Factorial study on nonlinear characteristics of difficult-to-cut materials in high-speed cutting process

Zhenhai Long; Xibin Wang; Haochen Wang

doi:10.3901/JME.2006.01.030

Factorial study on nonlinear characteristics of difficult-to-cut materials in high-speed cutting process

Zhenhai Long^*, Xibin Wang, Haochen Wang

^*Corresponding author for this work

School of Mechanical Engineering

Beijing Institute of Technology

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

6 Citations (Scopus)

Abstract

Factorials design and Latin hypercube sampling design are applied in the high-speed milling experiments of martensitic stainless steel. The characteristics of difficult-to-cut materials in high-speed cutting process are analyzed and a nonlinear mathematics model on the relationship between cutting forces and depth of cut, feed per tooth, cutting velocity is proposed. Experiments indicate that under the high-speed cutting of difficult-to-cut materials condition, the interaction of depth of cut and feed per tooth is one of statistic significant effects on cutting force; the relationships between cutting forces and cutting parameters are nonlinear; the effect of one cutting parameter on cutting force is sensitive to the choice of other cutting parameters.

Original language	English
Pages (from-to)	30-34
Number of pages	5
Journal	Jixie Gongcheng Xuebao/Chinese Journal of Mechanical Engineering
Volume	42
Issue number	1
DOIs	https://doi.org/10.3901/JME.2006.01.030
Publication status	Published - Jan 2006

Keywords

Difficult-to-cut materials
Gauss-Newton method
High-speed machining
Latin hypercube sampling
Nonlinear model

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10.3901/JME.2006.01.030

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title = "Factorial study on nonlinear characteristics of difficult-to-cut materials in high-speed cutting process",

abstract = "Factorials design and Latin hypercube sampling design are applied in the high-speed milling experiments of martensitic stainless steel. The characteristics of difficult-to-cut materials in high-speed cutting process are analyzed and a nonlinear mathematics model on the relationship between cutting forces and depth of cut, feed per tooth, cutting velocity is proposed. Experiments indicate that under the high-speed cutting of difficult-to-cut materials condition, the interaction of depth of cut and feed per tooth is one of statistic significant effects on cutting force; the relationships between cutting forces and cutting parameters are nonlinear; the effect of one cutting parameter on cutting force is sensitive to the choice of other cutting parameters.",

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T1 - Factorial study on nonlinear characteristics of difficult-to-cut materials in high-speed cutting process

AU - Long, Zhenhai

AU - Wang, Xibin

AU - Wang, Haochen

PY - 2006/1

Y1 - 2006/1

N2 - Factorials design and Latin hypercube sampling design are applied in the high-speed milling experiments of martensitic stainless steel. The characteristics of difficult-to-cut materials in high-speed cutting process are analyzed and a nonlinear mathematics model on the relationship between cutting forces and depth of cut, feed per tooth, cutting velocity is proposed. Experiments indicate that under the high-speed cutting of difficult-to-cut materials condition, the interaction of depth of cut and feed per tooth is one of statistic significant effects on cutting force; the relationships between cutting forces and cutting parameters are nonlinear; the effect of one cutting parameter on cutting force is sensitive to the choice of other cutting parameters.

AB - Factorials design and Latin hypercube sampling design are applied in the high-speed milling experiments of martensitic stainless steel. The characteristics of difficult-to-cut materials in high-speed cutting process are analyzed and a nonlinear mathematics model on the relationship between cutting forces and depth of cut, feed per tooth, cutting velocity is proposed. Experiments indicate that under the high-speed cutting of difficult-to-cut materials condition, the interaction of depth of cut and feed per tooth is one of statistic significant effects on cutting force; the relationships between cutting forces and cutting parameters are nonlinear; the effect of one cutting parameter on cutting force is sensitive to the choice of other cutting parameters.

KW - Difficult-to-cut materials

KW - Gauss-Newton method

KW - High-speed machining

KW - Latin hypercube sampling

KW - Nonlinear model

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Factorial study on nonlinear characteristics of difficult-to-cut materials in high-speed cutting process

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Keywords

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