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PRESTRESSED CONCRETE DESIGN past question for the year 2015 examines 500-level Engineering students of FUTO, offering STE509 course on their knowledge of Ultimate moment of resistance, prestresssing, reinforced concrete, tendon, flange

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Past Questions related to PRESTRESSED CONCRETE DESIGN

PRESTRESSED CONCRETE DESIGN

Year: 2014

School: Federal University of Technology, Owerri

Department: Engineering

Course Code: STE509

Topics: Post-tension, pre-tension, prestresssing, reinforced concrete, tendon, flange, self weight

PRESTRESSED CONCRETE DESIGN

Year: 2012

School: Federal University of Technology, Owerri

Department: Engineering

Course Code: STE509

Topics: prestresssing, reinforced concrete, tendon, flange

PRESTRESSED CONCRETE DESIGN

Year: 2013

School: Federal University of Technology, Owerri

Department: Engineering

Course Code: STE509

Topics: prestresssing, reinforced concrete, tendon, flange

PRESTRESSED CONCRETE DESIGN

Year: 2016

School: Federal University of Technology, Owerri

Department: Engineering

Course Code: STE509

Topics: stress, self weight, live load, pre-tension, tendon eccentricity

Civil engineering materials

Year: 2019

School: Federal University of Technology, Owerri

Department: Engineering

Course Code: CIE204

Topics: Civil engineering materials, concrete, concrete setting time, concrete segregation, fresh concrete, hardened concrete, plastic concrete, fresh concrete breeding, compressive strength, admixtures, batching, curing, workability, steel, steel corrosion, coal tar, asphalt

PRESTRESSED CONCRETE DESIGN

Year: 2017

School: Federal University of Technology, Owerri

Department: Engineering

Course Code: STE509

Topics: Extreme fibers, concrete structures, symmetrical pre-stress

Engineering drawing 3

Year: 2018

School: Federal University of Technology, Owerri

Department: Engineering

Course Code: ENG203

Topics: AUTOCAD, flang joint, concrete slab, reinforced concrete, isometric projection

REINFORCED CONCRETE DESIGN 1

Year: 2019

School: Federal University of Technology, Owerri

Department: Engineering

Course Code: STE403

Topics: staircase, load, reinforcement, beam, tension, supported slab, slab, bending moment

REINFORCED CONCRETE DESIGN 2-2012-2018

Year: 2018

School: Federal University of Technology, Owerri

Department: Engineering

Course Code: STE518

Topics: column, beam, floor, shear, deflection, reinforcement, retaining wall, punching shear, yield line method, flat slab, slab, cantilever, dead load, preliminary design, bearing pressure analysis, stem wall design, stem wall reinforcement, axial load, unaxial moment, slender column

Structural analysis

Year: 2020

School: Federal University of Technology, Owerri

Department: Engineering

Course Code: STE401

Topics: Structural analysis, consistent deformation method, collapse moment, collapse mechanism, plastic moment capacity, fixed end moments, stiffness factor, carry-over factor, moment equation method

Man made fibre production

Year: 2019

School: Federal University of Technology, Owerri

Department: Engineering

Course Code: PTE314

Topics: Man made fibre production, polymer testing, polymer analysis, elastic limit region, plastic region, breaking point region, fabric air permeability, fabrics water repellency, fabrics absorbency, toughness, ultimate tensile strength, tear resistance, colour fastness, impact strength test

Analysis and resting of polmeric and textiles

Year: 2019

School: Federal University of Technology, Owerri

Department: Engineering

Course Code: PTE322

Topics: Polymer analysis, polymer testing, plastic region, breaking point region, elastic limit region, fabrics water repellency, fabrics absorbency, fabrics air permeability, toughness, ultimate tensile strength, tear resistance, impact strength test

Cost estimating

Year: 2018

School: Federal University of Technology, Owerri

Department: Engineering

Course Code: CIE509

Topics: Concrete ancilliaries, insitu-concrete

DESIGN OF STEEL STRUCTURES

Year: 2016

School: Federal University of Technology, Owerri

Department: Engineering

Course Code: STE505

Topics: beams, support, dead loading, imposed loading, flange, joint

Books related to PRESTRESSED CONCRETE DESIGN

Concrete Technology Theory and Practice, Multicolour Edition

Author: MS Shetty

School: Bayero University, Kano

Department: Engineering

Course Code: CIV5307

Topics: Concrete technology, Cements, Modern cements history, Portland cement manufacturing, Portland cement wet process manufacturing, Portland cement dry process manufacturing, Cement chemical composition, Cements hydration, Heat of hydration, Calcium silicate hydrates, Calcium hydroxide, calcium aluminate hydrates, hydrated cements structure, Water requirement for hydration, Cement types, ASTM cements classification, Ordinary Portland cement, Rapid hardened cement, Extra rapid hardening cement, Portland slag cement, Quick setting cement, super sulphated cement, low heat cement, Portland pozzolana cement, coloured cement, hydrophobic cement, masonry cement, expansive cement, Cement testing, Aggregates, aggregates testing, Aggregates form igneous rock, aggregates from sedimentary rocks, aggregates from metamorphic rock, aggregate crushing value, aggregates impact value, aggregate abrasion value, Deval attrition test, Dorry Abrasion test, Los Angeles test, modulus of elasticity, bulk density, specific gravity, Sieve analysis, Aggregates testing, Water, water qualities, Sea water for mixing concrete, Admixture, construction chemicals, Plasticizers, water reducers, Workability, Plasticizers action, Superplasticizers classification, Factors affecting workability, Superplasticizers types, Fresh concrete, Fresh concrete water content, Fresh concrete mix proportions, Aggregates sizes in fresh concrete, Aggregates shape, Surface texture, Admixture use in fresh concrete, Workability measurement, Slump test, k-slump test, aggregates grading, compacting factor test, flow test, flow table apparatus, vee bee consistometer test, setting of concrete, Manufacture of concrete process, Concrete compaction, Concrete curing, Concrete strength, Water-cement ratio, Strength gaining with age, Concrete maturity concept, Bond strength, High strength concrete, Elasticity, Creep, Shrinkage, Aggregates elastic properties, Modulus of Elasticity, Dynamic modulus of elasticity, Poison's ratio, Creep rheological representation, Creep measurement, Factors affecting creep, Aggregate influence, Mix proportion influence, Shrinkage, Plastic Shrinkage, Drying Shrinkage, Moisture movement, Autogenous Shrinkage, Carbonation shrinkage, Concrete Durability, Strength to Durability relationship, Concrete volume change, Durability definition, durability significance, Permeability, Cement paste permeability, Concrete permeability, Plastic shrinkage cracks, Settlement cracks, Thermal shrinkage, Hardened concrete testing, Concrete mix design, Special concrete, concrete methods

Reinforced Concrete Design To Eurocode 2

Author: Bill Mosley, John Bungey, Ray Hulse

School: Bayero University, Kano

Department: Engineering

Course Code: CIV3307

Topics: Reinforced Concrete Design, Design processes, composite action, stress-strain relations, shrinkage, thermal movement, creep, materials specification, Limit state design, Characteristics material strengths, Combination of actions, Load combinations, Beams analysis, Frames Analysis, Shear wall structures resisting horizontal loads, Moments redistribution, Rectangular-parabolic stress block, Triangular stress block, Shear, bond, Torsion, Anchorage bond, span-effective depth ratio, deflection calculation, flexural cracking, Thermal cracking, Shrinkage cracking, Reinforced concrete beams design, Reinforced concrete slabs design, Column design, column classification, slender column design, Foundations design, Retaining walls design, Prestressed concrete, Water-retaining structures, composite construction, Footings, Reinforcement details, Shear connector design

Prestressed Concrete A Fundamental Approach, Fifth edition

Author: Edward Nawy

School: Federal University of Technology, Owerri

Department: Engineering

Course Code: STE509

Topics: fiber stress, stress-strain curve of concrete, creep, shrinkage, nonprestressing reinforcement, ACI Maximum permissible stress, AASHTO maximum permissible stress, circular prestressing, elastic shortening of concrete, steel stress relaxation, creep loss, shrinkage loss, anchorage-seating loss, service-load design, composite beam, ultimate-strength flexural design, shear strength, torsional strength, web-shear reinforcement, dowel reinforcement, torsional behavior, indeterminate frame, indeterminate portal, camber, deflection, crack control, prestressed compression, tension member, LRFD, seismic shear

Reinforced Concrete Structures Analysis and Design

Author: David Fanella

School: Federal University of Technology, Owerri

Department: Engineering

Course Code: STE403, STE518

Topics: reinforced concrete, building code, building standard, reinforcement, loading, moment distribution, strength, serviceability, flexural member, compression member, tension member, axial load, two-way slab, column, preliminary column sizing, slenderness effect, biaxial loading, wall, foundation, footing, mat foundation

Design of Structural Elements

Author: WMC McKenzie

School: Bayero University, Kano

Department: Engineering

Course Code: CIV3307

Topics: Structural elements design, Structural Analysis Techniques, Shear Force, Bending moment, Shear force diagram, Bending moment diagram, Deflection of Beams, Elastic Shear stress distribution, Elastic Bending stress distribution, Transformed sections, Moment distribution, Bending stiffness, Rotational Stiffness, Carry-over moment, Pinned End, Free Moments, Fixed bending moments, Distribution Factors, Design Philosophies, Permissible stress Design, Load Factor Design, Limit State Design, Design codes, Eurocodes, National Annex, Structural Loading, Dead loads, Imposed loads, Imposed roof loads, Floor load distribution, Load distribution, Structural Instability, Overall Stability, Robustness, Reinforced concrete Element's Design, Structural Steelwork Elements' Design, Structural Timber Elements' Design.

Building Materials, Revised Third Edition

Author: SK Duggal

School: Bayero University, Kano

Department: Engineering

Course Code: CIV3302

Topics: Building Materials Principal Properties, Structural Clay Products, Brick's Classification, Brick's Testing, Clay Tiles, Terracotta, Porcelain, stoneware, Earthenware, Glazing, Rocks, Stones, Rock-forming minerals, Rock's Classification, Stone Durability, Stones Application, Stone seasoning, wood, wood Products, Trees Classification, Trees growth, Timber Preservation, Timber testing, Timber Structure, Timber's Fire Resistance, Properties of wood, wood products, wood-products applications, Material for making concrete, Cements, Portland cement, Raw materials chemical composition, Cement Hydration, Rate of Hydration, Hydration water requirement, Cements manufacturing, Cements testing, Cement Types, Cements storage, Aggregates, Aggregates classification, Aggregates characteristics, Deleterious Materials, Organic Impurities, Soundness, Aggregates Thermal Properties, Fine Aggregates, Coarse Aggregates, Cinder Aggregates, Mixing water Quality, Effect of mixing water from different source, Water for washing aggregates, Curing water, Lime, Limestone's Impurities, Limestone's Storage, Lime Vs Cement, Pozzolanas, Concrete, water-cement ratio, workability, Maturity, Defects, Re-vibration, Rheology, Non-destructive testing, Admixture for concrete, Concrete Mix design, Building Mortars, Ferrous Metals, Non-Ferrous Metals, Ceramic Materials, Polymeric Materials, Paints, Enamels, Varnishes, Tar, Bitumen, Asphalt, Gypsum, Special Cements, Cement Concretes, Adhesives, Water proofing materials, Fiber, Geosynthetics, Composite Materials, Smart materials, Asbestos, Thermoc0ol, Heat Insulating Materials, Sound Insulating Materials.

Foundations of Materials Science and Engineering, sixth edition

Author: William Smith, Javad Hashemi, Francisco Presuel-Moreno

School: Federal University of Technology, Owerri

Department: Engineering

Course Code: ENG207, ENG208

Topics: Atomic Structure, Atomic Bonding, Crystal structure, Amorphous Structure, Solidification, Crystalline Imperfections, Engineering Alloys, Phase Diagrams, Polymeric Materials, ceramics, Composite Materials, corrosion, light, superconductive materials, magnetic properties, biological materials, biomaterials, smart materials, bond, cubic unit cell, diffusion, alloy, metal, stress, strain, Poisson ratio, plastic deformation, gibbs phase rule, cooling curves, copper, iron, steel, cast iron, aluminum, magnesium, titanium, nickel, thermoplastic, thermost, elastomer, rubber, glass, concrete, asphalt, wood, sandwich structures, corrosion rates, metal-matrix, ceramic-matrix, galvanic cells, microelectronics, nanoelectronics, semiconductors, light, electromagnetic spectrum, laser, luminescence, optical fibers, superconducting materials, ferromagnetic, magnetic field, ferromagnetism, tendon, ligament, articular cartilage

The Science and Engineering of Materials ,Seventh Edition

Author: Donald Askeland, Wendelin Wright

School: Federal University of Technology, Owerri

Department: Engineering

Course Code: ENG207, ENG208

Topics: Materials Design, Atomic Structure, Atomic Bonding, interatomic spacing, amorphous materials, lattice, basis, unit cells, crystal structure, Allotropic Transformation, Polymorphic Transformation, Crystal Structures, unit cell, Covalent Structures, diffusion, Fick’s Law, Mechanical Properties, Tensile Test, stress, strain, Nanoindentation, Fracture Mechanics, Fatigue, Fatigue Test, creep, rupture, stress corrosion, Strain Hardening, Annealing, Hot Working, Nucleation, cooling curves, cast structure, casting, Directional Solidification, Single Crystal Growth, Epitaxial Growth, Phase Diagram, Phase Equilibrium, Dispersion Strengthening, Eutectic Phase Diagrams, Eutectoid Reaction, Martensitic Reaction, Tempering, Nonferrous Alloys, Glass-Ceramics, Polymers, Polymerization, Thermoplastics, elastomers, rubbers, adhesives, Composites, Particulate Composites, Fiber-Reinforced Composites, plywood, concrete, asphalt, Electronic Materials, semiconductors, insulators, Electrostriction, Piezoelectricity, Ferroelectricity, Magnetic Materials, Magnetization

The science and engineering of materials Instructors‘ Solution Manual, Fourth Edition

Author: Frank Askeland, Pradeep Phulé, Gregory Lea

School: Federal University of Technology, Owerri

Department: Engineering

Course Code: ENG207, ENG208

Topics: Materials Design, Atomic Structure, Atomic Bonding, interatomic spacing, amorphous materials, lattice, basis, unit cells, crystal structure, Allotropic Transformation, Polymorphic Transformation, Crystal Structures, unit cell, Covalent Structures, diffusion, Fick’s Law, Mechanical Properties, Tensile Test, stress, strain, Nanoindentation, Fracture Mechanics, Fatigue, Fatigue Test, creep, rupture, stress corrosion, Strain Hardening, Annealing, Hot Working, Nucleation, cooling curves, cast structure, casting, Directional Solidification, Single Crystal Growth, Epitaxial Growth, Phase Diagram, Phase Equilibrium, Dispersion Strengthening, Eutectic Phase Diagrams, Eutectoid Reaction, Martensitic Reaction, Tempering, Nonferrous Alloys, Glass-Ceramics, Polymers, Polymerization, Thermoplastics, elastomers, rubbers, adhesives, Composites, Particulate Composites, Fiber-Reinforced Composites, plywood, concrete, asphalt, Electronic Materials, semiconductors, insulators, Electrostriction, Piezoelectricity, Ferroelectricity, Magnetic Materials, Magnetization

Bending moment and Shear Force

Author: ENG305

School: Federal University of Technology, Owerri

Department: Engineering

Course Code: ENG305

Topics: Computation of reactions, Computation of forces and moments, bending moment and shear force, bending moment diagram, beams of composite cross section

Strength of Material, Second Edition

Author: SS Rattan

School: Bayero University, Kano

Department: Engineering

Course Code: CIV3308

Topics: Simple stress, simple strain, Shear stress, Saint-Venant's principle, Stress, strain, Modulus of elasticity, Modulus of Rigidity, Bar elongation, Superposition principle, Tapering section Bars, Elongation due to self-weight, Uniform strength column, Statically indeterminate systems, Temperature stresses, Shrinking on, Strain analysis, Tensile test diagram, Elastic constants, Three-Dimensional stress systems, Compound stress, compound stress, Principal stresses, Maximum shear stresses, Mohr's Stress cycle, Three coplanar stress, Ellipse of Stress, Strain Analysis, Principal Strain, Principal shear strain, Mohr's Strain cycle, Strain Energy, Shear force, Bending moment, Supports types, Bending stress in beams, Simple bending theory, Moment of inertia, Flitched beams, composite beams, Unsymmetrical bending, Ellipse of inertia, Shear stress in beams, Shear stress variation, Built-up beams, Shear centre, Deflection, Beam differential equation, Deflection at a point, Macaulay's method, Moment-Area method, Strain energy due to bending, Castigliano's First theorem, Deflection by castigliano's Theorem, Impact loading on beams, conjugate beam method, Betti's reciprocal deflections theorem, Maxwell's Reciprocal Deflection theorem, Fixed beams, Continuous beams, Fixidity Effects, Clapeyron's three moment equation, Torsion, Springs, Columns, Struts, Failure Theories, Plastic bending, Plane frame structures, Materials properties, Materials testing, Tensile testing, Compression testing, Torsion testing, Hardness testing, Impact testing, Fatigue testing

Fluid mechanics

Author: IO Arukalam

School: Federal University of Technology, Owerri

Department: Engineering

Course Code: ENG309

Topics: fluid resistance, Reynolds number, newtonian and non-newtonian fluid flow, laminar flow analysis, turbulent flow analysis, Newtonian fluids, non-newtonian fluids, fluid resistance, fluid resistance equation, laminar flow, turbulent flow, Reynolds number, unsteady fluid flow

Introduction to strength of materials, fourth edition

Author: RK Bansal

School: Federal University of Technology, Owerri

Department: Engineering

Course Code: ENG305

Topics: stress, strain, elastic constant, strain energy, shear force bending moment, center of gravity, moment of inertia, bending stress, deflection of beam, dam, deflection of cantilever

Molecular basis of resistance to antimicrobial and antiparasitic drugs

Author: Akinola Olugbenga

School: University of Ilorin

Department: Medical, Pharmaceutical and Health science

Course Code: PHARMACOLOGY400

Topics: antimicrobial resistance, antiparasitic resistance, penicillins, tetracycline, cephalosporin, amphotericin B, Aminoglycosides, antifungal drugs, azole compounds, allyamines, Antimalarial resistance, Chloroquine resistance, Antifolate resistance, Artemisinin resistance, ANTIPARASITIC DRUG RESISTANCE, Trichomoniasis, Trichomonas resistance, Leishmaniasis, African trypanosomiasis, Trypanosomiasis drug resistance

Tensile Testing, second edition

Author: JR Davis

School: Federal University of Technology, Owerri

Department: Engineering

Course Code: ENG208

Topics: Tensile Testing, Stress-Strain Curve, stress, strain, Ductility, Anisotropy, Tensile Loads, Uniaxial Tensile Testing, Tensile Testing Equipment, Strain Sensors, Gripping Techniques, Environmental Chambers, Product Design, Hardness-Strength Correlation, elastic modulus, mechanical testing, Sheet Formability, Formability Tests, Plane-Strain Tensile Testing, Anelasticity, Proportional Limit, damping, Fracture Characterization, Yield Point, Elastomers, plastic, ceramic, ceramic-matrix, Fiber-Reinforced Composites, High-Strain Rates, Hot Tensile Testing, temperature control, High Strain Rate Tensile Testing, Conventional Load Frames, Expanding Ring Test, Flyer Plate Loading, Short Duration Pulse Loading, Split-Hopkinson Pressure Bar Technique, Rotating Wheel Test

Materials for engineering ,Third edition

Author: John Martin

School: Federal University of Technology, Owerri

Department: Engineering

Course Code: ENG207, ENG208

Topics: engineering materials, mechanical properties, Metals, alloys, Glass, ceramics, Organic polymeric materials, Composite materials, Crystal structure, Microstructure, tensile test, bend testing, Hardness testing, Fracture toughness testing, Glass ceramics, Cement, concrete, Bulk metallic glasses, Cellular solids

Strength of materials, Fifth edition

Author: RK Rajput

School: Federal University of Technology, Owerri

Department: Engineering

Course Code: ENG305

Topics: stress, strain, centroid, inertia, bending moment, shear force, deflection of beams, fixed beam, continous beam, thin shells, joint, shafts, spring, column, struts

Machine design lecture note

Author: ENG311

School: Federal University of Technology, Owerri

Department: Engineering

Course Code: ENG311

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Author: Hannah, MJ Hillier

School: Federal University, Oye-Ekiti

Department: Engineering

Course Code: MEE203

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Properties and strength Of Materials

Author: Muhannad Zedan

School: Bayero University, Kano

Department: Engineering

Course Code: CIV3308

Topics: strength Of Materials, Simple stress, simple strain, Elastic materials, Hooke's law, Modulus of elasticity, Young's modulus, Brittle materials, Poisson's ratio, Shear stress, Modulus of rigidity, Double shear, Temperature stresses, Compound bar, Cantilever beams, Simple beams, Shear force, bending moment, Shear force diagram, bending moment diagram, Torsion, Crystalline structure, Metals crystalline structure, Atomic bonding, crystal structure, Body-centered cubic structure, Face-centered cubic structure, Hexagonal close-packed structure, grain structure, grain boundary, polymorphism, Slope of beams, deflection of beams, Fatigue, creep, Fracture, Creep test, Fracture mechanics, Linear fracture mechanics, Griffith's fracture criterion

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