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Sains
Malaysiana 38(6)(2009): 911–919
Pengintegrasian Vrml dengan Java dalam Simulasi Sistem Masa Nyata Proses Kisar
Hujung Maya
(Integration
of VRMLwith Java in the Real Time Simulation System of Virtual
End Milling Process)
Zainal Rasyid Mahayuddin &
Haslina Arshad
Jabatan Komputeran Industri, Fakulti
Teknologi dan Sains Maklumat
Universiti Kebangsaan Malaysia,
43600 UKM Bangi,
Selangor, Malaysia
Che Hassan Che Haron*
Jabatan Kejuruteraan Mekanik
dan Bahan, Fakulti Kejuruteraan dan Alam Bina
Universiti Kebangsaan
Malaysia,43600 UKM Bangi,
Selangor, Malaysia
Received: 24 October 2008 /
Accepted: 14 January 2009
ABSTRAK
Kertas
kerja ini membincangkan pendekatan dalam mengintegrasikan Java dan persekitaran VRML yang telah diaplikasikan dalam
mensimulasi masa nyata bagi proses kisar hujung maya. Pendekatan yang
menggunakan Routing ini adalah sangat penting
untuk komunikasi dan penghantaran mesej antara VRML dan Java. Dalam pendekatan ini, nod Script digunakan bagi
memanggil dan menghubungkan kelas Java dengan entiti-entiti yang sepatutnya di
dalam persekitaran VRML. Simulasi
bahan termesin bagi proses kisar hujung dalam sistem ini dilaksanakan melalui
satu kaedah baru iaitu dengan penggunaan nod penaikan bagi penjanaan objek 3D
dan nod PositionInterpolator serta CoordinateInterpolator bagi animasi bahan termesin. Melalui kaedah ini simulasi bagi proses kisar
hujung dapat dipaparkan secara maya dan pada masa yang sama graf haus rusuk
bagi perkakas pemotong melawan masa pemotongan dapat dijana serentak.
Kata kunci:
Haus rusuk; proses kisar hujung
ABSTRACT
This paper
addresses the approach towards implementing Java and VRML environment for simulation of a real time virtual end milling
process. This new method, which uses routing approach, is very important for
communicating and message passing between VRML and Java programme. Using VRML script, all the nodes of virtual world are routed to the Java
programme. The Java programme then controls the nodes in order to model the
virtual 3D model of an end milling process through the Extrusion node and
execute the simulation of machining parameters using the PositionInterpolator and CoordinateInterpolator node.
This application provides the simulation for geometrical modelling of milling
process and analytical modelling of machining responses specifically the flank
wear on cutting tool.
Keywords:
End milling process; flank wear
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*Corresponding author; email:
chase@vlsi.eng.ukm, my
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