IEICE Technical Committee Submission System
Conference Schedule
Online Proceedings
[Sign in]
Tech. Rep. Archives
    [Japanese] / [English] 
( Committee/Place/Topics  ) --Press->
 
( Paper Keywords:  /  Column:Title Auth. Affi. Abst. Keyword ) --Press->

All Technical Committee Conferences  (All Years)

Search Results: Conference Papers
 Conference Papers (Available on Advance Programs)  (Sort by: Date Descending)
 Results 1 - 20 of 48  /  [Next]  
Committee Date Time Place Paper Title / Authors Abstract Paper #
US 2022-01-25
15:10
Online Online Aerosol agglomeration by aerial ultrasonic sources containing a cylindrical vibrating plate with different volume of chamber
Yusuke Hoda, Takuya Asami, Hikaru Miura (Nihon Univ.) US2021-64
 [more] US2021-64
pp.34-39
US 2022-01-25
15:35
Online Online Development of an ultrasonic complex vibration source using helical slits producing an elliptical vibration.
Yoshihiro Miyata, Takuya Asami, Hikaru Miura (Nihon Univ.) US2021-65
 [more] US2021-65
pp.40-43
US 2022-01-25
16:00
Online Online Study of longitudinal-torsional vibration source using stepped horn with hollow part -- Comparison between FEM and actual measurement --
Takuya Asami, Hikaru Miura (Nihon Univ.) US2021-66
We have been studying the ultrasonic vibration assisted manufacturing technology using longitudinal-torsional vibration ... [more] US2021-66
pp.44-47
US 2021-02-22
13:00
Online Online Development of truncated cone shaped reflective plate type aerial ultrasonic source using planar reflective plate
Shinnosuke Uchiyama, Takuya Asami, Hikaru Miura (Nihon Univ.) US2020-66
The technology which delivers the powerful aerial sound wave with the sharp directivity to the long distance is required... [more] US2020-66
pp.1-4
US 2021-02-22
13:25
Online Online Sound Emission Characteristics of Compact Circular Vibrating Plate Type Ultrasonic Source with an Arched Strut
Hiroki Monzen, Takuya Asami, Hikaru Miura (Nihon Univ.) US2020-67
Since aerial ultrasonic sensors are required to be small, it is difficult to generate powerful sound waves. In this stud... [more] US2020-67
pp.5-9
US 2021-01-29
17:15
Online Online Study of a small circular vibrating plate type aerial ultrasonic source using bolt-clamped Langevin-type transducer with ultra-low loss PZT
Takuya Asami, Hiroki Monzen (Nihon Univ.), Shinsuke Itoh, Takashi Kasashima (NGK SPARK PLUG), Hikaru Miura (Nihon Univ.) US2020-65
 [more] US2020-65
pp.44-48
US 2020-12-14
14:00
Online Online Drying of wet cloth with aerial ultrasound field formed by stripe-mode transverse vibrating plate -- study of the volume of some ultrasound fields --
Tomoya Nakamura, Takuya Asami, Hikaru Miura (Nihon Univ.) US2020-50
Recently, it has been investigated that ultrasonic vibration is applied directly to clothes to promote drying. However, ... [more] US2020-50
pp.1-6
US 2020-12-14
14:25
Online Online Development of the ultrasonic complex vibration source by a longitudinal vibration transducer using a uniform rod with diagonal slits and another longitudinal vibration transducer
Naoki Saegusa, Takuya Asami, Hikaru Miura (Nihon Univ.) US2020-51
Conventionally, since the vibration direction of the welding using ultrasonic wave is linear in one direction, the damag... [more] US2020-51
pp.7-11
US 2020-12-14
14:50
Online Online Tensile shear strength and cross tensile strength in dissimilar metals welding using ultrasonic planar vibration
Haruki Sakuma, Takuya Asami, Hikaru Miura (Nihon Univ.) US2020-52
Since ultrasonic welding does not use heat, it can be easily welded with different metals with different melting points.... [more] US2020-52
pp.12-17
US 2020-05-18
15:25
Online Online Study of small type aerial ultrasonic source using hollow stepped horn and circular plate
Takuya Asami, Hiroki Monzen, Hikaru Miura (Nihon Univ.) US2020-12
We have proposed a small aerial ultrasonic sound source using a disk of vibration mode which does not generate nodes of ... [more] US2020-12
pp.25-29
EA, US
(Joint)
2020-01-22
10:30
Kyoto Doshisha Univ. [Poster Presentation] Drying of cloth containing water by aerial intense standing wave sound field formed by a striped mode vibrating plate
Tomoya Nakamura, Takuya Asami, Hikaru Miura (Nihon Univ) US2019-74 EA2019-87
Recently, a method to accelerate drying by applying ultrasonic vibration directly to clothes has been studied. This meth... [more] US2019-74 EA2019-87
pp.23-27
EA, US
(Joint)
2020-01-22
10:30
Kyoto Doshisha Univ. [Poster Presentation] Development of circular transverse vibrating plate of aerial ultrasonic sound source connected complex reflective plate
Shinnosuke Uchiyama, Takumi Kobayashi, Takuya Asami, Hikaru Miura (Nihon Univ.) US2019-75 EA2019-88
The technology which delivers powerful aerial sound wave with sharp directivity to the long distance is required. The au... [more] US2019-75 EA2019-88
pp.29-33
EA, US
(Joint)
2020-01-22
10:30
Kyoto Doshisha Univ. [Poster Presentation] Characteristics of a small circular vibrating plate type aerial ultrasonic source with filleted a strut
Hiroki Monzen, Takuya Asami, Hikaru Miura (Nihon Univ.) US2019-76 EA2019-89
Ultrasonic sound source using a circular transverse vibrating plate is easy to radiate strong ultrasonic wave into the a... [more] US2019-76 EA2019-89
pp.35-39
EA, US
(Joint)
2020-01-22
10:30
Kyoto Doshisha Univ. [Poster Presentation] Vibration characteristics of complex vibration source using two longitudinal vibration transducers and a uniform rod with diagonal slits
Naoki Saegusa, Takuya asami, Hikaru miura (Nihon Univ.) US2019-77 EA2019-90
Conventionally, since the vibration direction of the welding using ultrasonic wave is linear in one direction, the
dam... [more]
US2019-77 EA2019-90
pp.41-45
EA, US
(Joint)
2020-01-22
10:30
Kyoto Doshisha Univ. [Poster Presentation] Different metal welding using ultrasonic complex vibration source -- Weld strength changed pressure and sample installation direction --
Haruki Sakuma, Takuya Asami, Hikaru Miura (Nihon Univ.) US2019-78 EA2019-91
Since ultrasonic welding does not use heat, it can be easily welded with different metals with different melting points.... [more] US2019-78 EA2019-91
pp.47-51
US 2019-12-11
13:30
Tokyo   Removal of dirt by ultrasonic washing in running water using ultrasonic vibration source of 27 kHz
Hidenobu Hosaka, Takuya Asami, Hikaru Miura (Nihon Univ.) US2019-64
 [more] US2019-64
pp.1-4
US 2019-12-11
13:55
Tokyo   Welding characteristics of coated twisted wire and copper plate by ultrasonic longitudinal vibration
Shinya Oishi, Takuya Asami, Hikaru Miura (Nihon Univ.) US2019-65
In recent years, with the diversification of functions of automobiles, there has been a demand for a welding technique b... [more] US2019-65
pp.5-9
US 2019-12-11
15:25
Tokyo   Relationship between particle size and effect of aerosol agglomeration by aerial ultrasonic source integrated cylindrical rigid wall
Rintaro Motoi, Takuya Asami, Hikaru Miura (Nihon Univ) US2019-68
Aerial ultrasonic waves are known to induce vibrations of the particles present in the air and cause aggregation due to ... [more] US2019-68
pp.19-24
EA, US
(Joint)
2019-01-22
10:30
Kyoto Doshisha Univ. [Poster Presentation] Observation of aerosolized aggregated particles by aerial intense ultrasonic waves
Rintaro Motoi, Takuya Asami, Hikaru Miura (Nihon Univ.) US2018-81
 [more] US2018-81
pp.13-16
EA, US
(Joint)
2019-01-22
10:30
Kyoto Doshisha Univ. [Poster Presentation] Fundamental investigation of cleaning effect in running water type ultrasonic cleaning using 27 kHz vibration source
Hidenobu Hosaka, Takuya Asami, Hikaru Miura (Nihon Univ.) US2018-82
 [more] US2018-82
pp.17-20
 Results 1 - 20 of 48  /  [Next]  
Choose a download format for default settings. [NEW !!]
Text format pLaTeX format CSV format BibTeX format
Copyright and reproduction : All rights are reserved and no part of this publication may be reproduced or transmitted in any form or by any means, electronic or mechanical, including photocopy, recording, or any information storage and retrieval system, without permission in writing from the publisher. Notwithstanding, instructors are permitted to photocopy isolated articles for noncommercial classroom use without fee. (License No.: 10GA0019/12GB0052/13GB0056/17GB0034/18GB0034)


[Return to Top Page]

[Return to IEICE Web Page]


The Institute of Electronics, Information and Communication Engineers (IEICE), Japan