Proceedings of the 2015 International 978-1-63484-577-9

Proceedings of the 2015 International Conference on “Physics, Mechanics of New Materials and Their Applications”, Devoted to the 100th Anniversary of the Southern Federal University

Name: Proceedings of the 2015 International Conference on “Physics, Mechanics of New Materials and Their Applications”, Devoted to the 100th Anniversary of the Southern Federal University
SKU: 27476
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Dr. Shun-Hsyung Chang, PhD (Editor), Ivan A. Parinov, PhD (Editor), Vitaly Yu. Topolov

Series: Physics Research and Technology
BISAC: SCI055000

Advanced materials and composites, including piezoelectrics, nanomaterials, nanostructures, functional materials, polymeric composites and so on, are very important for modern sciences, technologies and techniques. This book presents processing techniques, physics, mechanics, chemistry and applications of advanced materials. It covers broad classes of modern materials, structures and composites with specific properties. Nanotechnology approaches, modern piezoelectric techniques, physical and mechanical studies of the structure-sensitive properties of the materials, modern methods and techniques of physical experiment, and more.

This collection presents selected reports of the 2015 International Conference on “Physics, Mechanics of New Materials and Their Applications” (PHENMA 2015, May 19-22, 2015, Azov, Russia), devoted to the 100-year Anniversary of the Southern Federal University. The book is addressed to students, post-graduate students, scientists and engineers taking part in R&D of nanomaterials, piezoelectrics, magnetic and other advanced materials, as well as different devices which are based on these constituents demonstrating broad applications in different areas of science, technique and technology. This book includes new studies and results in the fields of condensed matter physics, materials science, physical and mechanical experiments, processing techniques and engineering of nanomaterials, piezoelectrics, other advanced materials and composites, and numerical methods and results. Also, different applications, developed devices and goods are critiqued and analyzed.

(Imprint: Nova)

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ISBN: N/A Categories: General and Introductory Physics, Physics and Astronomy, Physics Research and Technology Tags: 9781634845779, 9781634845908, general and introductory physics

Table of Contents
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Table of Contents

Preface

Processing Techniques

Chapter 1

Local Atomic and Electronic Structure of the Pt/C Nanoparticles Grown in He and H2 Gas Phase Reducing Agent

(N. M. Nevzorova, I. N. Leontyev and G. E. Yalovega, Department of Physics, Southern Federal University, Rostov-on-Don, Russia)

Chapter 2

Effects of Combined Modifying of Niobate Materials Non-Containing Toxic Elements

(Kh. A. Sadykov, I. A. Verbenko, L. A. Reznichenko, G. M. Konstantinov, A. A. Pavelko, L. A. Shilkina and S. I. Dudkina, Research Institute of Physics, Southern Federal University, Rostov-on-Don, Russia)

Chapter 3

Synthesis, Structure, and Optical Characteristics of Barium Strontium Niobate Thin Films

(G.N. Tolmachev, A.P. Kovtun, I.N. Zaharchenko, I.M. Aliev, S.P. Zinchenko, A.V. Pavlenko, I.A. Verbenko and L.A. Reznichenko, Southern Scientific Center of the Russian Academy of Sciences, Rostov-on-Don, Russia, and others)

Chapter 4

Optimization of Conditions for Obtaining PbMn1/2Nb1/2O3 by Direct Synthesis of a Mixture of Oxides and Sintering by Conventional Ceramic Technology

(L. A. Shilkina, I. A. Verbenko, G. M. Konstantinov, S. I. Dudkina and L. A. Reznichenko, Research Institute of Physics, Southern Federal University, Rostov-on-Don, Russia)

Chapter 5

The Effect of Mechanical Activation on the Properties of Multiferroic PbFe0.5Ta0.5O3 Ceramics

(§¡. §¡. Gusev, I. P. Raevski, §¦. G. §¡vvakumov, V. P. Isupov, S. I. Raevskaya, S. P. Kubrin, D. A. Sarychev, V. V. Titov, H. Chen, C.-C. Chou, and V. Yu. Shonov, Institute of Solid State Chemistry and Mechanochemistry SB RAS, Novosibirsk, Russia, and others)

Chapter 6

Fabrication of Piezoelectric Ceramics with Lowered Sintering Temperature for MEMS

(V. V. Eremkin, V. G. Smotrakov, M. A. Marakhovskiy and A. E. Panich, Southern Federal University, Rostov-on-Don, Russia)

Chapter 7

New Ceramic Matrix Piezocomposites for Underwater Ultrasonic Applications

(E. I. Petrova, A. A. Naumenko, M. A. Lugovaya and A. N. Rybyanets, Institute of Physics, Southern Federal University, Rostov-on-Don, Russia)

Chapter 8

Lead-Free Piezoceramic Materials for Ultrasound Applications

(M. V. Talanov, L. A. Shilkina and L. A. Reznichenko, Research Institute of Physics, Southern Federal University, Rostov-on-Don, Russia)

Chapter 9

Creation and Physical Properties of Highly Effective Lead-Free Solid Solutions

(Kh. A. Sadykov, I. A. Verbenko, G. M. Konstantinov, L. A. Reznichenko and A. A. Pavelko, Research Institute of Physics, Southern Federal University, Rostov-on-Don, Russia)

Chapter 10

Digital Piezoelectric Material Based on Extracoarse-Grained Piezocomposite ¡°Porous Ceramic ¨C Polymer¡±

(D. I. Makariev, A. N. Reznitchenko, A .A. Naumenko, E. I. Petrova and A. N. Rybyanets, Institute of Physics, Southern Federal University, Rostov-on-Don, Russia)

Chapter 11

Numerical Simulation of Films Laser Annealing on the Sapphire Surface

(S. P. Malyukov, A. V. Sayenko and Yu. V. Klunnikova, Institute of Nanotechnology, Electronics and Electronic Equipment Engineering, Department of Electronic Apparatuses Design, Southern Federal University, Taganrog, Russia)

Chapter 12

Numerical Analysis of Inorganic Glassy Dielectric Laser Processing

(S. P. Malyukov, Y. V. Klunnikova and T. H. Bui, Institute of Nanotechnology, Electronics and Electronic Equipment Engineering, Department of Electronic Apparatuses Design, Southern Federal University, Taganrog, Russia)

Chapter 13

Features of Sapphire and Glassy Dielectric Junction Formation for Elements of Microelectronics

(S. P. Malyukov, Yu. V. Klunnikova, A. V. Sayenko and D. A. Bondarchuk, Institute of Nanotechnology, Electronics and Electronic Equipment Engineering, Department of Electronic Apparatuses Design, Southern Federal University, Taganrog, Russia)

Chapter 14

Features of Technology of SAW Devices

(V. G. Dneprovski and G. Ya. Karapetyan, Vorovich Mathematics, Mechanics and Computer Science Institute,Southern Federal University, Rostov-on-Don, Russia)

Chapter 15

Utilization of Leonardite for Producing Slow-Release Fertilizer

(Petchporn Chawakitchareon, Jittrera Buates, and Rewadee Anuwattana, Department of Environmental Engineering, Faculty of Engineering, Chulalongkorn University, Bangkok, Thailand, and others)

Physics

Chapter 16

Piezoelectric Performance and Features of Microgeometry of Novel Composites Based on Ferroelectric ZTS-19 Ceramics

(Petr A. Borzov, Alexander A. Vorontsov, Vitaly Yu. Topolov, and Olga E. Brill, Scientific Design & Technology Institute ¡®Piezopribor¡¯, Southern Federal University, Rostov-on-Don, Russia, and others)

Chapter 17

Figures of Merit and Related Parameters of Modern Piezo-Active 1¨C3-Type Composites for Energy-Harvesting Applications

(Vitaly Yu. Topolov, Christopher R. Bowen, and Ashura N. Isaeva, Department of Physics, Southern Federal University, Rostov-on-Don, Russia, and others)

Chapter 18

Piezoelectric Sensitivity and Anisotropy of a Novel Lead-Free 2¨C2 Composite

(Vitaly Yu.Topolov, Christopher R.Bowen, and Franck Levassort, Department of Physics, Southern Federal University, Rostov-on-Don, Russia, and others)

Chapter 19

Characterization Techniques for Advanced Materials and Devices

(M. A. Lugovaya, E. I. Petrova, T. V. Rybyanets, G. M. Konstantinov and A. N. Rybyanets, Institute of Physics, Southern Federal University, Rostov-on-Don, Russia, and others)

Chapter 20

New Functional Materials

(K. P. Andryushin, I. N. Andryushina, L. A. Reznichenko, L. A. Shilkina and O. N. Razumovskaya, Research Institute of Physics, Southern Federal University, Rostov-on-Don, Russia)

Chapter 21

Piezoelectric Ceramic Materials with High Ferroelectric Hardness and Efficiency

(H. A. Sadykov, I. A. Verbenko, S. I. Dudkina, and L. A. Reznichenko, Research Institute of Physics, Southern Federal University, Rostov-on-Don, Russia)

Chapter 22

Experimental Study of High Temperature Porous Piezoceramics

(I. A. Shvetsov, M. A. Lugovaya, N. A. Shvetsova, G. M. Konstantinov and A. N. Rybyanets, Institute of Physics, Southern Federal University, Rostov-on-Don, Russia)

Chapter 23

Structural Peculiarities of Porous Ferroelectric Ceramics

(G. M. Konstantinov, Y. B. Konstantinova, N. A. Shvetsova, N. O. Svetlichnaya and A. N. Rybyanets, Southern Federal University, Rostov-on-Don, Russia)

Chapter 24

Complex Parameters of Porous PZT Piezoceramics Measured for Different Vibrational Modes

(M. A. Lugovaya, A. A. Naumenko, E. I. Petrova and A. N. Rybyanets, Southern Federal University, Rostov-on-Don, Russia)

Chapter 25

Experimental Study of Ultrasonic Attenuation and Dispersion Relationships for Ceramic Matrix Composites

(E. I. Petrova, A. A. Naumenko, S. A. Shcherbinin and A. N. Rybyanets, Institute of Physics, Southern Federal University, Rostov-on-Don, Russia)

Chapter 26

Correlation Bonds: Structure ¨C Electrophysical Properties of the Binary PZT System

(I. N. Andryushina, L. A. Reznichenko, L. A. Shilkina, S. I. Dudkina, K. P. Andryushin and O. N. Razumovskaya, Research Institute of Physics, Southern Federal University, Rostov-on-Don, Russia)

Chapter 27

Refinement of the R3c ¡ú R3m Transition Line in the Phase Diagram of PZT Solid Solutions

(A. A. Pavelko, L. A. Shilkina, K. P. Andryushin, I. N. Andryushina, S. I. Dudkina, L. A. Reznichenko and O. N. Razumovskaya, Research Institute of Physics, Southern Federal University, Rostov-on-Don, Russia)

Chapter 28

Absorption Spectra of Microwave Energy of Piezoelectric Ceramics Synthesized under Different Sintering Temperature

(E. N. Sidorenko, V. G. Smotrakov, V. V. Eremkin, I. I. Natkhin, M. E. Agarkova, A. A. Naumenko and E. I. Petrova, Southern Federal University, Rostov on Don, Russia, and others)

Chapter 29

Pyroelectric Activity and Dielectric Response of the PbZr1-xTixO3 System in the Range of 0.37 ¡Ü x ¡Ü 0.57

(Yu. N. Zakharov, A. A. Pavelko, A. G. Lutokhin, V. G. Kuznetsov, L. A. Shilkina and L. A. Reznichenko, Research Institute of Physics, Southern Federal University, Rostov-on-Don, Russia)

Chapter 30

Polycrystalline Solid Solutions Based on Alkali Metal Niobates Modified with Glass-Forming Additives

(I. A. Verbenko, L. A. Reznichenko, A. G. Abubakarov, L. A. Shilkina, S. I. Dudkina and A. A. Pavelko, Research Institute of Physics, Southern Federal University, Rostov-on-Don, Russia)

Chapter 31

Effect of Zr and (Ti, Zr) doping on Ferroelectric and Magnetic Phase Transitions in Pb(Fe1/2Nb1/2)O3

(I. P. Raevski, V. V. Titov, S. I. Raevskaya, V. V. Laguta, M. Marysko, S. P. Kubrin, H. Chen, C.-C. Chou, M. A. Malitskaya, A. V. Blazhevich, D. A. Sarychev, L. E. Pustovaya, I. N. Zakharchenko, E. I. Sitalo and V. Yu. Shonov, Research Institute of Physics and Physical Faculty, Southern Federal University, Rostov-on-Don, Russia, and others)

Chapter 32

Influence of MnO2 on Dielectric Characteristics, Grain, and Crystal Structure of PbFe0.5Nb0.5O3 Ceramics

(N. A. Boldyrev, A. V. Pavlenko, L. A. Reznichenko and L. A. Shilkina, Research Institute of Physics, Southern Federal University, Rostov-on-Don, Russia, and others)

Chapter 33

Effect of Dynamic Fatigue on Dielectrtic and Pyroelectric Properties of (1 – x)PbFe1/2Nb1/2O3 ¨C xPbTiO3 Ceramics

(A.F. Semenchev, I.P. Raevski, S.I. Raevskaya, T.A. Minasyan, S.P. Kubrin, H. Chen, C-C Chou, M.A. Malitskaya and V. V. Titov, Research Institute of Physics and Physics Department, Southern Federal University, Rostov on Don, Russia, and others)

Chapter 34

Influence of Li2CO3 on Dielectric and Ceramic Characteristics of PbFe0.5Nb0.5O3

(N. A. Boldyrev, A. V. Pavlenko, and L. A. Shilkina, Research Institute of Physics, Southern Federal University, Rostov-on-Don, Russia, and others)

Chapter 35

Dielectric Characteristics of (Ba0.5Sr0.5)Nb2O6 Ceramics at Temperatures from – 250 ¡ã§³ to 180 ¡ã§³

(§¡. G. §¡bubakarov, §¡. V. Pavlenko, L. §¡. Reznichenko and §¡. S. Nazarenko, Research Institute of Physics, Southern Federal University, Rostov-on-Don, Russia, and others)

Chapter 36

Structure, Microstructure, and Composition of Bi1-xPrxFeO3 Ceramics

(S. V. Titov, I. A. Verbenko, L. A. Reznichenko, L. A. Shilkina, V. A. Aleshin, V. V. Titov, S. I. Shevtsova and A. P. Kovtun, Research Institute of Physics, Rostov State University, Rostov-on-Don, Russia)

Chapter 37

Dielectric Characteristics of Ceramic Solid Solutions of (1 ¨C x)BiFeO3 ¨C xPb(Fe0.5Nb0.5)O3 (x = 0.5¨C1.0 and ¡÷x = 0.05)

(A. V. Pavlenko, L. A. Reznichenko, V. S. Stashenko, A. V. Markov and N. A. Boldyrev, Southern Scientific Center of the Russian Academy of Sciences, Rostov-on-Don, Russia, and others)

Chapter 38

The Structure, Microstructure, Dielectric Spectroscopy and Thermal Properties of BiFeO3 Modified with Dy

(S. V. Khasbulatov, A. A. Pavelko, L. A. Shilkina, L. A. Reznichenko, G. G. Hajiyev, A. G. Bakmaev, M.-R. M. Magomedov, Z. M. Omarov, and V. A. Aleshin, Research Institute of Physics, Southern Federal University, Rostov-on-Don, Russia, and others)

Chapter 39

Preparation, Structure, Microstructure, Dielectric and Thermal Properties of Bismuth Ferrite with Holmium, Erbium and Ytterbium

(S. V. Khasbulatov, A. A. Pavelko, L. A. Shilkina, V. A. Aleshin, I. A. Verbenko, G. G. Hajiyev, Z. M. Omarov, A. G. Bakmaev, O. N. Razumovskaya and L. A. Reznichenko, Research Institute of Physics, Southern Federal University, Rostov-on-Don, Russia, and others)

Chapter 40

Magnetodielectric Interactions in Bi0.5La0.5MnO3 Ceramics in Temperature Range of 10 ¨C 120 K

(A. V. Pavlenko, A. V. Turik, L. A. Reznitchenko and Yu. S. Koshkid¡¯ko, Southern Scientific Center of the Russian Academy of Sciences, Rostov-on-Don, Russia, and others)

Chapter 41

Mathematical Simulation of Processes of the Electromass Transfer in Controlled Electrochemical Resistance

(T. P. Skakunova, Yu. Ya. Gerasimenko, D. D. Fugarov and I. V. Tarasov, Don State Technical University, Rostov-on-Don, Russia)

III. Mechanics

Chapter 42

Mechanical Properties of the Bulk Composite Nanomaterial Consisting of Albumin and Carbon Nanotubes

(Alexander Gerasimenko, Levan Ichkitidze, Vitaly Podgaetsky and Sergei Selishchev, National Research University of Electronic Technology ¡°MIET¡±, MIET, Zelenograd, Moscow, Russian Federation)

Chapter 43

Dynamic Contact Problem for a Heterogeneous Layer with a Liquid Sheet on a Non-deformable Foundation

(M. A. Sumbatyan, A. Scalia and E. A. Usoshina, Southern Federal University, Rostov-on-Don, Russia, and others)

Chapter 44

The Development of Methods for the Determination of Thermal and Tribological Characteristics of the Friction Surfaces

(P. G. Ivanochkin, S. I. Builo, I.V. Kolesnikov, and N. A. Myasnikova, Rostov State Transport University, Rostov-on-Don, Russia, and others)

Chapter 45

Investigation of the Indenter Temperature and Speed Effect during Instrumented Indentation on the Mechanical Properties of Carbon Steels

(E. V. Sadyrin, L. I. Krenev, B. I. Mitrin, I. Yu. Zabiyaka, S. M. Aizikovich and S. O. Abetkovskaya, Research and Educational Center ¡°Materials,¡± Don State Technical University, Rostov-on-Don, Russia, and others)

Chapter 46

Numerical-Analytical Solution for Deflections and Force Factors Due to Concentrated Load on Cantilever Plate

(Yu. E. Drobotov and G. A. Zhuravlev, Vorovich Institute of Mathematics, Mechanics and Computer Sciences, Southern Federal University, Rostov-on-Don, Russia)

Chapter 47

Theory and Experiment in the Ultrasonic Nondestructive Testing for Arrays of Spatial Defects of the Elastic Materials

(N. V. Boyev, Vorovich Mathematics, Mechanics and Computer Sciences Institute, Southern Federal University, Rostov-on-Don, Russia)

Chapter 48

Boundary Element Method in Solving Problems of Poroviscoelasticity

(L. §¡. Igumnov, A. A. Belov and A. A. Ipatov, Research Institute for Mechanics, Lobachevsky State University of Nizhni Novgorod, Nizhny Novgorod, Russia)

Chapter 49

Description of Non-linear Viscoelastic Deformations by the 3D Mechanical Model

(A. D. Azarov, and D. A. Azarov, Vorovich Mathematics, Mechanics and Computer Sciences Institute, Southern Federal University, Rostov-on-Don, Russia, and others)

Chapter 50

Determination of Strain Characteristics

(A. I. Kozinkina and Y. A. Kozinkina, Don State Technical University, Rostov-on-Don, Russia, and others)

Chapter 51

Frequency Dependences of the Complex Material Constants For Porous PZT Piezoceramics

(A. A. Naumenko, M. A. Lugovaya, E. I. Petrova, I. A. Shvetsov and A. N. Rybyanets, Institute of Physics, Southern Federal University, Rostov-on-Don, Russia)

Chapter 52

Finite Element Modeling of Lossy Piezoelectric Elements

(A. A. Naumenko, S. A. Shcherbinin, A. V. Nasedkin and A. N. Rybyanets, Institute of Physics, Southern Federal University, Rostov-on-Don, Russia)

Chapter 53

Electromechanical Response Characterization of Piezoelectric Materials

(S. A. Shcherbinin, I. A. Shvetsov, M. A. Lugovaya, A. A. Naumenko and A. N. Rybyanets, Institute of Physics, Southern Federal University, Rostov-on-Don, Russia)

Chapter 54

Dielectric, Piezoelectric and Elastic Properties of Pzt/Pzt Ceramic Piezocomposites

(N. A. Shvetsova, M. A. Lugovaya, I. A. Shvetsov, D. I. Makariev and A. N. Rybyanets, Institute of Physics, Southern Federal University, Rostov-on-Don, Russia)

Chapter 55

Surface Acoustic Waves Method for Piezoelectric Material Characterization

(N. A. Shvetsova, A. N. Reznitchenko, I. A. Shvetsov, E. I. Petrova and A. N. Rybyanets, Institute of Physics, Southern Federal University, Rostov-on-Don, Russia)

Chapter 56

Dispersion Relation and Resonance Frequencies of Surface Acoustic Waves Excited in Barium Titanate Films

(P. E. Timoshenko, V. V. Kalinchuk, V. B. Shirokov, M. O. Levi and A. V. Pan¡¯kin, Southern Federal University, Rostov-on-Don, Russia, and others)

Chapter 57

Investigation of Features of Surface Wave Fields in a Media with Inhomogeneities

(O. V. Bocharova, V. V. Kalinchuk, A. V. Sedov and I. E. Andjikovich, South Scientific Center of Russian Academy of Sciences, Rostov-on-Don, Russia, and others)

Chapter 58

Vibroacoustics of §³omposite Polymeric Shells of Rotation Reinforced with Discrete Circular Ribs

(V. G. Safronenko, and O. I. Safronenko, Vorovich Institute for Mathematics, Mechanics and Computer Science, Southern Federal University, Rostov-on-Don, Russia, and others)

Chapter 59

Forced Oscillations of Shells with Auxetic Properties

(A. S. Yudin and S. A. Yudin, Vorovich Institute of Mathematics, Mechanics and Computer Science, Southern Federal University, Rostov-on-Don, Russia)

Chapter 60

Oscillations of Compressible Liquid Free Surface Generated by Plate

(Trepacheva G. N., Vorovich Institute of Mathematics, Mechanics and Computer Sciences, Southern Federal University, Rostov-on-Don, Russia)

Applications

Chapter 61

Development of the Model and Structure of the GaAs P-I-N Photodetector for Integrated Optical Commutation Systems

(I. Pisarenko and E. Ryndin, Institute of Nanotechnologies, Electronics and Electronic Equipment Engineering, Southern Federal University, Taganrog, Russia)

Chapter 62

Knock Sensors Based on Lead-Free Piezoceramics

(Yu. I. Yurasov, A. V. Pavlenko, I. A. Verbenko, L. A. Reznichenko and H. A. Sadykov, Don State Technical University, Rostov-on-Don, Russia, and others)

Chapter 63

Biological Solders for Laser Welding of Biological Tissues

(Alexander Gerasimenko, Levan Ichkitidze, Vitaly Podgaetsky, Evgenie Pyankov, Dmitrie Ryabkin and Sergei Selishchev, National Research University of Electronic Technology ¡°MIET,¡± MIET, Zelenograd, Moscow, Russia)

Chapter 64

HIFU Transducers Designs and Treatment Methods for Hemostasis of Deep Arterial Bleeding

(A. N. Rybyanets, A. E. Berkovich, T. V. Rybyanets, D. I. Makariev and A. N. Reznitchenko, Institute of Physics, Southern Federal University, Rostov-on-Don, Russia, and others)

Chapter 65

Theoretical Modeling And Experimental Study of High Intensity Focused Ultrasound Transducers: An Update

(S. A. Shcherbinin, A. A. Naumenko, N. A. Shvetsova, A. E. Berkovich and A. N. Rybyanets, Institute of Physics, Southern Federal University, Rostov-on-Don, Russia, and others)

Chapter 66

Modeling of Stress State of Welded Joint in Pipeline Taking into Account Uneven Distribution of Mechanical Properties

(V. V. Deryushev, E. E. Kosenko, A. V. Cherpakov, V. V. Kosenko, M. M. Zaitseva, L. E. Kondratova, and S. V. Teplyakova, Rostov State University of Civil Engineering, Rostov-on-Don, Russia, and others)

Chapter 67

Method and Computer Software for Definition of Stress-Strain State in Layered Anisotropic Constructions at Pulse Loading

(I. P. Miroshnichenko, Don State Technical University, Rostov-on-Don, Russia)

Chapter 68

Based on Analytical Modeling Identifying the Location of Multiple Cracks in the Rod Construction

(A. N. Soloviev, A. V. Cherpakov and I. A. Parinov, Don State Technical University, Rostov-on-Don, Russia, and others)

Chapter 69

Vibrodiagnostics of Truss Model with Damages: Experiment

(A. N. Soloviev, A. V. Cherpakov, E. V. Rozkov, and I. A. Parinov, Don State Technical University, Rostov-on-Don, Russia, and others)

Chapter 70

Analysis of Functional and Test Deformation Responses of Frame-Rod Models for Early Diagnostics of Integral Metallic Constructions

(E. V. Saulina, Yu. V. Esipov and A. I. Cheremisin, South Scientific Center of the Russian Academy of Sciences, Rostov-on-Don, Russia)

Chapter 71

Mathematical Modeling of Plane-Parallel Electrochemical Electrolytic Cell with Perforated Cathode

(A. N. Gerasimenko, Yu. Ya. Gerasimenko, E. Yu. Gerasimenko and A. I. Emelyanov, Don State Technical University, Rostov-on-Don, Russia)

Chapter 72

Algorithm of Redistribution of Connections between Outputs on the Base of Swarm Intellect

(O. A. Purchina, A.Y. Poluyan, D. D. Fugarov and Y.N. Bugaeva, Don State Technical University, Rostov-on-Don, Russia)

Chapter 73

Sustainable Livelihood Framework Analysis for Improving Local Sector Industries, Case Study: Local Sector Industries at Ledok Kulon, East Java-Indonesia

(R.A Retno Hastijanti, Department of Architecture, University of 17 Agustus 1945 Surabaya, East Java-Indonesia)

Chapter 74

Cluster Development of Small and Medium Manufacturing Industry in Surabaya City, East Java, Indonesia

(Erni Puspanantasari Putri, Department of Industrial Engineering, Khon Kaen University (KKU) Thailand; Department of Industrial Engineering, University of 17 Agustus 1945 (UNTAG) Surabaya, Indonesia)

Index

The book could be a base for some University courses in the fields of Condensed Matter Physics, Materials Science, Physical and Mechanical Experiment, Processing Techniques and Engineering of Nanomaterials, Piezoelectrics, other Advanced Materials and Composites, Numerical Methods and also different applications, developed devices and goods. Researchers, engineers, students, post-graduate students and their teachers, scientists and engineers, taking part in R&D of nanomaterials, piezoelectrics, magnetic and other advanced materials, and also different devices can discovery many interesting methods, approaches and results, obtained by modern science. The presented nano- and piezoelectric technologies, materials and applications could be interesting for industries.

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