Original Papers- NARITA Fumio -
number of results to view: what to display: sort:
total:279
[2020]
1.Potassium Sodium Niobate Lead-Free Piezoelectric Nanocomposite Generators based on Carbon-Fiber-Reinforced Polymer Electrodes for Energy-Harvesting Structures.[Composites Science and Technology,199,(2020),108331-]Z. Wang, H. Kurita, H. Nagaoka and F. Narita
2.Numerical and Experimental Investigation of the Through-Thickness Strength Properties of Woven Glass Fiber Reinforced Polymer Composite Laminates under Combined Tensile and Shear Loading.[Journal of Composites Science,4,(2020),112-]T. Kanno, H. Kurita, M. Suzuki, H. Tamura and F. Narita
3.Twisting and Reverse Magnetic Field Effects on Energy Conversion of Magnetostrictive Wire Metal Matrix Composites.[Physica Status Solidi - Rapid Research Letters,(2020),2000281-]Z. Yang, Z. Wang, M. Seino, D. Kumaoka, G. Murasawa and F. Narita
4.217. Fabrication and Mechanical Properties of Carbon-Fiber-Reinforced Polymer Composites with Lead-Free Piezoelectric Nanoparticles.[Sensors and Materials,32(7),(2020),2453-2462]H. Kurita, Z. Wang, H. Nagaoka and F. Narita
5.Impact Energy Harvesting by Fe-Co Fiber Reinforced Al-Si Matrix Composite.[Materialia,10,(2020),100644-]M. Seino, L. Jiang, Z. Yang, K. Katabira, T. Satake, F. Narita and G. Murasawa
6.Multi-Scale Analysis and Testing of Tensile Behavior in Polymers with Randomly Oriented and Agglomerated Cellulose Nanofibers.[Nanomaterials,10,(2020),700-]F. Narita, Y. Wang, H. Kurita and M. Suzuki
7.Fabrication, Modeling and Characterization of Magnetostrictive Short Fiber Composites.[Materials,13,(2020),1494-]Z. Wang, K. Mori, K. Nakajima and F. Narita
8.High Temperature Electromechanical Response of Multilayer Piezoelectric Laminates under AC Electric Fields for Fuel Injector Applications.[International Journal of Mechanics and Materials in Design,16,(2020),207-213]F. Narita, R. Hasegawa and Y. Shindo
9.Assessing the Flexural Properties of Epoxy Composites with Extremely Low Addition of Cellulose Nanofiber Content.[Applied Sciences,10,(2020),1159-]Y. Xie, H. Kurita, R. Ishigami and F. Narita
[2019]
10.Fabrication of Potassium Sodium Niobate Nano-Particle/Polymer Composites with Piezoelectric Stability and Their Application to Unsteady Wind Energy Harvesters.[Journal of Applied Physics,126(22),(2019),224501-]Z. Wang and F. Narita
11.Magnetomechanical Design and Power Generation of Magnetostrictive Clad Plate Cantilever.[Applied Physics Letters,115,(2019),243504-]Z. Yang, R. Onodera, T. Tayama, M. Watanabe and F. Narita
12.Effect of Notches on Magnetic Induction Variation for Magnetostrictive Clad Plate.[Sensors and Materials,31(11),(2019),3681-3690]Z. Yang, H. Kurita, H. Takeuchi, K. Nakajima and F. Narita
13.Fabrication and Characterization of Carbon Fiber Reinforced Plastics Containing Magnetostrictive Fe-Co Fibers with Damage Self-Detection Capability.[Sensors,19,(2019),4984-]K. Katabira, H. Kurita, Y. Yoshida and F. Narita
14.Improvement Estimation Accuracy of Impact Detection Using Metal-Core Piezoelectric Fiber/Aluminum Composites.[Advanced Engineering Materials,21(11),(2019),1900550-]T. Yanaseko, H. Sato, F. Narita, I. Kuboki and H. Asanuma
15.Performance Boost of Co-rich Fe-Co Based Alloy Magnetostrictive Sensors Via Nitrogen Treatment.[Sensors and Actuators A,295(15),(2019),75-83]K. Nakajima, H. Kurita and F. Narita
16.Design, Fabrication and Evaluation of Metal-Matrix Lightweight Magnetostrictive Fiber Composites.[Materials and Design,175,(2019),107803-]Z. Yang, K. Nakajima, L. Jiang, H. Kurita, G. Murasawa and F. Narita
17.Strengthening Mechanism of Titanium Boride Whisker-Reinforced Ti-6Al-4V Alloy Matrix Composites with the TiB Orientation Perpendicular to the Loading Direction.[Materials,12(15),(2019),2401-]H. Kurita, S. Suzuki, S. Kikuchi, N. Yodoshi, S. Gourdet and F. Narita
18.Footstep Energy Harvesting with the Magnetostrictive Fiber Integrated Shoes.[Materials,12(13),(2019),2055-]H. Kurita, K. Katabira, Y. Yoshida and F. Narita
19.Corona Poling Conditions for Barium Titanate/Epoxy Composites and their Unsteady Wind Energy Harvesting Potential.[Advanced Engineering Materials,21(7),(2019),1900169-]Z. Wang and F. Narita
20.Fabrication and Impact Output Voltage Characteristics of Carbon Fiber Reinforced Polymer Composites with Lad-Free Piezoelectric Nano-Particles.[Materials Letters,236,(2019),487-490]F. Narita, H. Nagaoka and Z. Wang
Pageļ¼š [1] [2] [3] [4] [5] [6] [7] [8] [9] [10] [11] [12] [13] [14] [next]
BackTop
copyright(c)2005 Tohoku University