Access the full text.
Sign up today, get DeepDyve free for 14 days.
Dave Kim, A. Beal, P. Kwon (2015)
Effect of Tool Wear on Hole Quality in Drilling of Carbon Fiber Reinforced Plastic-Titanium Stacks Using Tungsten Carbide and PCD Tools
E. Usui, T. Shirakashi, T. Kitagawa (1978)
Analytical Prediction of Three Dimensional Cutting Process—Part 3: Cutting Temperature and Crater Wear of Carbide ToolJournal of Engineering for Industry, 100
Jinyang Xu, M. Mansori (2016)
Numerical studies of frictional responses when cutting hybrid CFRP/Ti compositeThe International Journal of Advanced Manufacturing Technology, 87
W. Cong, Z. Pei, T. Deines, D. Liu, C. Treadwell (2013)
Rotary ultrasonic machining of CFRP/Ti stacks using variable feedrateComposites Part B-engineering, 52
S Liu (2007)
Cutting temperature and force in orthogonal cutting of titanium alloys. Master degree
S. Odelros (2012)
Tool wear in titanium machining
(2007)
Cutting temperature and force in orthogonal cutting of titanium alloys
DY Huang (2010)
Microstructures, properties, and mechanisms of CO-based cemented carbides under external heat/load conditions: master degree
Antoine Poutord, F. Rossi, G. Poulachon, R. M'Saoubi, G. Abrivard (2013)
Local Approach of Wear in Drilling Ti6Al4V/CFRP for Stack ModellingProcedia CIRP, 8
M. Senthilkumar, A. Prabukarthi, V. Krishnaraj (2013)
Study on Tool Wear and Chip Formation during Drilling Carbon Fiber Reinforced Polymer (CFRP)/ Titanium Alloy (Ti6Al4V) StacksProcedia Engineering, 64
(2015)
Research on cutting performance of WC-Co ultrafine cemented carbide cutting tools. Master degree. Beijing institute of technology
Lan Zhou, Y. Ke, HuiYue Dong, Zupeng Chen, Kaiye Gao (2016)
Hole diameter variation and roundness in dry orbital drilling of CFRP/Ti stacksThe International Journal of Advanced Manufacturing Technology, 87
J. Tarragó, S. Dorvlo, J. Esteve, L. Llanes (2016)
Influence of the microstructure on the thermal shock behavior of cemented carbidesCeramics International, 42
K. Park, A. Beal, Dave Kim, P. Kwon, Jeff Lantrip (2011)
Tool wear in drilling of composite/titanium stacks using carbide and polycrystalline diamond toolsWear, 271
Tamara Fabijanić, M. Franz, Ž. Alar (2016)
Influential factors on hardness uniformity of Vickers hardness blocks for high hardness rangeMeasurement, 78
Dave Kim, A. Beal, P. Kwon (2016)
Effect of Tool Wear on Hole Quality in Drilling of Carbon Fiber Reinforced Plastic–Titanium Alloy Stacks Using Tungsten Carbide and Polycrystalline Diamond ToolsJournal of Manufacturing Science and Engineering-transactions of The Asme, 138
K. Park, P. Kwon, Dave Kim (2012)
Wear characteristic on BAM coated carbide tool in drilling of composite/titanium stackInternational Journal of Precision Engineering and Manufacturing, 13
Shubao Yang, G. Zhu, Jiu-hua Xu, Yucan Fu (2013)
Tool wear prediction of machining hydrogenated titanium alloy Ti6Al4V with uncoated carbide toolsThe International Journal of Advanced Manufacturing Technology, 68
T. Deng, M. Bingley, M. Bradley, S. Silva (2008)
A comparison of the gas-blast and centrifugal-accelerator erosion testers: The influence of particle dynamicsWear, 265
T. Rajmohan, K. Palanikumar (2013)
Modeling and analysis of performances in drilling hybrid metal matrix composites using D-optimal designThe International Journal of Advanced Manufacturing Technology, 64
Pengfei Zhang, N. Churi, Z. Pei, C. Treadwell (2008)
MECHANICAL DRILLING PROCESSES FOR TITANIUM ALLOYS: A LITERATURE REVIEWMachining Science and Technology, 12
Benyu Wang, Hang Gao, Bo Cao, Zhuang Yuan, Zhe Zhao (2014)
Mechanism of damage generation during drilling of carbon/epoxy composites and titanium alloy stacksProceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture, 228
(2010)
Microstructures, properties, and mechanisms of CO-based cemented carbides under external heat/load conditions: master degree. Central south university
P. Katiyar, Prince Singh, Rishabh Singh, A. Kumar (2016)
Modes of failure of cemented tungsten carbide tool bits (WC/Co): A study of wear partsInternational Journal of Refractory Metals & Hard Materials, 54
M. Montoya, M. Calamaz, D. Gehin, F. Girot (2013)
Evaluation of the performance of coated and uncoated carbide tools in drilling thick CFRP/aluminium alloy stacksThe International Journal of Advanced Manufacturing Technology, 68
Jianxin Deng, Yousheng Li, Wenlong Song (2008)
Diffusion wear in dry cutting of Ti–6Al–4V with WC/Co carbide toolsWear, 265
Xin Wang, P. Kwon, C. Sturtevant, Dave Kim, Jeff Lantrip (2014)
Comparative tool wear study based on drilling experiments on CFRp/Ti stack and its individual layersWear, 317
Dong Wang, Jun Zhao, C. Xue, Yan Cao (2016)
Finite element simulation of Vickers micro-indentation test of micro-nano-composite ceramic tool materials based on microstructure modelInternational Journal of Refractory Metals & Hard Materials, 58
Hao Li, Gaiyun He, X. Qin, Guofeng Wang, Cui Lu, Linjing Gui (2014)
Tool wear and hole quality investigation in dry helical milling of Ti-6Al-4V alloyThe International Journal of Advanced Manufacturing Technology, 71
JB Cheng (2015)
Research on cutting performance of WC-Co ultrafine cemented carbide cutting tools. Master degree
Changying Wang, Yuhan Chen, Q. An, X. Cai, W. Ming, Ming Chen (2015)
Drilling temperature and hole quality in drilling of CFRP/aluminum stacks using diamond coated drillInternational Journal of Precision Engineering and Manufacturing, 16
To investigate the edge chipping during drilling of the CFRP/Ti stack with carbide cemented tools, a drilling experiment was carried out and a tool failure model was proposed. Thrust force, drilling temperature, and tool wear were analyzed. A tool stressing model and a tool failure model of edge chipping were constructed respectively. On the basis of these, the prediction model on the edge chipping was established to forecast the failure time. Drilling temperature, Vickers hardness, and cutting speed were considered during the prediction model building. The results demonstrate that adhesive wear has a great influence on the edge chipping. The damage of adhesive wear for tool rake face leads to the load variation on rake face and the initial crack. Under the action of shear stress, the crack starts at rake face and then expands to the flank face, resulting in tool edge chipping. The affinity interaction (between titanium alloy with carbide cemented) and the thermal residual stress are two critical factors for tool edge chipping. Tear easily occurs inside the binding phase or at the boundary between hard phase and binder phase. As the drilling temperature increases, the hardness of the carbide cemented will gradually decrease. The prediction result of failure time is similar to the experimental result, and the effectiveness of the prediction model is verified.
The International Journal of Advanced Manufacturing Technology – Springer Journals
Published: Jan 13, 2017
Read and print from thousands of top scholarly journals.
Already have an account? Log in
Bookmark this article. You can see your Bookmarks on your DeepDyve Library.
To save an article, log in first, or sign up for a DeepDyve account if you don’t already have one.
Copy and paste the desired citation format or use the link below to download a file formatted for EndNote
Access the full text.
Sign up today, get DeepDyve free for 14 days.
All DeepDyve websites use cookies to improve your online experience. They were placed on your computer when you launched this website. You can change your cookie settings through your browser.