Integrated Design and Environmental Issues in Concrete Technology /
editor, K. Sakai.
- First edition.
- 1 online resource
chapter 1 CONCRETE TECHNOLOGY IN THE CENTURY OF THE ENVIRONMENT -- chapter 2 TOWARD RATIONAL DESIGN OF CONCRETE STRUCTURES - INTEGRATION OF STRUCTURAL DESIGN AND DURABILITY DESIGN -- chapter 3 INTEGRATION OF STRUCTURAL AND DURABILITY DESIGN -- chapter 4 GENERAL CONCEPT BRIDGING BETWEEN STRUCTURAL DESIGN AND DURABILITY DESIGN -- chapter 5 PREDICTION OF DURABILITY OF CONCRETE: RESEARCH NEEDS -- chapter 6 SERVICE LIFE DESIGN FOR THE NEXT CENTURY -- chapter 7 IMPORTANCE OF PREDICTION TECHNIQUES ON DURABILITY IN THE DURABILITY DESIGN FOR CONCRETE STRUCTURES -- chapter 8 COUPLED MASS TRANSPORT, HYDRATION AND STRUCTURE FORMATION THEORY FOR DURABILITY DESIGN OFCONCRETE STRUCTURES -- chapter 9 PERFORMANCE CRITERIA FOR CONCRETE DURABILITY -- chapter 10 MICROSTRUCTURE AND MASS TRANSPORT IN CONCRETE -- chapter 11 OPTICAL MICROSCOPY AS A TOOL FOR DEVELOPMENT OF HIGHPERFORMANCE CONCRETE -- chapter 12 INTEGRATIVE APPROACH TO OPTIMIZING THE DURABILITY PERFORMANCE OF REINFORCED CONCRETE RESIDENTIAL BUILDINGS -- chapter 13 DETERIORATION MECHANISM OF GLASS FIBRE REINFORCED CONCRETE AND PREDICTION OF STRENGTH REDUCTION -- chapter 14 DURABILITY OF CONCRETE EXPOSED IN MARINE ENVIRONMENT FOR 25 YEARS -- chapter 15 SHOTCRETE FOR REPAIRS: ISSUES AND CHALLENGES -- chapter 16 LIFE EXTENSION OF CONCRETE STRUCTURES USING ADVANCED COMPOSITE MATERIALS -- chapter 17 OFU BRIDGE REPAIR PROJECT -- chapter 18 THE DESIGN OF CONCRETE STRUCTURES AGAINST UNFAMILIAR LOADING CONDITIONS -- chapter 19 DESIGN METHOD OF REINFORCED CONCRETE STRUCTURES ON THE BASIS OF DAMAGE -- chapter 20 ENVIRONMENTAL ISSUES FROM THE CONSTRUCTION INDUSTRY -- chapter 21 EFFICIENT USE OF RESOURCES IN THE FIELD OF CONCRETE TECHNOLOGY -- chapter 22 THE STATE OF RE-USE OF DEMOLISHED CONCRETE IN JAPAN -- chapter 23 MECHANICAL PROPERTIES OF CONCRETES WITH NORTH CAROLINA RECYCLED AGGREGATES -- chapter 24 TOWARDS COMPLETELY RECYCLABLE CONCRETE -- chapter 25 ECOLOGICAL CONCRETE WITH CONTINUOUS VOIDS -- chapter 26 HIGH-PERFORMANCE CONCRETE INCORPORATING LARGE VOLUMES OF LOW-CALCIUM FLY ASH -- chapter 27 CHEMICAL ADMIXTURES FOR HIGHLY FLOWABLE CONCRETES.
"The two themes of integration of structural and durability design, and integration of concrete technologies in relation to global environmental issues are drawn together in this book. It presents the views of distinguished international researchers and engineers on these key topics as the 21st century approaches. Derived from a workshop on rational design of concrete structures held in Hakodate, Japan, in August 1995, the book provides a focus for debate about the ways in which concrete technologies around the world must respond to the necessity of ensuring that concrete construction achieves higher levels of durability, and about the growing imperative to meet higher environmental standards in concrete production and use."--Provided by publisher.
9781482294989
10.1201/9781482294989 doi
Concrete & Cement
Structural Engineering
Concrete.
Cement.
Structural engineering.
chapter 1 CONCRETE TECHNOLOGY IN THE CENTURY OF THE ENVIRONMENT -- chapter 2 TOWARD RATIONAL DESIGN OF CONCRETE STRUCTURES - INTEGRATION OF STRUCTURAL DESIGN AND DURABILITY DESIGN -- chapter 3 INTEGRATION OF STRUCTURAL AND DURABILITY DESIGN -- chapter 4 GENERAL CONCEPT BRIDGING BETWEEN STRUCTURAL DESIGN AND DURABILITY DESIGN -- chapter 5 PREDICTION OF DURABILITY OF CONCRETE: RESEARCH NEEDS -- chapter 6 SERVICE LIFE DESIGN FOR THE NEXT CENTURY -- chapter 7 IMPORTANCE OF PREDICTION TECHNIQUES ON DURABILITY IN THE DURABILITY DESIGN FOR CONCRETE STRUCTURES -- chapter 8 COUPLED MASS TRANSPORT, HYDRATION AND STRUCTURE FORMATION THEORY FOR DURABILITY DESIGN OFCONCRETE STRUCTURES -- chapter 9 PERFORMANCE CRITERIA FOR CONCRETE DURABILITY -- chapter 10 MICROSTRUCTURE AND MASS TRANSPORT IN CONCRETE -- chapter 11 OPTICAL MICROSCOPY AS A TOOL FOR DEVELOPMENT OF HIGHPERFORMANCE CONCRETE -- chapter 12 INTEGRATIVE APPROACH TO OPTIMIZING THE DURABILITY PERFORMANCE OF REINFORCED CONCRETE RESIDENTIAL BUILDINGS -- chapter 13 DETERIORATION MECHANISM OF GLASS FIBRE REINFORCED CONCRETE AND PREDICTION OF STRENGTH REDUCTION -- chapter 14 DURABILITY OF CONCRETE EXPOSED IN MARINE ENVIRONMENT FOR 25 YEARS -- chapter 15 SHOTCRETE FOR REPAIRS: ISSUES AND CHALLENGES -- chapter 16 LIFE EXTENSION OF CONCRETE STRUCTURES USING ADVANCED COMPOSITE MATERIALS -- chapter 17 OFU BRIDGE REPAIR PROJECT -- chapter 18 THE DESIGN OF CONCRETE STRUCTURES AGAINST UNFAMILIAR LOADING CONDITIONS -- chapter 19 DESIGN METHOD OF REINFORCED CONCRETE STRUCTURES ON THE BASIS OF DAMAGE -- chapter 20 ENVIRONMENTAL ISSUES FROM THE CONSTRUCTION INDUSTRY -- chapter 21 EFFICIENT USE OF RESOURCES IN THE FIELD OF CONCRETE TECHNOLOGY -- chapter 22 THE STATE OF RE-USE OF DEMOLISHED CONCRETE IN JAPAN -- chapter 23 MECHANICAL PROPERTIES OF CONCRETES WITH NORTH CAROLINA RECYCLED AGGREGATES -- chapter 24 TOWARDS COMPLETELY RECYCLABLE CONCRETE -- chapter 25 ECOLOGICAL CONCRETE WITH CONTINUOUS VOIDS -- chapter 26 HIGH-PERFORMANCE CONCRETE INCORPORATING LARGE VOLUMES OF LOW-CALCIUM FLY ASH -- chapter 27 CHEMICAL ADMIXTURES FOR HIGHLY FLOWABLE CONCRETES.
"The two themes of integration of structural and durability design, and integration of concrete technologies in relation to global environmental issues are drawn together in this book. It presents the views of distinguished international researchers and engineers on these key topics as the 21st century approaches. Derived from a workshop on rational design of concrete structures held in Hakodate, Japan, in August 1995, the book provides a focus for debate about the ways in which concrete technologies around the world must respond to the necessity of ensuring that concrete construction achieves higher levels of durability, and about the growing imperative to meet higher environmental standards in concrete production and use."--Provided by publisher.
9781482294989
10.1201/9781482294989 doi
Concrete & Cement
Structural Engineering
Concrete.
Cement.
Structural engineering.