Investigation on the cutting force of high-speed milling of high volume fraction of SiCp/Al composites with PCD tools

Song Peng; Li Jing Xie; Xi Bin Wang; Na Xin Fu; Xing Kuan Shi

doi:10.4028/www.scientific.net/AMR.873.350

Investigation on the cutting force of high-speed milling of high volume fraction of SiC_p/Al composites with PCD tools

Song Peng, Li Jing Xie, Xi Bin Wang, Na Xin Fu, Xing Kuan Shi

School of Mechanical Engineering

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

3 Citations (Scopus)

Abstract

High-speed milling tests for 65vol.%SiC_p/6063Al composites were performed by polycrystalline diamond(PCD) tools, response surface methodology was utilized in this study, and a cutting force model was developed through response surface methodology, which contained some important parameters such as cutting speed, cutting feed rate, cutting depth and cutting width. The analysis of variance(ANOVA) indicated that the proposed mathematical model can adequately describe the relationship between cutting force and cutting process parameters. The results show that cutting depth is the biggest important factor of milling force, and cutting feed rate is the second important factor, cutting speed is the third; milling force would not increase with the increasing of cutting width.

Original language	English
Title of host publication	8th China National Conference on Functional Materials and Applications
Pages	350-360
Number of pages	11
DOIs	https://doi.org/10.4028/www.scientific.net/AMR.873.350
Publication status	Published - 2014
Event	8th China National Conference on Functional Materials and Applications, NCFMA 2013 - Harbin, China Duration: 23 Aug 2013 → 26 Aug 2013

Publication series

Name	Advanced Materials Research
Volume	873
ISSN (Print)	1022-6680

Conference

Conference	8th China National Conference on Functional Materials and Applications, NCFMA 2013
Country/Territory	China
City	Harbin
Period	23/08/13 → 26/08/13

Keywords

65vol.%SiCp/6063Al composites
Cutting force
High-speed milling
PCD
Response surface methodology

Access to Document

10.4028/www.scientific.net/AMR.873.350

Cite this

Peng, S., Xie, L. J., Wang, X. B., Fu, N. X., & Shi, X. K. (2014). Investigation on the cutting force of high-speed milling of high volume fraction of SiC_p/Al composites with PCD tools. In 8th China National Conference on Functional Materials and Applications (pp. 350-360). (Advanced Materials Research; Vol. 873). https://doi.org/10.4028/www.scientific.net/AMR.873.350

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title = "Investigation on the cutting force of high-speed milling of high volume fraction of SiCp/Al composites with PCD tools",

abstract = "High-speed milling tests for 65vol.%SiCp/6063Al composites were performed by polycrystalline diamond(PCD) tools, response surface methodology was utilized in this study, and a cutting force model was developed through response surface methodology, which contained some important parameters such as cutting speed, cutting feed rate, cutting depth and cutting width. The analysis of variance(ANOVA) indicated that the proposed mathematical model can adequately describe the relationship between cutting force and cutting process parameters. The results show that cutting depth is the biggest important factor of milling force, and cutting feed rate is the second important factor, cutting speed is the third; milling force would not increase with the increasing of cutting width.",

keywords = "65vol.%SiCp/6063Al composites, Cutting force, High-speed milling, PCD, Response surface methodology",

author = "Song Peng and Xie, {Li Jing} and Wang, {Xi Bin} and Fu, {Na Xin} and Shi, {Xing Kuan}",

year = "2014",

doi = "10.4028/www.scientific.net/AMR.873.350",

language = "English",

isbn = "9783037859698",

series = "Advanced Materials Research",

pages = "350--360",

booktitle = "8th China National Conference on Functional Materials and Applications",

note = "8th China National Conference on Functional Materials and Applications, NCFMA 2013 ; Conference date: 23-08-2013 Through 26-08-2013",

}

Peng, S, Xie, LJ , Wang, XB, Fu, NX & Shi, XK 2014, Investigation on the cutting force of high-speed milling of high volume fraction of SiC_p/Al composites with PCD tools. in 8th China National Conference on Functional Materials and Applications. Advanced Materials Research, vol. 873, pp. 350-360, 8th China National Conference on Functional Materials and Applications, NCFMA 2013, Harbin, China, 23/08/13. https://doi.org/10.4028/www.scientific.net/AMR.873.350

Investigation on the cutting force of high-speed milling of high volume fraction of SiC_p/Al composites with PCD tools. / Peng, Song; Xie, Li Jing ; Wang, Xi Bin et al.
8th China National Conference on Functional Materials and Applications. 2014. p. 350-360 (Advanced Materials Research; Vol. 873).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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AU - Peng, Song

AU - Xie, Li Jing

AU - Wang, Xi Bin

AU - Fu, Na Xin

AU - Shi, Xing Kuan

PY - 2014

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N2 - High-speed milling tests for 65vol.%SiCp/6063Al composites were performed by polycrystalline diamond(PCD) tools, response surface methodology was utilized in this study, and a cutting force model was developed through response surface methodology, which contained some important parameters such as cutting speed, cutting feed rate, cutting depth and cutting width. The analysis of variance(ANOVA) indicated that the proposed mathematical model can adequately describe the relationship between cutting force and cutting process parameters. The results show that cutting depth is the biggest important factor of milling force, and cutting feed rate is the second important factor, cutting speed is the third; milling force would not increase with the increasing of cutting width.

AB - High-speed milling tests for 65vol.%SiCp/6063Al composites were performed by polycrystalline diamond(PCD) tools, response surface methodology was utilized in this study, and a cutting force model was developed through response surface methodology, which contained some important parameters such as cutting speed, cutting feed rate, cutting depth and cutting width. The analysis of variance(ANOVA) indicated that the proposed mathematical model can adequately describe the relationship between cutting force and cutting process parameters. The results show that cutting depth is the biggest important factor of milling force, and cutting feed rate is the second important factor, cutting speed is the third; milling force would not increase with the increasing of cutting width.

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