This paper presents a novel approach to measure the cutting temperature in process and control it to some extent by using an internally cooled smart cutting tool with a closed internal cooling circuitry. Numerical modeling based on the finite element analysis-computational fluid dynamics (CFD) method is carried out by using ansys and fluent, then the surface temperature distribution of the tool is fitted and the equivalent heat transfer coefficient of the tool surface contacting with cooling fluid is computed. Analytical thermal model of the tool is established based on the lumped parameter method. Theoretical analysis and numerical simulation results are in good agreement, which demonstrate that the innovative smart tooling design concept can effectively sense the cutting temperature at the cutting tool tip in process and also be used to reduce and control the critical cutting temperature in cutting zone for adaptive machining of difficult-to-machine materials, such as titanium and Inconel alloys. Experimental cutting trials are carried out to further examine and validate the method and concept of applying the smart cutting tool system.
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December 2013
Research-Article
An Innovative Method to Measure the Cutting Temperature in Process by Using an Internally Cooled Smart Cutting Tool
Shengrong Shu,
Shengrong Shu
School of Mechatronics Engineering,
e-mail: shushengrong201@163.com
Harbin Institute of Technology
,P.O. Box 413,
Harbin 150001
, China
e-mail: shushengrong201@163.com
Search for other works by this author on:
Kai Cheng,
Kai Cheng
School of Mechatronics Engineering,
Harbin Institute of Technology
,P.O. Box 413
,Harbin 150001
, China
;School of Engineering and Design,
Uxbridge,
Middlesex UB8 3PH,
e-mail: kai.cheng@brunel.ac.uk
Brunel University
,Uxbridge,
Middlesex UB8 3PH,
UK
e-mail: kai.cheng@brunel.ac.uk
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Hui Ding,
Hui Ding
1
e-mail: dhalbert@hit.edu.cn
1Corresponding author.
Search for other works by this author on:
Shijin Chen
Shijin Chen
e-mail: sjchen@hit.edu.cn
School of Mechatronics Engineering,
School of Mechatronics Engineering,
Harbin Institute of Technology
,P.O. Box 413
,Harbin 150001
, China
Search for other works by this author on:
Shengrong Shu
School of Mechatronics Engineering,
e-mail: shushengrong201@163.com
Harbin Institute of Technology
,P.O. Box 413,
Harbin 150001
, China
e-mail: shushengrong201@163.com
Kai Cheng
School of Mechatronics Engineering,
Harbin Institute of Technology
,P.O. Box 413
,Harbin 150001
, China
;School of Engineering and Design,
Uxbridge,
Middlesex UB8 3PH,
e-mail: kai.cheng@brunel.ac.uk
Brunel University
,Uxbridge,
Middlesex UB8 3PH,
UK
e-mail: kai.cheng@brunel.ac.uk
Hui Ding
e-mail: dhalbert@hit.edu.cn
Shijin Chen
e-mail: sjchen@hit.edu.cn
School of Mechatronics Engineering,
School of Mechatronics Engineering,
Harbin Institute of Technology
,P.O. Box 413
,Harbin 150001
, China
1Corresponding author.
Manuscript received May 1, 2013; final manuscript received October 14, 2013; published online November 18, 2013. Assoc. Editor: Yung Shin.
J. Manuf. Sci. Eng. Dec 2013, 135(6): 061018 (11 pages)
Published Online: November 18, 2013
Article history
Received:
May 1, 2013
Revision Received:
October 14, 2013
Citation
Shu, S., Cheng, K., Ding, H., and Chen, S. (November 18, 2013). "An Innovative Method to Measure the Cutting Temperature in Process by Using an Internally Cooled Smart Cutting Tool." ASME. J. Manuf. Sci. Eng. December 2013; 135(6): 061018. https://doi.org/10.1115/1.4025742
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