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Prestressed concrete
Design and Uses of Prestressed Concrete Columns by Raymond Itaya*
Prestressed Concrete Girders Achieve Record Lengths Tacoma, Washington
Thermal Properties of Conventional and High-Strength Concrete
Problem Statement 1-4-1. Portland Cement Concrete Pavement Mix Design System Integration Stage 1: Volumetrics-Based Mix Design (Mix Proportioning)
Analysis of Cracked Prestressed Concrete Sections: a Practical Approach
Shrinkage and Creep in Prestressed Concrete
Deterioration of Prestressed Concrete Beams Due to Combined Effects of Carbonation and Chloride Attack
Stainless Steel Prestressing Strands and Bars for Use in Prestressed Concrete Girders and Slabs
Design Procedures for Prestressed Reinforced Concrete
Unit 3 Materials for Prestressed Concrete
Behavioural Analysis of Fly Ash Based Prestressed Geopolymer Concrete Electric Poles
Use of Flyash at Precast and Prestressed Concrete Production Facilities
Prestressed Concrete Construction Manual April 2017
High Early Strength Fly Ash Concrete for Precast/Prestressed Products
POST-TENSIONING VS. PRESTRESSING This Seminar Is Intended To
Bridges with Premature Concrete Deterioration: Damage Indices, December 2002 Strand-Pullout Tests, and Field Observations 6
A Thesis Entitled Study of Hidden Corrosion on Prestressing Strands
Pre-Stressed Concrete
Top View
Theoretical Modelling of Prestressed Nano-Concrete Girder Tukaram J
Prestressed Concrete
Electrothermic Method of Pretensioning Bar Reinforcement of Precast Reinforced Concrete by B
Methodology & Materials for Prestressed Concrete
Prestressed Concrete Materials for Prestressing (1) Prestressing Steel
Fracture Mechanics of Concrete· Structures
Novel Method for Radiation Shielding Using Nano-Concrete Composite
Structural Behaviour of Prestressed Concrete Sleepers Produced with High
Structural Properties of High Strength Concrete and Its Implications for Precast Prestressed Concrete
Effects of Fly Ash on Mechanical Properties of PC Girder Using Reactive Andesite Aggregates Tuan Minh Ha1*, Saiji Fukada2 and Kazuyuki Torii2
Numerical Study of Using FRP and Steel Rebars in Simply Supported Prestressed Concrete Beams with External FRP Tendons
Toward Green Concrete for Better Sustainable Environment
2006-1157: Greencrete: a Project on Environmentally Friendly Concrete
COMPREHENSIVE DESIGN EXAMPLE for PRESTRESSED CONCRETE (PSC) GIRDER SUPERSTRUCTURE BRIDGE with COMMENTARY (Task Order DTFH61-02-T-63032)
A Review of Concrete Properties for Prestressed Concrete Pressure Vessels
Durability of Precast Prestressed Concrete Piles in Marine Environment: Reinforcement Corrosion and Mitigation – Part 1
Stainless Steel Prestressing Strands and Bars for Use in Prestressed Concrete Girders and Slabs
Deterioration of Prestressed Concrete Beams Due to Combined Effects of Carbonation and Chloride Attack
Sustainable and Economical Precast and Prestressed Concrete Using Fly Ash As a Cement Replacement
404 – Concrete for Prestressed Concrete Members
14.1 PCI Standard Design Practice Precast and Prestressed Concrete Structures Have Provided Decades of Satisfactory Performance
Some Elementary Mechanics of Explosive and Brittle Failure Modes in Prestressed Containments
Experimental Study on Transfer Length of an Eco-Friendly Prestressed
Concrete Bridges Chair: Mary Lou Ralls
Field Performance and Durability of Eco-Friendly Prestressed Concrete Sleeper
Detection of Flaws in Reinforcing Steel in Prestressed Concrete Bridge
Precast Prestressed Concrete Construction
Effect of Concrete Composition on Splitting-Cracks in Prestressed Concrete Railroad Ties: Application of Fracture Mechanics
Fly Ash for PRECAST / PRESTRESSED CONCRETE PRODUCTS
Introduction to Prestressed Concrete 1 / 7
Nanotechnology in Concrete Materials
Expert Panel Workshop on Concrete Degradation in Spent Nuclear Fuel Dry Cask Storage Systems—Summary Report
Mechanical Properties of Prestressed Ultra High Strength Concrete Beam with a Molten Slag As Fine Aggregate
Prestress Losses and the Estimation of Long-Term
Recommended Practice for Design, Manufacture, and Installation of Prestressed Concrete Piling
Theoretical Modeling of Prestressed Nano-Concrete Sleeper
Fiber Reinforcement in Prestressed Concrete Beams
Flexural Redistribution in Ultra-High Performance Concrete Lab Specimens
Reinforcement for Concrete— Materials and Applications
Prestressed Concrete Pavements
Performance Evaluation of a Prestressed Belitic Calcium Sulfoaluminate Cement (BCSA) Concrete Bridge Girder
Types and Causes of Concrete Deterioration
The History of Prestressed Concrete: 1888 to 1963
Behavior of Prestressed Concrete Bridge Girders
SECTION 504 - PRESTRESSED CONCRETE MEMBERS 2 3 4 504.01 Description
Cracking of Reinforced and Prestressed Precast Concrete Deck Panels on Florida-I Beam Bridges: a Crack Disposition Study
Ultra High Performance Concrete (UHPC)
Evaluation of Structural Cracking in Concrete: Final Report
Interface Debonding Performance of Precast Segmental Nano-Materials Based Concrete (PSNBC) Beams
Structural and Economic Benefits of Precast/Prestressed Concrete Construction
Post Tensioning Manual
Using Belitic Calcium Sulfoaluminate Cement for Precast, Prestressed Concrete Beams
Numerical Fracture Analysis of Prestressed Concrete Beams
Systems Concepts for Precast and Prestressed Concrete Bridge Construction
Suggestions for Reducing Costs Prestressed Concrete Bridges