Concrete Technology for a Sustainable Development in the 21st CenturyOdd E. Gjorv, Koji Sakai Concrete technology for a sustainable development in the 21st century focuses on the problems and challenges for the concrete industry today and in the future with particular emphasis on environmental consiousness. Primary topics include: the improvement of concretes service life to ease technical and economical problems and the waste of natural resources; environmentally friendly concrete production including new production methods and recycling materials; and actually using concrete to solve environmental problems, for example through the containment of hazardous waste. The book is the result of the international workshop held in Lofoton, Norway. With very select contributions from the most distinguished international professional experts, this book provides a basic framework and guidelines for national and international bodies. |
Contents
CONTROLLED SERVICE LIFE OF CONCRETE STRUCTURES AND ENVIRONMENTAL CONSCIOUSNESS | 1 |
INTEGRATED DESIGN OF CONCRETE STRUCTURES AND TECHNOLOGY DEVELOPMENT | 14 |
INTEGRATED LIFE CYCLE DESIGN OF CONCRETE STRUCTURES | 27 |
A HOLISTIC APPROACH TO STRUCTURAL DURABILITY DESIGN | 41 |
UNIFICATION OF THERMOPHYSICS OF MATERIALS AND MECHANICS OF STRUCTURES TOWARD A LIFE SPAN SIMULATOR OF STR... | 57 |
MORE RATIONAL DESIGN OF COMPLEX CONCRETE STRUCTURES | 74 |
CONCRETE TECHNOLOGY FOR SUSTAINABLE DEVELOPMENT AN OVERVIEW OF ESSENTIAL ELEMENTS | 83 |
THE ROLE OF VOLUNTARY INTERNATIONAL ASSOCIATIONS IN PROMOTING A SUSTAINABLE DEVELOPMENT IN CONCRETE | 95 |
ROLE OF SUPPLEMENTARY CEMENTING MATERIALS IN REDUCING GREENHOUSE GAS EMISSIONS | 226 |
AN AUSTRALIAN PERSPECTIVE | 236 |
ENVIRONMENTAL PROPERTIES OF BUILDING MATERIALS | 246 |
HIGH PERFORMANCE GROUTS FOR SUSTAINABLE DEVELOPMENT OF INFRASTRUCTURE | 253 |
PRESENT AND FUTURE VIEWS OF ENVIRONMENTALLYFRIENDLY CONCRETE | 264 |
NEW TECHNOLOGY FOR THE RECYCLING OF CONCRETE JAPANESE EXPERIENCE | 274 |
Barriers for Sustainable Use of Concrete Materials | 288 |
DEMOUNT ABILITY AND REUSE OF CONCRETE STRUCTURES | 294 |
IS HIGH STRENGTH CONCRETE DURABLE? | 102 |
INTERNAL STRESSES AND LONG TERM PERFORMANCE OF CEMENTITIOUS MATERIALS | 115 |
CORROSION OF REINFORCEMENT | 127 |
CONCRETE DAMAGE INDUCED BY DELAYED ETTRINGITE FORMATION | 135 |
THE VERY LONG TERM PERFORMANCE OF CEMENT AND CONCRETE | 148 |
DEGRADATION MODEL FOR REINFORCED CONCRETE UNDER SALT ATTACK ENVIRONMENT | 159 |
INSTRUMENTED DURABILITY SURVEILLANCE OF CONCRETE STRUCTURES | 167 |
SUSTAINABLE DEVELOPMENT OF THE CEMENT AND CONCRETE INDUSTRY | 177 |
CEMENT AND CONCRETE DEVELOPMENT FROM AN ENVIRONMENTAL PERSPECTIVE | 206 |
POINT OF VIEW | 218 |
RECYCLING OF OFFSHORE CONCRETE PLATFORMS | 301 |
USE OF RECYCLED AGGREGATE IN SHOTCRETE | 309 |
MANAGEMENT OF CONCRETE DEMOLITION WASTE | 321 |
FUTURE NEEDS IN CONCRETE REPAIR TECHNOLOGY | 332 |
FIBRE REINFORCED POLYMERS FRF AS AN ECONOMICAL ALTERNATIVE FOR CONSTRUCTION AND REHABILITATION | 341 |
HIGH QUALITY CONCRETE MADE MORE RESISTANT AND BETTER ECO MANAGED IN AGGRESSIVE ENVIRONMENT BY COATING | 360 |
AN ANSWER FOR SUSTAINABLE DEVELOPMENT IN THE 21st CENTURY | 374 |
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Other editions - View all
Concrete Technology for a Sustainable Development in the 21st Century Odd E. Gjorv,Koji Sakai Limited preview - 1999 |
Concrete Technology for a Sustainable Development in the 21st Century Odd E Gjorv,Koji Sakai No preview available - 2019 |
Common terms and phrases
21st Century edited admixture amount belite bridge carbon cement and concrete cement paste cementitious CFRP chemical chloride chloride ion chloride penetration clinker composite compressive strength concrete cover concrete demolition waste concrete industry concrete structures Concrete Technology construction consumption corrosion cost crack width curing cycle damage demolished concrete design method deterioration durability design Ecocement edited by O.E. effect emissions energy engineering environment environmental epoxy ettringite factors fly ash FN Spon grout hydration increase injection International Japan kg/m³ limit state design load manufacturing mechanical microcracks microsilica million tons Nordhordland bridge O.E. Gjørv particles permeability pore portland cement pozzolanic prestressed problem production properties ratio raw materials rebar recyclable concrete recycled aggregate reduce reinforced concrete repair required performance retrofitting reuse Sakai seismic shotcrete shrinkage silica fume slag specimens steel stress sulfate surface Sustainable Development temperature waste concrete water-cement ratio