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Course Criteria
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0.00 Credits
Required laboratory for CENG 602 Structural Analysis II.
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1.00 Credits
Wood properties as construction material; design of beams, columns, fasteners, and connections. Glued-laminated timber and many other uses for structures in accordance with the National Design Specification. Form work for concrete structures, plywood and plywood diaphragms. Prerequisite: CENG 300 or permission of the instructor.
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0.00 Credits
Required laboratory for CENG 603 Wood Engineering Design Principles.
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1.00 Credits
Analysis and design of structures subjected to dynamic loads i.e., earthquake, wind gust, blast pressures, moving loads, machinery, etc. Prerequisite:CENG 301 or equivalent and permission of the instructor.
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1.00 Credits
Introduction to behavior and design of steel structures and elements, including tension members, compression members, beams, beam-columns, and connections. Limit states design philosophy is emphasized through the use of the AISC specifications. Design loads according to contemporary standards, and international building codes.
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1.00 Credits
Introduction to behavior and design of concrete elements and structures: beams, columns, slabs, footings, bridges. Reinforced and prestressed concrete. Material properties and behavior, flexural and shear strength, serviceability and deflections. Use of relevant codes and specifications icluding ACI and AASHTO. Design loads according to contemporary standards, and international building codes.
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1.00 Credits
Analysis and design of various types of prestressed concrete units and structures with consideration of shear stresses, deflections, and prestress losses. Prerequisites: CENG 301 or equivalent courses and permission of the instructor.
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1.00 Credits
Fundamental theory and applications for civil engineering, mechanical engineering, and engineering mechanics stress analysis problems. One-, two-, and three-dimensional elements, and axisymmetric elements, and their formulations; stress recovery techniques; modeling considerations; convergence criteria and error estimates, includes use of commercial and developmental finite element analysis prorgrams. Prerequisite: CENG 402 or permission of the instructor.
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1.00 Credits
Analysis and design of structures subjected to earthquakes. Single and multi degree-of-freedom systems, response spectra, seismology, soil dynamics. Seismic design methods in building codes. Isolation and energy dissipation systems. Laboratory to include experiments with shake table.
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1.00 Credits
Topics will vary. Prerequisite: permission of the instructor.
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