CONCRETE JOURNAL Vol.44, No.9, Sep. 2006
Japan Concrete Institute (JCI No.492)
contents
Special Issue : Performance of Concrete for Construction
to Produce Superior Structures
- Spirit of Engineers
- By K. Maruyama
- Over View
- 1.1 Performance Assessment of Construction and Quality Assurance
of Structural Concrete -Discussion in Concrete Committee of JSCE-
- By K. Maekawa
- 1.2 Performance of Concrete Required in Construction of Buildings
- By H. Kasami
- 1.3 Performance of Concrete for Construction from a Viewpoint of
Code and Specifications
- 1.3.1 Description on Workability in Japanese Specifications
for Public Works
- By H. Kawano
- 1.3.2 Description on Workability in Japanese Specifications
for Reinforced Concrete Buildings
- By Y. Masuda
- 1.4 Can We Quantitatively Evaluate Concrete Performance Required
in Execution?
- By T. Noguchi
- 1.5 Performance of Concrete for Construction for Constructors
- 1.5.1 Activity of Construction and Quality Assurance in Ministry
of Land Infrastructure and Transport
- By H. Watanabe
- 1.5.2 Activity of Construction and Quality Assurance in East
Japan Railway Company
- By T. Tsuyoshi
- 1.5.3 Concepts on Improvement of Concrete Quality related to
Workability in NEXCO
- By A. Homma
- 1.5.4 Technique of Concrete Construction in Urban Renaissance
Agency
- By T. Kawanishi
- 1.5.5 Performance of Concrete for Construction in Design Phase
of Civil Structures
- By M. Itou
- 1.5.6 Practical Conditions and Problems on Specifying 'Construction
Performance' in Design
- By M. Kawamura
- 1.5.7 Quality Improvement Activity during Concrete Construction
at Japan Civil Engineering Contractors' Association
- By N. Kobayashi
- 1.5.8 Activity of Construction Quality Assurance in 'Building
Constructors Society' and New Quality Control System
- By A. Nishida and T. Ohta
- Details
- 2.1 Quantitative Evaluations of Performance of Concrete for Construction
- 2.1.1 Evaluation of Compactability based on Compaction Energy
- By K. Uji
- 2.1.2 Evaluation of Concrete Construction Plan using Risk of
Initial Defects
- By R. Chikamatsu, T. Kawanishi, K. Iriya and S. Sogo
- 2.1.3 Risk Analysis in Life Cycle based on Statistical Approach
evaluating Initial Defects introduced in Construction Process
- By N. Sakata
- 2.2 Performance of Concrete for Construction depending on Materials
and Mix Proportions
- By Y. Nakata and T. Kemi
- 2.3 Inorganic Materials and Construction Performance
- By M. Hashimoto
- 2.4 Performance of Concrete for Construction depending on Chemical
Admixtures
- By Y. Okawa
- 2.5 Performance of Concrete for Construction depending on Mixing
- By T. Yoshikane
- 2.6 Performance of Concrete for Construction depending on Construction
- 2.6.1 Performance of Concrete for Construction on Pumping
- By K. Okamoto and Y. Nakata
- 2.6.2 Quality Change of Fresh Concrete under Pumping
- By T. Kumano
- 2.6.3 Placing and Consolidation
- By T. Ohtomo and T. Shindou
- 2.6.4 Placing on Consolidated Layer of Fresh Concrete and Finishing
- By S. Ushijima
- 2.6.5 Execution of Concrete Ground Work Based on Floor Performance
- By Y. Yokoyama and T. Yokoi
- Performance of Concrete for Construction in Construction Cases
- 3.1 Tunnel
- By N. Sano and S. Kaise
- 3.2 Prestressed Concrete Bridges
- By Y. Hamada, S. Tokumitsu, H. Asai and M. Wakimoto
- 3.3 Concrete Dams
- By T. Sasaki
- 3.4 Slurry Wall
- By Y. Kawamura
- 3.5 A High-rise Building
- By M. Hayakawa
- 3.6 Quality Control of Concrete for the Construction of the First
Higashidori Nuclear Power Station
- By M. Tanaka, I. Tanji, K. Hirotani and S. Iwakami
- 3.7 Complicated Shaped Buildings
- By K. Inoue and T. Sato