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عدد المساهمات : 18984 التقييم : 35458 تاريخ التسجيل : 01/07/2009 الدولة : مصر العمل : مدير منتدى هندسة الإنتاج والتصميم الميكانيكى
| موضوع: كتاب 3D Printing of Sensors, Actuators, and Antennas for Low-Cost Product Manufacturing الخميس 23 فبراير 2023, 2:24 am | |
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أخواني في الله أحضرت لكم كتاب 3D Printing of Sensors, Actuators, and Antennas for Low-Cost Product Manufacturing Edited by Rupinder Singh, Balwinder Singh Dhaliwal, and Shyam Sundar Pattnaik
و المحتوى كما يلي :
Contents Preface vii About the Editors ix Contributors xi Chapter 1 Introduction to 3D Printing of Sensors, Actuators, and Antennas for Low-Cost Product Manufacturing 1 Jayant G. Joshi, Mandar P. Joshi, Balwinder S. Dhaliwal, and Shyam S. Pattnaik Chapter 2 3D Printing of Sensors, Actuators, and Antennas: Materials and Processes . 13 Chahat Jain, Balwinder S. Dhaliwal, and Rupinder Singh Chapter 3 3D Printing in Antenna Design 31 Atul M. Kulkarni, Garima Saini, Shyam S. Pattnaik, and Ravindra A. Pardeshi Chapter 4 Polymer-Based 3D Printed Sensors, Actuators, and Antennas for Low-Cost Product Manufacturing . 61 Ekta Thakur and Isha Malhotra Chapter 5 Lab-Scale Solutions for Sensors, Actuators, and Antennas: Economic and Environmental Justification 87 Rupinder Singh, Abhishek Barwar, and Anish Das Chapter 6 Flexible and Wearable Patch Antenna Using Additive Manufacturing for Modern Wireless Applications 107 Sanjeev Kumar, Rupinder Singh, Amrinder Pal Singh, and Yang Wei Chapter 7 4D Printed Smart Sensor, Actuators, and Antennas 123 Vinay Kumar, Rupinder Singh, Inderpreet Singh Ahuja, and Sanjeev Kumar Chapter 8 Case Study on the Development of Polymer Composite for Sensors, Actuators, and Antennas 137 Rupinder Singh and Abhishek Barwar Index Index 3D fabricated antenna, 7 3D package, 3 3D printable polymer, 34 3D printed sensor, 16 3D printing, 2, 8, 21, 38, 65 3D printing technologies, 33 3DP conductive ink, 45 3D printed helical antennas, 36 3D printed linear array antenna, 47 3D printed transmit array, 41 4D printed smart sensor, 123 4D printing, 54 A Acrylonitrile butadiene styrene (ABS), 3, 5, 9, 16 Acrylonitrile styrene acrylate (ASA), 34 Actuation behavior, 151 Additive manufacturing, 3, 7, 21, 39, 52 All-dielectric reflect array, 37 All-metal antenna, 39 Alternating current, 1 American Standard for Testing of Materials (ASTM), 16 Antenna, 1 Antenna fabrication, 20 Antenna testing, 20 Applications of flexible antennas, 68, 69 B Bandwidth, 2 Bibliographic diagram, 89 Bio-compatible, 2 Biosensor, 96 C Capacitance, 3 Carbon nanotubes (CNT), 36 Carbonized cellulose nanofibers (CCNFs), 51 Case study, 137 CEL Robox micro-manufacturing, 2 Ceramics, 2 Chemical etching, 65 Circularly polarized (CP), 3 Classification of 3D printed antennas, 34 Comparative survey of 3D printed dielectric antennas, 40 Compressive horn antenna (CHA), 3 Conductive materials, 63 Coplanar waveguide (CPW), 70 Corner truncated antenna, 23 Corner truncated MPA, 19 Corrugated conical horn antenna, 45 Corrugated conical horn model, 46 Cu-15Sn, 42 D D-band resonant cavity, 39 Dielectric helical antenna, 36 Dielectric planar lens antenna (DPLA), 38 Dielectric resonator antenna(s) (DRAs), 4, 37 Dielectric substrate, 2 Dielectric used in 3D printed antennas, 35 Dielectrics, 2 Direct metal laser sintering (DMLS), 7, 40 Direct-broadcast satellite (DBS), 46 DSC analysis, 146 Dual-band all-dielectric reflect array, 36 Dual-polarized metal transmit array antenna, 41 E Economic justification, 103 Effective dielectric constant (∈eff), 18 Electromagnetic structures, 2 Electro-spinning, 51 Embroidery, 67 Environmental justification, 87 Extruded ABS filament, 18 Extrusion of feedstock filaments, 147 Extrusion process, 18 F Fabrication of microstrip patch antenna, 149 Fabric-based wearable antenna, 110 Filament fused fabrication (FFF), 38 Flexible antenna material, 63 Flexible antenna miniaturization, 70 Flow characteristics, 101 Fourier transform infrared (FTIR) spectroscopy, 151 FR-4, 14 Fractal antennas, 1 Fractal Sierpinski triangle antenna, 44 Frequency bands, 1 Frequency range, 2 Fused deposition modeling (FDM), 4, 9, 32 Future wireless solutions, 75156 Index G Gain, 2 Glass transition temperatures (Tg), 53 Ground plane, 2 H Helical antenna configuration, 49 Helical antenna with integrated lens, 48 Hydro-responsive actuator, 147 Hydro-thermal actuation, 99 I Industrial, scientific and medical (ISM) band, 153 Infrared (IR), 7 Inkjet printing, 65 Interval arithmetic (IA), 8 K K-band reflect array, 37 L Lab-scale solutions, 87 Layer laminate manufacturing (LLM), 32 Loss tangent, 3 M Magnetic resonance imaging (MRI), 4 Material extrusion, 97 Meander-line dipole antenna, 44 Mechanical characterization, 22 Mechanical properties, 97, 147 Melt flow characteristics, 150 Melt flow index (MFI), 96 Melt flow test, 16 Mender line dipole antenna, 45 Meta material antennas, 1 Metal printed antennas, 42 Metal-coated dielectric antennas, 42, 49 Metallic 3D printed conical horn antenna, 42 Metals, 2 Micromachined process (MMP), 54 Microstrip patch antennas (MPAs), 1, 2, 100 Microstrip quasi-Yagi (MQY) antenna, 2 Microwave structures, 2 Microwave/RF signals, 1 Montmorillonite (MMT), 51 Morphological analysis, 21 Multiple Input Multiple Output (MIMO), 6 N Nanoparticles for 3DP antenna, 51 Ninja flex filament, 7 Non planar linear-dipole-phased array antennas, 46 P Partially reflective surface (PRS), 40 Permittivity, 3, 7 Physical vapor deposition (PVD), 41 Poly caprolactone (PCL), 54 Poly di methyl siloxane (PDMS), 34 Poly jet Printer, 3 Poly methyl meth-acrylate (PMMA), 34 Polylactic acid (PLA), 2, 4, 9 Polymer composite for sensors, 137 Polymers, 2 Polyvinyl alcohol (PVA), 124 Polyvinylidene chloride (PVDF), 124 Powder bed fusion (PBF), 8 Pyramid horn antennas, 47, 48 Pyramidal horn antenna (PHA), 3 Q Quadruple rigid waveguide (QRW), 41 R Radiation pattern, 2 Radio astronomy, 46 Radiofrequency (RF), 1, 23 Resonant cavity antenna, 41 Resonant frequency, 1 Return loss (S11), 21 RF characteristics of biosensor, 102 Rheological investigation, 97, 146 S Scanning electron detector (SED), 150 Screen printing, 65 Selective laser melting (SLM), 42 Shape memory polymers (SMP), 3, 53 Simulation of antenna, 129 Single screw extrusion (SSE), 97 SMA connector, 46 Stainless steel 316L, 42 Stereolithography (SLA), 6 SubMiniature version A (SMA), 44 Substrate, 64 Surface and Bonding Characteristics, 150Index 157 T Tensile behavior, 101, 150 Tetra-fluoro-ethylene (TrFE), 123 Thermoplastic polyurethane (TPU), 34, 110 Transducer, 1 Transmit array (TA), 41 Transmitter, 1 Truncated microstrip patch antenna (MPA), 18 Tunable frequency, 3 Twin screw extrusion (TSE), 17 U Ultimaker 3D printer, 18 Ultra-high frequency (UHF), 8 Ultraviolet (UV), 7 User-driven smart solution, 128 V Varactor diode, 3 Vat Polymerization process, 54 V-band reflect array, 37 Vector network analysis (VNA), 21 Viscosity, 17 Voronoi inverted feed discone antenna, 44 VOS viewer, 14 W Wearable antenna sensor, 64 Wearable/textile antennas, 1, 110 Wireless communication system, 32 Wireless sensor network (WSN), 3 X X-band microwave, 4 ,#3D,#Printing,#3D_Printing,#3D-Printing,#3DPrinting,#الطباعة_ثلاثية_الأبعاد,
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