The Manufacturing Automation Laboratory ( MAL ) conducts research in the mechanics and dynamics of metal cutting operations, machine tool feed drives, spindle design and analysis, micro-machining, virtual simulation of machining operations and CNC machine tools, design and digital control of high speed feed drives, precision machining, sensor assisted intelligent machining, chatter stability of cutting processes. Our academic articles receive the highest citation in the world in the field of manufacturing.

Research facilities include a five axis Mori Seiki NMV5000DCG CNC Machining Center, a Mori Seiki NT3150 CNC Mill Turn, a Fadal Vertical CNC Machining center instrumented with our own spindle and open CNC system, a Hardinge Super Precision CNC turning center, multi-functional micro-machining center Mikrotools MPM4020L, an in house built ultra-high speed micro machining center, Mitutoya CMM, high speed SIEMENS linear motor driven drive, low speed–large scale Lamb XY table, high speed ball–screw driven table, ultra-precision piezo actuators for precision turning, tool holder testing stands, shrink fit station.

The Laboratory is fully equipped to conduct research in all aspects of machine tool, machining and mechatronics engineering applied to manufacturing. Sample instruments include table, lathe and rotating dynamometers from Kistler; tool microscopes with video and photography attachment, surface finish analyzer, Ranishaw Laser Interferometer and ball bar, laser displacement sensors, laser vibrometer, capacitive-inductive probes, modal testing kits a variety of hammer and accelerometer sets, shakers, Fourier Analyzers, data acquisition sets, dSpace high speed control system, scopes and analog filters.

The laboratory designs and builds sophisticated but industry-friendly machining simulation algorithms which have milling, turning, boring, drilling, cutting temperature, spindle design and analysis, experimental modal analysis, modal testing and data acquisition modules(CUTPROâ„¢); virtual CNC, Virtual High Performance Machining System (MACHPRO). More than one hundred fifty leading companies and universities around the world licensed the unique and advanced engineering tools developed in our laboratory. We conduct joint projects with several national and international universities, research centers and leading machine tool, cutting tool, automotive and aerospace companies in North and South America, Asia and Europe.

Our laboratory is also a social gathering place for the graduate students. We work together, ski, camp, hike, and throw parties. We welcome graduate students, engineers from industry and other academic institutes who enjoy working on machine tools and automation.

Yusuf Altintas, Professor

NSERC – Pratt & Whitney Canada Industrial Research Chair in High Performance Virtual Machining

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News

• Prof. Altintas' book's "Manufacturing Automation" second edition has been published
  
• MAL Annual News Report for Alumni 2011
• Prof. Altintas was invited to give a talk on Virtual Machining Research at UBC and NSERC CANRIMT Network ( Nov. 26, 2011).
• Prof. Altintas gave one week long advanced machining principles course to the senior machine tool design engineers in Taiwan (November 21-25, 2011).
• Prof. Altintas is demonstrating modal testing and chatter avoidance methods on the machine. (PMC – Taiwan, Nov. 20, 2011).
• Professor Yusuf Altintas awarded Killam Teaching Prize at the University of British Columbia on May 31, 2010
  
• Professor Yusuf Altintas receives Engineers Canada’s highest award on May 30, 2010
  

• “MACHpro Virtual Machining System” is released as an industrial product. Interested parties can contact with to Mustafa Kaymakci (kaymakci {at} mail.ubc.ca)