실험계획법을 이용한 M2-Cu 기능성 경사 재료의 마이크로 드릴링 특성 평가

Ki Hoon Shin; Hong Seok Kim

doi:10.7735/ksmte.2015.24.5.502

실험계획법을 이용한 M2-Cu 기능성 경사 재료의 마이크로 드릴링 특성 평가

Translated title of the contribution: Characterization of Microscale Drilling Process for Functionally Graded M2-Cu Material Using Design of Experiments

Ki Hoon Shin, Hong Seok Kim

Research output: Contribution to journal › Article › peer-review

Abstract

In this study, a microscale drilling process was conducted to evaluate the cutting characteristics of functionally graded materials. A mixture of M2 and Cu powders were formed and sintered to produce disk specimens of various compositions. Subsequently, a microscale hole was created in the specimen by using a desktop-size micro-machining system. By using design of experiments and analysis of variance, it was found that the M2-Cu composition, spindle speed, and the interactions between these two factors had significant effects on the magnitude of cutting forces. However, the influence of feed rate on the cutting force was negligible. A mathematical model was established to predict the cutting force under a wide range of process conditions, and the reliability of the model was confirmed experimentally. In addition, it was observed that increasing the wt% of Cu in an M2-Cu specimen increased the high-frequency amplitude of cutting forces.

Translated title of the contribution	Characterization of Microscale Drilling Process for Functionally Graded M2-Cu Material Using Design of Experiments
Original language	Korean
Pages (from-to)	502-507
Number of pages	6
Journal	한국생산제조시스템학회지
Volume	24
Issue number	5
DOIs	https://doi.org/10.7735/ksmte.2015.24.5.502
State	Published - Oct 2015

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title = "실험계획법을 이용한 M2-Cu 기능성 경사 재료의 마이크로 드릴링 특성 평가",

abstract = "In this study, a microscale drilling process was conducted to evaluate the cutting characteristics of functionally graded materials. A mixture of M2 and Cu powders were formed and sintered to produce disk specimens of various compositions. Subsequently, a microscale hole was created in the specimen by using a desktop-size micro-machining system. By using design of experiments and analysis of variance, it was found that the M2-Cu composition, spindle speed, and the interactions between these two factors had significant effects on the magnitude of cutting forces. However, the influence of feed rate on the cutting force was negligible. A mathematical model was established to predict the cutting force under a wide range of process conditions, and the reliability of the model was confirmed experimentally. In addition, it was observed that increasing the wt\% of Cu in an M2-Cu specimen increased the high-frequency amplitude of cutting forces.",

author = "Shin, \{Ki Hoon\} and Kim, \{Hong Seok\}",

year = "2015",

month = oct,

doi = "10.7735/ksmte.2015.24.5.502",

language = "Korean",

volume = "24",

pages = "502--507",

journal = "한국생산제조시스템학회지",

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publisher = "한국생산제조시스템학회",

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AU - Shin, Ki Hoon

AU - Kim, Hong Seok

PY - 2015/10

Y1 - 2015/10

N2 - In this study, a microscale drilling process was conducted to evaluate the cutting characteristics of functionally graded materials. A mixture of M2 and Cu powders were formed and sintered to produce disk specimens of various compositions. Subsequently, a microscale hole was created in the specimen by using a desktop-size micro-machining system. By using design of experiments and analysis of variance, it was found that the M2-Cu composition, spindle speed, and the interactions between these two factors had significant effects on the magnitude of cutting forces. However, the influence of feed rate on the cutting force was negligible. A mathematical model was established to predict the cutting force under a wide range of process conditions, and the reliability of the model was confirmed experimentally. In addition, it was observed that increasing the wt% of Cu in an M2-Cu specimen increased the high-frequency amplitude of cutting forces.

AB - In this study, a microscale drilling process was conducted to evaluate the cutting characteristics of functionally graded materials. A mixture of M2 and Cu powders were formed and sintered to produce disk specimens of various compositions. Subsequently, a microscale hole was created in the specimen by using a desktop-size micro-machining system. By using design of experiments and analysis of variance, it was found that the M2-Cu composition, spindle speed, and the interactions between these two factors had significant effects on the magnitude of cutting forces. However, the influence of feed rate on the cutting force was negligible. A mathematical model was established to predict the cutting force under a wide range of process conditions, and the reliability of the model was confirmed experimentally. In addition, it was observed that increasing the wt% of Cu in an M2-Cu specimen increased the high-frequency amplitude of cutting forces.

U2 - 10.7735/ksmte.2015.24.5.502

DO - 10.7735/ksmte.2015.24.5.502

M3 - Article

SN - 2233-6036

VL - 24

SP - 502

EP - 507

JO - 한국생산제조시스템학회지

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ER -

실험계획법을 이용한 M2-Cu 기능성 경사 재료의 마이크로 드릴링 특성 평가

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