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國外土木工程現(xiàn)狀和未來-資料下載頁

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【正文】 dslides and geomechanics. Zdenek Bazant National Academy of Sciences。 National Academy of Engineering。 American Academy of Arts and Sciences Structural Engineering and Materials Dept. of Civil and Environmental Engineering Northwestern University His research team has been developing material models for fiber posites, concrete, rocks and soils, sea ice, snow, tough ceramics, sandwich shells, rigid foams, cellular materials, bone, and shape memory alloys. Applications have covered structural and aerospace engineering, building codes, ship design, automotive crashworthiness, arctic engineering, earthquake engineering and nuclear safety. Although the emphasis is theoretical, his team also conducts specialized fracture testing of posites, concretes and rocks. Computational modeling is a heavy ponent in each problem, but Bazant39。s attitude is to seek first analytical solutions and asymptoticsbased approximations. Zdenek Bazant Bazant, ., and Planas, J. (1998). Fracture and Size Effect in Concrete and Other Quasibrittle Materials. CRC Press Structural Engineering and Materials Dept. of Civil and Environmental Engineering Northwestern University Developed innovative nondestructive tools to detect fracture. – Electronic Laser Specle Interferometry,激光散斑干涉測量方法 – Digital Image Correlation. Pioneering research in – fiber reinforced concrete – high performance concrete – fracture mechanics of quasibrittle materials. Walter P. Murphy Professor National Academy of Engineering, Structural Engineering and Materials Dept. of Civil and Environmental Engineering Northwestern University Current research projects include: – hybrid fiber reinforced cement based posites, – interaction between microcracking and transport properties, – monitoring insitu properties of concrete at early age using ultrasonic method, – putational model for fatigue fracture, – utilization of waste material, – early age cracking of high performance concrete, – functionally graded coatings for reinforcing bars to improve their corrosion resistance, – self pacting concrete – and extruded posites Walter P. Murphy Professor National Academy of Engineering, MIT 麻省理工學(xué)院 research program – mechanics, – analysis and design of structures, – innovative materials to strengthen structures – design of reinforced and prestressed concrete structures and bridges – ,mechanical behavior and durability of concrete materials and posites, – earthquake engineering and seismic design, interface fracture mechanics, – fiberreinforced polymer (FRP) posites in structural rehabilitation, – structural assessment and nondestructive testing (NDT), – thermomechanical analysis and design of refractory linings, a – design evaluation and structural safety assessment of nuclear power containments. Oral Buyukozturk MIT 麻省理工學(xué)院 Publications BlastResistant Glazing Systems Farfield NDT technique for detecting GFRP debonding from concrete Peel and Shear Fracture Characterization of Debonding in FRP Plated Concrete Affected by Moisture Oral Buyukozturk
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