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Louis Paul Hébert - 
Applied Science, Intellectual Property

Louis Paul Hébert is Run-time's applied science and intellectual property consultant. He is responsible for reviewing client IP, and making recommendations for IP productization and IP commercialization.
His qualification for this position include:

• 14 years as a research scientist for the National Research Council (NRC/CNRC).
• A Masters degree in Applied Science from the University of Toronto.
• An Honours Bachelor of Science degree in Physics from Queen's University in Kingston, ON.

Beyond Applied Science

Louis Paul Hébert's skillset goes beyond applied science. He is also:

• A skilled project manager who can plan and organize resources, and prioritize and execute tasks to meet client objectives and critical deadlines.
• An effective communicator who is bilingual in English and French with excellent written and verbal skills, and meticulous in his documentation practices.
• An expert problem solver who is quick to diagnose root causes and develop solutions.
• An innovative thinker who finds new ways to apply our clients' intellectual property for greater revenue and profit.

Publications

In Louis Paul Hébert's long and distinguished career with the National Research Council, he published numerous groundbreaking articles on applied science:

• Computer Modelling Of Shrinkage And Warpage In Injection Moulding Of Composites And Super Alloys. D. Laroche, L.-P. Hébert And G. Salloum, 1992.
• Computer Simulation Of Injection Molding Shrinkage For HDPE. P. Girard Et Al., 1987.
• Effect Of Inserts On Shrinkage In Injection Molded HDPE Disks. Louis Paul Hebert Et Al., 1990.
• Injection Molding And Binder Removal Process For Fine Zirconia Ceramics. François Allaire Et Al., 1995.
• An Integrated Methodology For The Design And Process Simulation Of Die Casting. L.P. Hébert Et Al., 1986.
• Kinematics Of Filament Winding On Slender Mandrels. R.R. Allard Et Al., Charrier, J.-M. (Jean-Michel), 1986.
• Modeling And Analysis Of Residual Stresses And Deformation In Injection Molded Parts. G. Salloum Et Al., 1990.
• A New Technique To Incorporate The Effects Of Geometric Boundary Conditions During The Calculation Of Shrinkage Of HDPE. L.P. Hébert Et Al., 1987.
• NRC-CNRC Worldwide R&D Review 1992. Prepared For SIGIM By P. Girard Et Al., 1993.
• Numerical Modeling Of Mold Filling In Injection Molding. D.M. Gao, K.T. Nguyen And L.P. Hébert, Gao, D. M. (Dong Ming), 1994.
• Numerical Simulation Of The Filling Stage In Gas-Assisted Injection Moulding. D.M. Gao Et Al., 1995.
• Single Fiber Pull-Out Tests On Steel Fibers Embedded In Cement Mortar. Yves-R. La Palme, Louis-Paul Hébert, La Palme, Yves-R., 1983
• A Strategy For Experiments To Develop And Verify Process Simulation Software. G. Salloum, L.P. Hebert, Salloum, G. (Georges), 1988.
• Theoretical And Experimental Study Of The Injection Moulding Of High Performance Thermoplastic Composites. Andrès Garcia-Réjon, Georges Salloum, Louis Paul Hébert, García-Rejón, Andrés, 1990.
• A Three-Dimensional Boundary-Element Approach To Gas-Assisted Injection Molding. R.E. Khayat, A. Derdouri And L.P. Hebert, Khayat, R. E. (Roger Edmond), 1994.