Advances in Machining & Manufacturing Technology VIII: Selected Papers from the 8th Conference on Machining & Advanced Manufacturing Technology in China, November 15-17, 2005, Hangzhou, ChinaZhejun Yuan This work presents its readers with the most recent advances in the fields of machining and advanced manufacturing technology. It will be of especial valuable to production and research engineers, research students and academics. |
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Page 321
... cut or up - cut , the cutting force in the direction of axis X Fx , those in the direction of axis Y Fy and those in ... Depth of Cut . The relationship between cutting forces and axial depth of cut is shown in Fig.5 . Cutting forces ...
... cut or up - cut , the cutting force in the direction of axis X Fx , those in the direction of axis Y Fy and those in ... Depth of Cut . The relationship between cutting forces and axial depth of cut is shown in Fig.5 . Cutting forces ...
Page 322
... cut 8 Axial depth of cut Ad ( mm ) Fig.5 Effect of axial depth of cut A , on cutting forces 200 Up - cut -F -F Cutting forces F ( N ) 100 200 Down - cut 100 0 1 2 3 Radial depth of cut R , ( mm ) v , = 470 m / min f , = 0.1mm A = 1mm ...
... cut 8 Axial depth of cut Ad ( mm ) Fig.5 Effect of axial depth of cut A , on cutting forces 200 Up - cut -F -F Cutting forces F ( N ) 100 200 Down - cut 100 0 1 2 3 Radial depth of cut R , ( mm ) v , = 470 m / min f , = 0.1mm A = 1mm ...
Page 398
... depth of cut ( or penetration ) has shown that the total depth of cut increases almost linearly with the water pressure but the rate of increase declines above certain pressure setting . Particle fragmentation at high pressure is ...
... depth of cut ( or penetration ) has shown that the total depth of cut increases almost linearly with the water pressure but the rate of increase declines above certain pressure setting . Particle fragmentation at high pressure is ...
Contents
Cutting tool | 3 |
Constraints | 4 |
Experimental Study on Ultrasonic Grinding and Polishing for LargeScale Silicon Wafer | 6 |
Copyright | |
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2006 Trans Tech algorithm alloy analysis angle axis ceramic China chip coating coefficient coordinates curve cutter cutting edge cutting force cutting process cutting speed cutting tool decrease deformation density depth of cut diameter diamond film drill dynamic effect electrode energy Engineering error experiments fracture frequency friction function grain grinding wheel Harbin hardness high speed high-speed http://www.scientific.net 2006 Trans improve increase ion implantation kerf Keywords laser peening layer load machine tool machined surface manufacturing matrix measured metal method micro microstructure milling milling cutter nano-scale Natural Science Foundation Node nozzle online at http://www.scientific.net optimization oxidation parameters PID controller plasma polishing precision pressure pulse pulsed power rake face residual stress rotation speed sample Shandong University shown shows silicon simulation sintering steel substrate surface roughness Technology thermal thickness tool materials tool wear Trans Tech Publications Tribology ultrasonic ultrasonic vibration velocity wafer width workpiece