tych urządzeń i sterującego natężeniem pola magnetycznego wytwarzanego wokół cieczy magnetoreologicznej wykazano, że do pełnego obrazu eksploatacyjnych warunków pracy niezbędne jest wyznaczenie dodatkowych charakterystyk tych urządzeń. Są nimi między innymi wyznaczane w pracy charakterystyki ilustrujące zależności momentu obrotowego w funkcji obrotów, temperatury i inne.

13

Structural tests of freight wagons on the basis of signals generated by piezoelectric macro fiber composites

Płaczek M., Wróbel A., Buchacz A.

Acta Mechanica et Automatica

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2017

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Vol. 11, no. 3

210--216

EN

Paper presents a report of a research work that concerns possibilities of freight wagons modernization using new composite materials. The main aim of presented work was to verify the possibility of inference from the dynamic response of the wagon about the changes in its technical condition. During the presented works tests on real objects were carried out using Macro Fiber Composite (MFC) piezoelectric transducers glued to the freight wagon’s frame. The dynamical response of the wagon was measured while the object was driving. On the next stage the measured signal was generated on a laboratory stand using electrodynamic modal shaker and vibrations of the laboratory model were measured. Measured signals were juxtaposed on charts and analysed. The aim of this work was to verify if it is possible to detect the change in the system using measurements of vibrations that are being generated during exploitation of the freight wagon.

14

Influence of Terfenol-D powder volume fraction in epoxy matirx composites on their magnetomechanical properies

Mech R., Kaleta J.

Acta Mechanica et Automatica

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2017

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Vol. 11, no. 3

233--236

EN

In this paper the investigations of magnetostriction as well as DC magnetic properties for composites doped with Terfenol-D particles are presented. All investigations were performed for the materials with 35%, 46% and 70% volume fraction of the Terfenol-D particles surrounded by epoxy matrix. Moreover, the bulk Terfenol-D alloy was tested. The obtained results show that the magnetization of the composite materials increases with increasing the volume fraction of Terfenol-D particles. Similar dependence as for magnetization was observed for the magnetostriction measurements. Although the magnetostriction of composite material is smaller than for solid Terfenol-D it is still tens of times bigger than in case of traditional magnetostrictive materials. Obtained results gives opportunity to use these materials for variety applications such as actuators and sensors.

15

Vibration analysis for vehicle with vacuum packed particles suspension

Makowski M., Zalewski R.

Journal of Theoretical and Applied Mechanics

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2015

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Vol. 53 nr 1

109--117

EN

The paper concerns an effect of the damping force controlling a vehicle suspension system. The investigated vehicle suspension system consists of innovatory Vacuum Packed Particles controllable dampers which allow controlling the vehicle body vibration. The main objective of performed and presented in the paper studies is to determine properties of the Vacuum Packed Particles (VPP) damper and propose a preliminary control strategy. The control in the vehicle suspension system can be realized by controlling the underpressure resulting in various jamming mechanisms in the granular core. Some algorithms of vibration control are also proposed and discussed.

16

Magnetostriction of field-structural composite with Terfenol-D particles

Kaleta J., Lewandowski D., Mech R.

Archives of Civil and Mechanical Engineering

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2015

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Vol. 15, no. 4

897--902

EN

The paper describes the magnetomechanical properties of magnetostrictive composites containing a 70% volume fraction of Terfenol-D powder. Except for a reference specimen, composites were subjected to polarization during curing of the resin. The results of tests showed that polarization, its direction and type have an effect on the properties of the produced composites. The highest values of magnetostriction from the manufactured composite samples were obtained for the perpendicularly polarized specimen. For a pre-stress of 7 MPa the strain amounted to 720 ppm. The results indicate that the magnetostriction of the composite increases owing not only to the proper crystallographic orientation of the material, which is usually [1 1 2], but also to the proper preparation of the specimen in this case through polarization.

17

Magnetorheological materials based on ethylene-octene elastomer

Masłowski M., Zaborski M.

Polimery

|

2014

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T. 59, nr 11-12

825--833

EN

Magnetorheological elastomer composites based on several magnetoactive fillers such as: carbonyl iron powder, gamma iron oxide, micro- and nano-sized Fe3O4 in ethylene-octene elastomer are reported and studied. To improve the dispersion of the applied fillers in a polymer matrix, ionic liquids were added during the process of composite preparation. To align the particles in the elastomer, the crosslinking process took place in a magnetic field. The effect of the amount of ferromagnetic particles and their arrangement on the microstructure and properties in relation to the external magnetic field was examined. It was found that the microstructure isotropy and anisotropy has a significant effect on the properties of the magnetorheological elastomers. Moreover, different amounts of magnetoactive fillers influence the mechanical properties (increase the tensile strength) of the composites compared to unfilled samples. The magnetic flux directed parallel to the sample surface increases the saturation magnetization of the composites. Magnetic anisotropy can also be seen by analyzing the shape of magnetization curves — steeper curves obtained for anisotropic samples support the hypothesis of a specific arrangement of the filler particles in the elastomer. The addition of ionic liquids improve the dispersion of the applied magnetoactive fillers (CIP and g-Fe2O3) in the elastomer matrix, which in turn favorably affected the network density, tensile properties and magnetorheological effect of the composites.

PL

Wytworzono magnetoreologiczne kompozyty elastomerowe (MRE) na bazie kopolimeru etylenowo-oktenowego z udziałem napełniaczy magnetoaktywnych: żelaza karbonylkowego (CIP), tlenku żelaza gamma (g-Fe2O3), mikro- lub nanometrycznego tlenku żelaza (Fe3O4). W celu zwiększenia stopnia zdyspergowania zastosowanych napełniaczy do układu dodawano różne ciecze jonowe. Kompozyty sieciowane pod wpływem pola magnetycznego wykazywały silną anizotropię cząstek napełniaczy spowodowaną ich specyficznym ułożeniem w matrycy elastomerowej. Stwierdzono, że dodatek napełniaczy magnetycznych wpływa na poprawę właściwości mechanicznych kompozytów; nastąpiło zwiększenie wytrzymałości na rozciąganie wulkanizatów w porównaniu z wytrzymałością próbek nienapełnionych. Stwierdzono również, że strumień magnetyczny ukierunkowany równolegle do powierzchni próbek, a tym samym do łańcuchów cząstek napełniaczy, powoduje zwiększenie magnetyzacji nasycenia kompozytów. Zastosowane ciecze jonowe z grupy soli alkiloamoniowych zwiększają stopień zdyspergowania magnetyków w matrycy elastomerowej, co wpływa na ich większą aktywność. W konsekwencji, napełniacze tworzą rozbudowaną strukturę w elastomerach. Dodatek cieczy jonowych wpływa także na zwiększenie gęstości sieci przestrzennej, poprawę właściwości wytrzymałościowych oraz na wielkość efektu magnetoreologicznego kompozytów.

18

Shape-memory materials as control elements used in dot Braille actuator

Bryła J., Martowicz A.

Mechanics and Control

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2014

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Vol. 33, no. 4

83--89,

EN

The objective of this paper is to show a designing process for actuators that utilizes shape-memory materials. Analytical studies are carried out to design a dot actuator to be used in an electronic Braille display. Shape-memory materials are a relatively new group of smart materials that exhibit the transformation of their internal structures in solid state phases resulting from external mechanical or thermal excitation. This unique property shows up as three phenomena: one- and two-way memory effects as well as superelasticity, which all significantly influence the change of both the mateńal properties and geometry. Hence, shape-memory mateńals are used as actuators effectively controlled by the above-mentioned types of excitation. The work presents the design guidelines for a proposed technical solution as well as the phenomenon utilized in the elaborated model of the actuator. The authors derived the mathematical descriptions for the proposed design configuration and an example of the calculations is shown. Moreover, the characteristics of the elaborated configuration are also discussed, taking into account the range of application areas.

PL

W artykule przedstawiono proces projektowania siłowników zbudowanych z materiałów z pamięcią kształtu z zastosowaniem metod analitycznych na przykładzie członu wykonawczego punktu Braille'a stosowanego w elektronicznych wyświetlaczach alfabetu Braille'a. Materiały z pamięcią kształtu są stosunkowo nową grupą materiałów inteligentnych, które charakteryzują się przebudową struktury wewnętrznej w fazach stałych na skutek zewnętrznego wymuszenia mechanicznego lub termicznego. Ta szczególna własność widoczna jest w trzech zjawiskach: jednokierunkowego oraz dwukierunkowego efektu pamięci kształtu oraz supersprężystości, które istotnie wpływają na zmianę wartości parametrów materiałowych oraz geometrię. W efekcie materiały z pamięcią kształtu znajdują zastosowanie jako napędy w członach wykonawczych, w których skok siłownika jest funkcją jednego z wyżej wymienionych wymuszeń. W artykule przedstawiono założenia projektowe zaproponowanego rozwiązania technicznego oraz omówiono zjawisko wykorzystywane w opracowanym modelu. Autorzy wyprowadzili odpowiednie zależności ilościowe dla przyjętej konfiguracji siłownika, których użycie zaprezentowano na przykładzie obliczeniowym. Poddano dyskusji charakterystyki zaproponowanej konfiguracji projektowej, z uwzględnieniem obszaru jej zastosowania.

19

Modelling coupled electric field and motion of beam of ionic polymer-metal composite

Dominik I., Kaszuba F., Kwaśniewski J.

Acta Mechanica et Automatica

|

2014

|

Vol. 8, no. 1

38--43

EN

In this paper, a mathematical model of electromechanical transduction of Ionic Polymer-Metal Composites is presented. The aim of the research was to create a physics-based, geometrically scalable model to use in control systems. The relation between actuating voltage and the tip displacement was described with a transfer function. The model is derived from the basic physical properties of re-searched materials. To calculate the final transfer function, two impedance models are considered – with and without neglecting the re-sistance of the metal electrodes. In this paper, the model with non-zero electrode resistance is calculated. Later, the model is simplified (taking the physical properties into account) and the numerical values based on the parameters of the samples are calculated. The simpli-fications allow the model to predict the response to low-frequency sine wave actuation. The frequency-domain characteristics of the sam-ples were created experimentally and compared to the model. The results have proven the accuracy of the model.

20

Zasada wzajemności w elektrostrykcji

Wyrwał J.

Roczniki Inżynierii Budowlanej

|

2013

|

z. 13

57--62

EN

The paper contains derivation of reciprocity principle for boundary problem of electrostriction. The results obtained in this work can become the theoretical basis to formulate the numerical solutions of different scientific and engineering problems connected with electrostrictive materials.