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Course Criteria
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3.00 Credits
Concepts involving the interaction of wood with moisture and heat and the mechanical behavior of solid wood based materials are discussed. Students develop skills in characterization of psychrometric processes in the wood industry, formulation of solutions to moisture related wood problems, the analysis of thermal processes for wood, solving stress-strain problems in load bearing wood structures, and methods to characterize wood properties. An undergraduate degree in engineering or science is required. For related undergraduate degrees, the student must get approval from the instructor to enroll.
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3.00 Credits
Strategic Business Processes is designed to introduce the technically trained student to organizational, management and leadership processes that drive a successful business. The course highlights the differences between principled leadership and "opinion poll" leadership, the need to balance the conflicting wants of major stakeholders in the business, the importance of a unique strategy, the linkage between strategy and day-to-day implementation of the strategy and the ingredients and requirements for a successful career. Real time illustrations are based on the Forest Products industry.
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3.00 Credits
Surface and interfacial science as related to uses of lignocellulosic materials are covered. Fundamentals of the physical chemistry of surfaces and aqueous suspensions are brought to life with examples from such fields as paper science, biomaterials science, composites, and cellulosic liquid fuels technology. Topics include colloidal stability, flocculation, surface forces, polyelectrolyte behavior, electrokinetics, capillary forces, adhesion, surfactancy, and self-assembly. Water-cellulose interactions, including wettability, swelling, and hydrogen bonding effects will be highlighted.
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3.00 Credits
Chemical principles for the Papermaking Process Engineer provides a foundation in aqueous chemistry and the applications of polyelectrolytes. The course is intended for professionals employed in the paper manufacturing industry and related industries, such as chemicals suppliers to paper manufacturers. Topics include the papermaking process, acids and bases, polymers, water-resistance, paper strength, colorants, retention and dewatering aids, deposit control, coatings, recycling, and wastewater treatment. Lectures are by CD or DVD. The course-pack, quizzes, and readings are on the web. For off-campus students. Permission of instructor required.
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3.00 Credits
The course objective is to prepare students to solve problems related to chemical usage on paper machines. Subjects include paper machine operations, fibers, fillers, chemistry of additives, colloids, control of paper's interactions with liquids, strength, dyes,strategies to optimize retention, dewatering strategies, strategies to achieve more uniform paper, strategies to improve production rates, and wet-end chemical process control.
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3.00 Credits
Behavior, strength and design of wood structural members subjected to moment, shear and axial forces. Design of connections and introduction to design of wood structural systems.
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3.00 Credits
Principles of Mechatronics Design, review of logic gates, microprocessor architecture, sensors and actuators, A/D and D/A conversion techniques, real-time multi-tasking programming concepts, direct digital control implementation. "Hands-on" experience through several laboratory assignments and final team project.
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3.00 Credits
Physical models of forest biomaterials including (1) viscosity properties of biopolymer solutions and fibrous suspensions, (2) visco-elastic and thermal properties of biopolymers, (3) elastic properties of biomaterials, and (4) fibrous network properties are covered. Focus is on the scientific aspects of these topics with special applications to materials derived from forest resources.
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3.00 Credits
Major printing processes and grades of coated paper are presented. Coating base sheet requirements and design of coating formulation are related to end use requirements. Coating additives and rheology are analyzed in terms of coating process requirements. The effect of application and drying systems on transport phenomena of coating into paper will be analyzed.
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1.00 Credits
No course description available.
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