Improvement of the forming ability in microgroove molding by ultrasonic vibration

Tianfeng Zhou; Jiwang Yan; Sergey Bolotov; Tsunemoto Kuriyagawa

Improvement of the forming ability in microgroove molding by ultrasonic vibration

Tianfeng Zhou, Jiwang Yan, Sergey Bolotov, Tsunemoto Kuriyagawa

Tohoku University

Research output: Contribution to conference › Paper › peer-review

Abstract

Microgrooves with a pitch at wave length level are increasingly needed in the optical system. Conventional microgroove molding is able to fabricate the microgrooves, but the forming accuracy is low because of the incomplete filling of the material in the cavity of microgroove mold, and surface defect or internal defect occurs easily because the air trapped during the pressing. In this research, ultrasonic vibration was applied to the improvement of the forming ability of the molding process for microgrooves. Basic experiments were carried out to test the effects of ultrasonic vibration on friction force decrease and material flow ability improvement. An ultrasonic assisted molding machine was developed and used to fabricate microgrooves on methacrylic resin surface by using the Nickel Phosphorous (Ni-P) mold. Form accuracy and surface quality of microgrooves were confirmed to be improved by comparing the ultrasonic assisted molding with the conventional molding.

Original language	English
Publication status	Published - 2011
Externally published	Yes
Event	6th International Conference on Leading Edge Manufacturing in 21st Century, LEM 2011 - Omiya Sonic City, Saitama, Japan Duration: 8 Nov 2011 → 10 Nov 2011

Conference

Conference	6th International Conference on Leading Edge Manufacturing in 21st Century, LEM 2011
Country/Territory	Japan
City	Omiya Sonic City, Saitama
Period	8/11/11 → 10/11/11

Keywords

Microforming
Microgroove
Molding
Ni-P mold
Ultrasonic vibration

Cite this

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title = "Improvement of the forming ability in microgroove molding by ultrasonic vibration",

abstract = "Microgrooves with a pitch at wave length level are increasingly needed in the optical system. Conventional microgroove molding is able to fabricate the microgrooves, but the forming accuracy is low because of the incomplete filling of the material in the cavity of microgroove mold, and surface defect or internal defect occurs easily because the air trapped during the pressing. In this research, ultrasonic vibration was applied to the improvement of the forming ability of the molding process for microgrooves. Basic experiments were carried out to test the effects of ultrasonic vibration on friction force decrease and material flow ability improvement. An ultrasonic assisted molding machine was developed and used to fabricate microgrooves on methacrylic resin surface by using the Nickel Phosphorous (Ni-P) mold. Form accuracy and surface quality of microgrooves were confirmed to be improved by comparing the ultrasonic assisted molding with the conventional molding.",

keywords = "Microforming, Microgroove, Molding, Ni-P mold, Ultrasonic vibration",

author = "Tianfeng Zhou and Jiwang Yan and Sergey Bolotov and Tsunemoto Kuriyagawa",

year = "2011",

language = "English",

note = "6th International Conference on Leading Edge Manufacturing in 21st Century, LEM 2011 ; Conference date: 08-11-2011 Through 10-11-2011",

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TY - CONF

T1 - Improvement of the forming ability in microgroove molding by ultrasonic vibration

AU - Zhou, Tianfeng

AU - Yan, Jiwang

AU - Bolotov, Sergey

AU - Kuriyagawa, Tsunemoto

PY - 2011

Y1 - 2011

N2 - Microgrooves with a pitch at wave length level are increasingly needed in the optical system. Conventional microgroove molding is able to fabricate the microgrooves, but the forming accuracy is low because of the incomplete filling of the material in the cavity of microgroove mold, and surface defect or internal defect occurs easily because the air trapped during the pressing. In this research, ultrasonic vibration was applied to the improvement of the forming ability of the molding process for microgrooves. Basic experiments were carried out to test the effects of ultrasonic vibration on friction force decrease and material flow ability improvement. An ultrasonic assisted molding machine was developed and used to fabricate microgrooves on methacrylic resin surface by using the Nickel Phosphorous (Ni-P) mold. Form accuracy and surface quality of microgrooves were confirmed to be improved by comparing the ultrasonic assisted molding with the conventional molding.

AB - Microgrooves with a pitch at wave length level are increasingly needed in the optical system. Conventional microgroove molding is able to fabricate the microgrooves, but the forming accuracy is low because of the incomplete filling of the material in the cavity of microgroove mold, and surface defect or internal defect occurs easily because the air trapped during the pressing. In this research, ultrasonic vibration was applied to the improvement of the forming ability of the molding process for microgrooves. Basic experiments were carried out to test the effects of ultrasonic vibration on friction force decrease and material flow ability improvement. An ultrasonic assisted molding machine was developed and used to fabricate microgrooves on methacrylic resin surface by using the Nickel Phosphorous (Ni-P) mold. Form accuracy and surface quality of microgrooves were confirmed to be improved by comparing the ultrasonic assisted molding with the conventional molding.

KW - Microforming

KW - Microgroove

KW - Molding

KW - Ni-P mold

KW - Ultrasonic vibration

UR - http://www.scopus.com/inward/record.url?scp=84883384809&partnerID=8YFLogxK

M3 - Paper

AN - SCOPUS:84883384809

T2 - 6th International Conference on Leading Edge Manufacturing in 21st Century, LEM 2011

Y2 - 8 November 2011 through 10 November 2011

ER -

Improvement of the forming ability in microgroove molding by ultrasonic vibration

Abstract

Conference

Keywords

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