Yoshikazu Tanaka

Last Updated :2024/07/04

Affiliations, Positions
Graduate School of Advanced Science and Engineering, Associate Professor
E-mail
tanakazuhiroshima-u.ac.jp
Other Contact Details
Japan
TEL : (+81)824-24-7814 FAX : (+81)824-22-7194
Self-introduction
My current research Interests are as follow: -. Application of piezoelectric materials -. Energy harvesting method using piezoelectric materials -. Fatigue strength -. Nondestructive inspection using electromagnetic field for aging degradation -. Meshless analysis method for electromagnetic field and solid mechanics -. Analysis method and behavior of electromagnetic and mechanical coupled problem

Basic Information

Academic Degrees

  • Doctor of Information Engineering, Kyushu Institute of Technology
  • Master, Kyushu Institute of Technology

Research Fields

  • Engineering;Integrated engineering;Energy engineering

Research Keywords

  • magnetic field
  • magnetic damping
  • NDT
  • fusion reactor
  • Energy harvesting
  • floating structure

Educational Activity

Course in Charge

  1. 2024, Liberal Arts Education Program1, 4Term, Industry and Technology
  2. 2024, Liberal Arts Education Program1, 4Term, Science of Vehicle and Transportation
  3. 2024, Undergraduate Education, 1Term, Mechanics of Material I
  4. 2024, Undergraduate Education, 1Term, Experiments and Analytical Procedures in Transportation Systems
  5. 2024, Undergraduate Education, Second Semester, Transportation Systems Project
  6. 2024, Undergraduate Education, Year, Graduation Thesis
  7. 2024, Graduate Education (Master's Program) , 1Term, Special Exercises on Transportation and Environmental Systems A
  8. 2024, Graduate Education (Master's Program) , 2Term, Special Exercises on Transportation and Environmental Systems A
  9. 2024, Graduate Education (Master's Program) , 3Term, Special Exercises on Transportation and Environmental Systems B
  10. 2024, Graduate Education (Master's Program) , 4Term, Special Exercises on Transportation and Environmental Systems B
  11. 2024, Graduate Education (Master's Program) , Academic Year, Special Study on Transportation and Environmental Systems
  12. 2024, Graduate Education (Master's Program) , 4Term, Advanced Strength of Material
  13. 2024, Graduate Education (Doctoral Program) , Academic Year, Special Study on Transportation and Environmental Systems

Research Activities

Academic Papers

  1. Numerical and experimental studies on specimens with integrated pulse-shaper used for the instrumented Taylor impact test to measure stress-strain curves at high rates of strain, INTERNATIONAL JOURNAL OF IMPACT ENGINEERING, 179, 202309
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  2. Numerical calculation method of magnetization and eddy current by applying the subdomain method to integral equations, INTERNATIONAL JOURNAL OF APPLIED ELECTROMAGNETICS AND MECHANICS, 71, S65-S74, 2023
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  3. Experimental and numerical studies on working parameter selections of a piezoelectric-painted-based ocean energy harvester attached to fish aggregating devices, ENERGY FOR SUSTAINABLE DEVELOPMENT, 71, 73-88, 202212
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  4. Feasibility Study of Visualizing Strain Distributions Using Opal Film, ISIJ INTERNATIONAL, 62(1), 257-262, 2022
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  5. Experimental study on passive self-tuning phenomenon of FPED with proof mass, 29(2), 205-211, 20210601
  6. Mapping herbage biomass and nitrogen status in an Italian ryegrass (Lolium multiflorum L.) field using a digital video camera with balloon system, JOURNAL OF APPLIED REMOTE SENSING, 5, 20111114
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  7. An experimental study of power generation and storage using a flexible piezoelectric device, INTERNATIONAL JOURNAL OF APPLIED ELECTROMAGNETICS AND MECHANICS, 39(1-4), 603-608, 2012
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  8. Study of an Explicit Meshless Method Using RPIM for Electromagnetic Fields, IEEE TRANSACTIONS ON MAGNETICS, 49(5), 1577-1580, 201312
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  9. Evaluation parameter of vibration with magnetic damping(2nd report, evaluation of magnetic damping characteristics using coupling intensity parameter), Transactions of the Japan Society of Mechanical Engineers(B), 65(635), 2643-2650, 19990401
  10. ★, Simplified Analysis Method for Vibration of Fusion Reactor Components with Magnetic Damping, Fusion Engineering and Design, 51-52, 263-271, 20001201
  11. ★, Numerical Instability of Magnetic Damping Problem of Elastic Plate, IEEE Transactions on Magnetics, 36(4), 1373-1376, 20000701
  12. ★, Evaluation Method of Magnetic Damping Effect for Fusion Reactor First Wall, Fusion Engineering and Design, 42, 401-407, 19980901
  13. Characteristics of the Forced Vibration with Magnetic Damping, International Journal of Applied Electromagnetics and Mechanics, 13, 45-51, 20020401
  14. Numerical study of resonance characteristics with magnetic damping on higher vibration modes, International Journal of Applied Electromagnetics and Mechanics, 19, 541-544, 20040401
  15. PVDFフィルムを用いた塗装構造部材の応力モニタリング, 非破壊検査, 52(12), 703-708, 20031201
  16. 圧電センサーを用いた二次元き裂の応力拡大係数測定, 日本機械学会論文集A編, 68(672), 1212-1219, 20020401
  17. 圧電フィルムを用いたガイド波計測の基礎的研究, 日本機械学会論文集(A編), 72(718), 951-956, 20060401
  18. 地上ハイパースペクトル計測による草量と飼料成分の推定-西条ステーション内のイタリアンライグラス採草地における事例-, 瀬戸内圏フィールド科学教育研究センター報告, 31-35, 20100301
  19. Development of the prototype of a new emergency bridgebased on the concept of optimized structure, J. Struct. Engineering= JSCE, 20100301
  20. 災害復旧・救助を想定した移動して折畳める橋「モバイルブリッジTM」の架設実験, 土木学会安全問題研究論文, 127-132, 20101101
  21. Stress intensity factor measurement of two-dimensional cracks by the use of piezoelectric sensor, JSME INTERNATIONAL JOURNAL SERIES A-SOLID MECHANICS AND MATERIAL ENGINEERING, 46(4), 567-574, 200310
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  22. Stability of augmented staggered method for electromagnetic and structural coupled problem, IEEE TRANSACTIONS ON MAGNETICS, 40(2), 549-552, 200403
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  23. Stress intensity factor measurement of cracks using piezoelectric element, JOURNAL OF MARINE SCIENCE AND TECHNOLOGY, 9(2), 63-69, 2004
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  24. Coupled Vibration Analysis of Magnetizable Plate in Steady Magnetic Field With Considering Geometric Nonlinearity, IEEE TRANSACTIONS ON MAGNETICS, 45(3), 1254-1257, 200903
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  25. Study on Meshless Method Using RPIM for Transient Electromagnetic Field, IEEE TRANSACTIONS ON MAGNETICS, 47(5), 1178-1181, 201112
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  26. Development of a prototype deployable bridge based on origami skill, AUTOMATION IN CONSTRUCTION, 32, 104-111, 201307
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  27. Study on flexible piezoelectric device for compressive loads, INTERNATIONAL JOURNAL OF APPLIED ELECTROMAGNETICS AND MECHANICS, 45(1-4), 163-170, 201407
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  28. Experiment of receiving ultrasonic wave by using adhesion and a contact type PVDF sensor, INTERNATIONAL JOURNAL OF APPLIED ELECTROMAGNETICS AND MECHANICS, 45(1-4), 171-177, 201407
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  29. Forced vibration experiments on flexible piezoelectric devices operating in air and water environments, INTERNATIONAL JOURNAL OF APPLIED ELECTROMAGNETICS AND MECHANICS, 45(1-4), 573-580, 201407
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  30. Ocean Power Generator Using Flexible Piezoelectric Device, Proceedings of the ASME 32rd International Conference on Ocean, Offshore and Arctic Engineering,, 201306
  31. Wind Energy Harvesting Using Flexible Piezoelectric Device, Journal of Energy and Power Engineering, 7, 1047-1051, 201306
  32. 引張・圧縮型柔軟発電デバイスを用いた波浪エネルギー利用方法に関する研究, 土木学会論文集B2(海岸工学), 69(2), I_1311-I_1315, 2013
  33. 金属の歪みを色変化として可視化する技術, 検査技術, 18(9), 26-30, 201309
  34. 衝撃力測定用のパイプ表面設置型センサ, 日本機械学会論文集C編, 79(802), 1949-1959, 20130601
  35. Study of Eddy Current Analysis by a Meshless Method Using RPIM, IEEE TRANSACTIONS ON MAGNETICS, 51(3), 201503
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  36. 奄美大島におけるサンゴと藻の分光反射率特性とQuickBirdデータによる検証, 海岸工学論文集, 54, 1061-1065, 2007
  37. 気球搭載用簡易分光カメラを利用したアマモ分布図作成のための基礎実験, 水工学論文集, 52, 1357-1362, 200802
  38. 気球搭載ビデオカメラによる中海のアマモ場の植被推定, 水工学論文集, 53, 1357-1362, 200902
  39. 弾性圧電デバイスを用いた波エネルギー利用技術の開発, 土木学会論文集B2(海岸工学), 56(1), 1296-1300, 2009
  40. Development of contact-type sensor using piezoelectric film for guided wave measurement, International journal of applied electromagnetic and mechanics, 33(3-4), 1237-1244, 201010
  41. 弾性圧電デバイスを用いた波浪発電に関する研究, 66(1), 1281-1285, 2010
  42. 弾性圧電デバイスを用いた海洋エネルギー利用技術に関する研究, 66(1), 1276-1280, 2010
  43. RPIMを用いたメッシュレス渦電流解析の基礎的検討, 19(2), 165-170, 201106
  44. 垂下式弾性浮体ユニット型海洋エネルギー発電方式の開発, 14, 151-158, 201102
  45. Study on flexible power generation device using piezoelectric film, Journal of Energy and Power Engineering, 6(3), 353-360, 201203
  46. 弾性圧電デバイスを用いた風力エネルギー利用に関する研究, 日本機械学会論文集(B 編), 78(789), 1068-1072, 201205
  47. 圧電フィルムを用いたシート型剪断力センサ, 日本機械学会論文集C編, 78(789), 1863-1871, 2012
  48. 高速衝撃力の測定に好適なパッド型圧縮力センサ, 日本機械学会論文集C編, 78(791), 2438-2449, 2012
  49. An experimental study of a submerged power generator that uses flexible power generation devices, Journal of the Japan Society of Applied Electromagnetics and Mechanics, 20(2), 541-546, 201206
  50. 変動荷重検出板を用いた衝撃力の2度打ち現象の計測, 実験力学, 13(1), 112-120, 201303
  51. 垂下式弾性浮体ユニット型海洋エネルギー発電方式の発電特性, 土木学会論文集B2(海岸工学), 69(2), 1316-1320, 2013
  52. 引張・圧縮型柔軟発電デバイスを用いた波浪エネルギー利用方法に関する研究, 土木学会論文集B2(海岸工学), 69(2), 1311-1315, 2013
  53. Flexible Piezoelectric Sheet for Wind Energy Harvesting, International Journal of Energy Engineering, 4(2), 67-75, 2014
  54. 圧縮型柔軟発電デバイスを用いた波エネルギー発電技術の開発, 土木学会論文集,B2(海岸工学), 70(2), 1316-1320, 201411
  55. 衝撃力計測用のフレキシブル界面センサ, 日本機械学会論文集, 80(816), 201408
  56. An Experimental Study of Wave Power Generation Using a Flexible Piezoelectric Device, Journal of Ocean and Wind Energy, 2(1), 28-36, 201502
  57. 柔軟発電体を用いた波力発電の特性評価方法に関する研究, 日本AEM学会誌, 23(1), 111-117, 2015
  58. Viscosity Transient Phenomenon during Drop Impact Testing and Its Simple Dynamics Model, World Journal of Mechanics, 5, 33-41, 201503
  59. Thorn-Shape Waveform and Double-Strike Phenomenon Seen in the Impact Force of Soft Materials, World Journal of Mechanics, 5, 59-69, 201504
  60. Model refinements and experimental testing of highly flexible piezoelectric energy harvesters, JOURNAL OF SOUND AND VIBRATION, 368, 87-102, 20160428
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  61. Novel Remote NDE Technique for Pipes Combining HTS-SQUID and Ultrasonic Guided Wave, IEEE TRANSACTIONS ON APPLIED SUPERCONDUCTIVITY, 27(4), 201706
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  62. Study of power generation using FPED assuming engine vibration, INTERNATIONAL JOURNAL OF APPLIED ELECTROMAGNETICS AND MECHANICS, 52(3-4), 1377-1383, 2016
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  63. Simply-supported multi-layered beams for energy harvesting, JOURNAL OF INTELLIGENT MATERIAL SYSTEMS AND STRUCTURES, 28(6), 740-759, 201704
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  64. Harvesting flow-induced vibration using a highly flexible piezoelectric energy device, APPLIED OCEAN RESEARCH, 68, 39-52, 201710
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  65. A painting type of flexible piezoelectric device for ocean energy harvesting, APPLIED OCEAN RESEARCH, 68, 182-193, 201710
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  66. Application of a flexible device coating with piezoelectric paint for harvesting wave energy, OCEAN ENGINEERING, 172, 170-182, 20190115
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  67. Coupled FPEDs using springs for broadband energy harvesting, INTERNATIONAL JOURNAL OF APPLIED ELECTROMAGNETICS AND MECHANICS, 59(2), 557-565, 2019
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  68. Simply supported FPEDs connected by springs for broadband energy harvesting, INTERNATIONAL JOURNAL OF APPLIED ELECTROMAGNETICS AND MECHANICS, 64(1-4), 201-210, 2020
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  69. Harvesting contact-separation-compression vibrations using a flexible and compressible triboelectric generator, SUSTAINABLE ENERGY TECHNOLOGIES AND ASSESSMENTS, 42, 20201201
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  70. Characteristics of electric performance and key factors of a hybrid piezo/triboelectric generator for wave energy harvesting, SUSTAINABLE ENERGY TECHNOLOGIES AND ASSESSMENTS, 50, 202203
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