Amorphous metal materials in piezoelectric laminated actuators components
The matter of amorphous metal bands application in the laminated metal-polymeric functional components (actuators) for smart materials is hereby considered. The remarkable feature of the metal amorphous materials is their structural and chemical homogeneity, high plasticity and their resistance to repeated bending and corrosion. It is suggested to use the amorphous metal materials as bands in conjunction with ferroelectric ceramics made of lead zirconium-titanate to create laminated piezoelectric cells. Phase transformation process in nickel-based amorphous alloy VPr51 of metal-metalloid type by means of differential scanning calorimetry and thermo-mechanical analysis methods is studied as well. It is determined that the given nickel-based amorphous alloy keeps its structural homogeneity and workability in the temperature range up to 380°C relevant to the piezoelectric materials based on lead titanate-zirconium operation.
- Kablov E.N. Strategicheskie napravlenija razvitija materialov i tehnologij ih pererabotki na period do 2013 goda [The strategic directions of development of materials and technologies of their processing for the period till 2013] //Aviacionnye materialy i tehnologii. 2012. №S. S. 7–17.
- Kablov E.N. Sovremennye materialy – osnova innovacionnoj modernizacii Rossii [Modern materials – basis of innovative modernization of Russia] //Metally Evrazii. 2012. №3. S. 10–15.
- Kablov E.N. Himija v aviacionnom materialovedenii [Chemistry in aviation materials science] //Rossijskij himicheskij zhurnal. 2010. T. LIV. №1. S. 3–4.
- Guljaev I.N., Gunjaev G.M. Ispol'zovanie nepreryvnyh armirujushhih volokon v kachestve tenzorezistornyh sensornyh jelementov [Use of continuous reinforcing fibers as tenzorezistorny touch elements] //Aviacionnye materialy i tehnologii. 2010. №2. S. 22–27.
- Guljaev I.N., Gunjaev G.M., Raskutin A.E. Polimernye kompozicionnye materialy s funkcijami adaptacii i diagnostiki sostojanija [Polymeric composite materials with functions of adaptation and condition diagnostics] //Aviacionnye materialy i tehnologii. 2012. №S. S. 242–253.
- Kablov E.N., Sivakov D.V., Guljaev I.N., Sorokin K.V., Fedotov M.Ju., Goncharov V.A. Metody issledovanija konstrukcionnyh kompozicionnyh materialov s integrirovannoj jelektromehanicheskoj sistemoj [Methods of research of constructional composite materials with the integrated electromechanical system] //Aviacionnye materialy i tehnologii. 2010. №4. S. 17–20.
- Sivakov D.V., Guljaev I.N., Sorokin K.V., Fedotov M.Ju., Goncharov V.A. Osobennosti sozdanija polimernyh kompozicionnyh materialov s integrirovannoj aktivnoj jelektromehanicheskoj aktjuatornoj sistemoj na osnove p'ezojelektrikov [Features of creation of polymeric composite materials with the integrated active electromechanical aktyuatorny system on the basis of piezoelectric materials] //Aviacionnye materialy i tehnologii. 2011. №1. S. 31–34.
- Muhametov R.R., Ahmadieva K.R., Chursova L.V, Kogan D.I. Novye polimernye svjazujushhie dlja perspektivnyh metodov izgotovlenija konstrukcionnyh voloknistyh PKM [New polymeric binding for perspective methods of manufacturing of constructional fibrous PKM] //Aviacionnye materialy i tehnologii. 2011. №2. S. 38–42.
- Deev I.S., Kablov E.N., Kobec L.P., Chursova L.V. Issledovanie metodom skanirujushhej jelektronnoj mikroskopii deformacii mikrofazovoj struktury polimernyh matric pri mehanicheskom nagruzhenii [Research by method of scanning electron microscopy of deformation of microphase structure of polymeric matrixes at mechanical loading] //Trudy VIAM. 2014. №7. St. 06 (viam-works.ru).
- Mihajlin Ju.A. Special'nye polimernye kompozicionnye materialy [Special polymeric composite materials]. SPb.: Izd-vo «NOT». 2009. 657 s.
- P'ezojelektricheskij sloistyj aktjuator [Piezoelectric layered aktyuator]: pat. №101271 Ros. Federacija; opubl. 10.01.2011.
- Fizikohimija amorfnyh (stekloobraznyh) metallicheskih materialov [Fizikokhimiya of amor-phous (stekloobrazny) metal materials] /Pod red. Ju.K. Kovneristogo. M.: Metallurgija. 1987. 328 s.
- Amorfnye metallicheskie splavy [Amorphous metal alloys]: Per. s angl.; Pod red. F.E. Ljuborskogo. M.: Metallurgija. 1987. 584 s.
- Kovneristyj Ju.K., Osipov Je.K., Trofimova E.A. Fiziko-himicheskie osnovy sozdanija amorfnyh metallicheskih splavov [Physical and chemical bases of creation of amorphous metal alloys]. M.: Nauka. 1983. 145 s.
- Alehin V.P., Honik V.A. Struktura i fizicheskie zakonomernosti deformacii amorfnyh splavov [Structure and physical patterns of deformation of amorphous alloys]. M.: Metallurgija. 1992. 248 s.
- Stoljankov Ju.V., Aleksashin V.M., Antjufeeva N.V. K voprosu ob ocenke sklonnosti metallicheskih sistem k amorfizacii [To question of assessment of tendency of metal systems to amorfizatsiya] //Aviacionnye materialy i tehnologii (v pechati).
- Zolotuhin I.V. Fizicheskie svojstva amorfnyh metallicheskih materialov [Physical properties of amorphous metal materials]. M: Metallurgija. 1986. S. 56.
- Stoljankov Ju.V., Antjufeeva N.V., Raskutin A.E., Karimova S.A. Issledovanie vozmozhnosti sozdanija metallopolimernyh kompozicionnyh materialov s ispol'zovaniem tonkolistovyh amorfnyh splavov [Research of possibility of creation of metalpolymeric composite materials with use of tonkolistovy amorphous alloys] //Kompozity i nanostruktury. 2014. T. 6. №1. S. 25–31.
- Antjufeeva N.V., Aleksashin V.M., Zhelezina G.F., Stoljankov Ju.V. Metodicheskie podhody termoanaliticheskih issledovanij dlja ocenki svojstv prepregov i ugleplastikov [Methodical ap-proaches of thermoanalytical researches for assessment of properties of prepregs and ugleplastikov] //Prilozhenie k zhurnalu «Vse materialy. Jenciklopedicheskij spravochnik». 2012. №4. S. 18–27.
