Development of Optimal Design and Circular Broach Modular Design of Disc Cutters with the Development of a Parametric Model
Journal of Engineering Research and Reports,
Cutting tool is one of the most important instruments in production. It is used for machining of different components on machine tools. A material is cut into a chip to incur the desired work piece surface currently used in engineering various cutting tools. The directions of development of structures of metal cutting tools are: higher precision of dimensional and geometrical parameters, the use of new tool materials, cost, and quick. The cutting tools are not only affected by the design of machine, technology of manufacturing of products, but also impact the constructive forms of machine parts. The emergence of mechanical spine, thanks to the pull method. Spine broach can provide high-performance processing spine bore with the required accuracy. The development of heavy machine tools required the creation of new designs of large instruments. The use of mechanical automatic lines also required design tools with high dimensional stability capable of handling the items within the specified tolerance for a certain time. Instruments were developed in the process of renewing the cutting edge of the cutting tools with automatic adjustment; setting up tools on the size of the machine is a device for automatic replacement of worn tool in the process line of the Computer-Aided Manufacturing CAM of the cutting tool special requirements. Equipment must operate with high level efficiency, so to reduce the loss of time resetting of the need to minimal. A cutting tool requires knowledge of the theoretical foundations of design and calculation tools using CAD.
- Cutting tool
- computer aided manufacturing
- hydraulic hybrid system
- matlab simulink
How to Cite
Hall R, UPS, Kargul JJ, EPA US. Hydraulic hybrid promises big savings for ups, hydraulic and pneumatics. 2006;42.
Mohaghegh-Motlagh A, Elahinia MH. Dynamics force profile in hydraulic hybrid vehicles. A Numerical Investigation Vehicle System Dynamics. 2010;48(4):405-428.
EPA, Draft Report on the Environment; 2003.
Stienecker AW, Stuart T, Ashitiani C. An ultra capacitor circuit for reducing sulfation in lead acid batteries for muld hybrid electrc vehicles. Journal of Power Source; 2006.
Mohaghegh-motlagh A, Abuhaiba M, Elahinia M, Olson Hydraulic Hybrid Vehicle W, Myer K, ed. Wiley; 2007. ISBN; 978-0-471-79369-4
Hydraulic Hybrid Boost fuel economy, Hydraulic and Pneumatics, Machine Design; 2006.
Shan M. Dissertation modeling and control strategy for series hydraulic hybrid vehicle, the University of Toledo; 2009.
Deppen TO, Alleyne A, Stelson K, Meyer J. A model predictive control approach for a parallel hydraulic hybrid powertrain. 2011 American Control Conference, San Francisco California; 2011.
Tao L, Jincheng Z, Shuwen W, Fangde Gu. Logic threshold based energy control strategy for parallel hydraulic hybrid vehicles. Research journal of Applied Science, Engineering and Technology. 2013;6:2339-2344.
Haiti R. Hydraulic hybrid vehicle. International Journal of Engineering Research and General Science. 2015;3(1):85-90.
Vien Vu T. Different rule-based control schemes for a series hydraulic hybrid vehicle. studies in engineering and technology. 2016;3:101-108.
Chen C, Vien Vu T, Hung C. System modeling and control strategy development for a series hydraulic hybrid vehicle. Proceeding of the International Multi-Conference of Engineers and Computer Scientists 2013. Hong Kong; 2013.
Chen Y, Liu S, Jiang J, Shang T, Zhang Y, Sui H. Pulsating characteristics of the hydraulic hybrid vehicle system with pipeline effect. Mechanical Engineering Science. 2015;229.
Mahmoodi S, Guoqing H, Khajavi M. Investigation of control model in a series hybrid hydraulic/electric system for heavy vehicle based on energy efficiency. Chinese Journal of Engineering. 2016;9. Article ID 2417946.
Chen C, Vu T, Hung C. Control strategy development and optimization for a series hydraulic hybrid vehicle, Engineering letters, Advance online publication; 2013.
Lee H, Sul S, Cho H, lee J. Advance gear-shifting and clutching strategy for a parallel-hybrid vehicle. IEEE Industry Application Magazine; 2000.
Abstract View: 70 times
PDF Download: 25 times