Experimental investigation of intermittent rotary ultrasonic machining

Weimin Zeng; Zhi C Li; Xipeng Xu; Zhijian Pei; Judong Liu; Jun Pi

Experimental investigation of intermittent rotary ultrasonic machining

Weimin Zeng
, Zhi C Li
, Xipeng Xu
, Zhijian Pei
, Judong Liu
, Jun Pi

Industrial and Systems Engineering

Research output: Contribution to journal › Conference article › peer-review

19 Scopus citations

Abstract

Rotary ultrasonic machining (RUM) is considered as an effective machining method, which has been utilized to machine hard and brittle materials such as advanced ceramics. In order to improve the hole wall surface quality during RUM, it is important to wash away swarf in the gap between the tool and the workpiece as fast as possible. In this paper, a new machine process - intermittent rotary ultrasonic machining (IRUM) - is introduced for the first time. The cutting force, surface roughness and coolant flow rate in conventional rotary ultrasonic machining (CRUM) process and IRUM process are compared. It is found that compared with CRUM, the output coolant flow rate could be increased significantly by using the IRUM method. It is also found that the surface roughness of workpiece can be improved significantly in IRUM.

Original language	English
Pages (from-to)	425-430
Number of pages	6
Journal	Key Engineering Materials
Volume	359-360
State	Published - Jan 1 2008

Keywords

Advanced ceramic
Coolant flow rate
Cutting force
Rotary ultrasonic machining
Surface roughness

Cite this

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abstract = "Rotary ultrasonic machining (RUM) is considered as an effective machining method, which has been utilized to machine hard and brittle materials such as advanced ceramics. In order to improve the hole wall surface quality during RUM, it is important to wash away swarf in the gap between the tool and the workpiece as fast as possible. In this paper, a new machine process - intermittent rotary ultrasonic machining (IRUM) - is introduced for the first time. The cutting force, surface roughness and coolant flow rate in conventional rotary ultrasonic machining (CRUM) process and IRUM process are compared. It is found that compared with CRUM, the output coolant flow rate could be increased significantly by using the IRUM method. It is also found that the surface roughness of workpiece can be improved significantly in IRUM.",

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AU - Zeng, Weimin

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AU - Xu, Xipeng

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AU - Liu, Judong

AU - Pi, Jun

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Y1 - 2008/1/1

N2 - Rotary ultrasonic machining (RUM) is considered as an effective machining method, which has been utilized to machine hard and brittle materials such as advanced ceramics. In order to improve the hole wall surface quality during RUM, it is important to wash away swarf in the gap between the tool and the workpiece as fast as possible. In this paper, a new machine process - intermittent rotary ultrasonic machining (IRUM) - is introduced for the first time. The cutting force, surface roughness and coolant flow rate in conventional rotary ultrasonic machining (CRUM) process and IRUM process are compared. It is found that compared with CRUM, the output coolant flow rate could be increased significantly by using the IRUM method. It is also found that the surface roughness of workpiece can be improved significantly in IRUM.

AB - Rotary ultrasonic machining (RUM) is considered as an effective machining method, which has been utilized to machine hard and brittle materials such as advanced ceramics. In order to improve the hole wall surface quality during RUM, it is important to wash away swarf in the gap between the tool and the workpiece as fast as possible. In this paper, a new machine process - intermittent rotary ultrasonic machining (IRUM) - is introduced for the first time. The cutting force, surface roughness and coolant flow rate in conventional rotary ultrasonic machining (CRUM) process and IRUM process are compared. It is found that compared with CRUM, the output coolant flow rate could be increased significantly by using the IRUM method. It is also found that the surface roughness of workpiece can be improved significantly in IRUM.

KW - Advanced ceramic

KW - Coolant flow rate

KW - Cutting force

KW - Rotary ultrasonic machining

KW - Surface roughness

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Experimental investigation of intermittent rotary ultrasonic machining

Abstract

Keywords

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