|
| Volume 4, Subject Index |
Best three papers of the year
|
| Materials |
Page |
| New Trends in the Development of Chemical Admixtures in Japan |
211 |
| Effect of Chemical Structure on Steric Stabilization of Polycarboxylate-Based Superplasticizer |
225 |
| Impact of Molecular Structure on Zeta Potential and Adsorbed Conformation
of -Allyl- -Methoxypolyethylene Glycol - Maleic Anhydride Superplasticizers |
233 |
| Fruidity Performances Evaluation of Cement and Superplasticizers |
241 |
| Relationships between Rheological Constant of Cement Paste and Fluidity
of High-Fluidity Concrete |
251 |
| Analytical Hydration Model for Filler Rich Self-Compacting Concrete |
259 |
| Development of Self-healing System for Concrete with Selective Heating
around Crack |
267 |
| Tensile creep of high-strength concrete |
277 |
| Factors Affecting the Carbonation of Railway Rigid-Frame Viaducts |
285 |
| XRD/Rietveld analysis of the hydration and strength development of
slag and limestone blended cement |
357 |
| Applications of Electron Probe Microanalyzer for
Measurement of Cl Concentration Profile in Concrete |
369 |
| Estimation of Chloride Diffusion Coefficient of Concrete Using Mineral
Admixtures |
385 |
| Modeling of Calcium Leaching from Cement Hydrates Coupled with Micro-Pore Formation |
395 |
| Influence of Surface Energy on Compressive Strength of Concrete under
Static and Dynamic Loading |
409 |
| Influence of Shrinkage-Reducing Admixtures on Early-Age Properties
of Cement Pastes |
423 |
|
|
| Structures |
Page |
| Tensile Characteristics Evaluation Method for Ductile Fiber-Reinforced
Cementitious Composites |
3 |
| Recent Progress on HPFRCC in Japan -Required Performance and Applications- |
19 |
| Application of High Performance Fiber Reinforced Cementitious Composites
for Damage Mitigation of Building Structures |
35 |
| Nonlinear Finite Element Analysis on Shear Failure of Structural Elements
Using High Performance Fiber Reinforced Cement Composite |
45 |
| Practical Design Criteria for Saturated Pseudo
Strain Hardening Behavior in ECC |
59 |
| Effects of Strain Rate on Tensile Behavior of Reactive Powder Concrete |
79 |
| Nonlinear Analysis for Reactive Powder Concrete Beams under Rapid
Flexural Loadings |
85 |
| Study on Impact Response of Reactive Powder Concrete Beam and Its
Analytical Model |
99 |
| Compressive Stress-Strain Behavior of Small Scale Steel Fibre Reinforced
High Strength Concrete Cylinders |
109 |
| Shear Strength of Fiber Reinforced Reactive Powder Concrete Prestressed
Girders without Stirrups |
123 |
| Unified Analytical Approaches for Determining Shear Bond Characteristics
of FRP-Concrete Interfaces through Pullout Tests |
133 |
| Time-Dependent Structural Analysis Considering
Mass Transfer to Evaluate Deterioration Process of RC Structures |
147 |
| Direct Path-Integral Scheme for Fatigue Simulation of Reinforced Concrete
in Shear |
159 |
| Cross-Sectional Damage Index for RC Beam-Column Members Subjected
to Multi-Axial Flexure |
179 |
| Time-Dependent Space-Averaged Constitutive Modeling of Cracked Reinforced
Concrete Subjected to Shrinkage and Sustained Loads |
193 |
| Time-Dependent Constitutive Model of Solidifying Concrete Based on
Thermodynamic State of Moisture in Fine Pores |
301 |
| Computer-Aided Analysis of Reinforced Concrete Using a Refined Nonlinear
Strut and Tie Model Approach |
325 |
| Concrete or FRP Jacketing of Columns with Lap Splices for Seismic
Rehabilitation |
431 |
| Three-Dimensional Fatigue Simulation of RC slabs under Traveling Wheel-Type
Loads |
445 |
|
|
| Environment |
Page |
| Fracture of Reinforcing Steels in Concrete Structures Damaged by Alkali-Silica
Reaction -Field Survey, Mechanisms and Maintenance- |
339 |
| Flexural Behaviour of Reinforced Lightweight Concrete Beams Made with
Oil Palm Shell (OPS) |
459 |
|
|
| Name |
Affiliation |
Page |
| An, X. |
Department of Hydraulic Engineering, Tsinghua University, P.
R. China |
445 |
| Asamoto, S. |
Department of Civil & Environmental Engineering, Saitama University, Japan |
301 |
| Bentz, D. P. |
Materials and Construction Research Division, National Institute
of Standards and Technology, Gaithersburg, USA |
423 |
| Bhargava, P. |
Department of Civil Engineering Indian Institute of Technology,
India |
109 |
| Bousias, S. N. |
Structures Laboratory, Department of Civil Engineering, University
of Patras, Greece |
431 |
| Dai, J |
Life Cycle Management Center, Port and Airport Research Institute,
Japan |
133 |
| Fardis, M. N. |
Structures Laboratory, Department of Civil Engineering, University
of Patras, Greece |
431 |
| Foster, S. J. |
School of Civil and Environmental Engineering, The University
of New South Wales, Australia |
123 |
| Fujikake, K. |
National Defense Academy, Yokosuka, Japan |
79, 85, 99 |
| Fukuyama, H. |
Dept. of Structural Engineering, Building Research Institute,
Japan |
35, 45 |
| Gebreyouhannes, E. |
Department of Civil Engineering, The University of Tokyo, Japan |
159, 445 |
| Gilbert, I. R |
School of Civil and Environmental Engineering, The University
of New South Wales, Australia |
123 |
| Hirao, H |
R&D Center, Taiheiyo Cement Corp., Sakura, Chiba, Japan |
357 |
| Hoshino, S. |
R&D Center, Taiheiyo Cement Corp., Sakura, Chiba, Japan |
357 |
| Hosokawa, Y. |
R & D Center, Taiheiyo Cement Corp., Sakura, Chiba, Japan |
369 |
| Igarashi, H. |
Research & Development Dept., Ube-Mitsubishi Cement Research
Institute Corp., Ube, Japan |
251 |
| Ishida, A. |
Inorganic Materials Research Center, Denki Kagaku Kyogyo Co.,
Ltd., Japan |
211 |
| Ishida, T. |
Department of Civil Engineering, The University of Tokyo, Tokyo,
Japan |
193, 301, 395 |
| Itoyama, Y. |
Nagoya Institute of Technology, Japan |
193 |
| Jang, B-K. |
Japan Fine Ceramics Center, Material Research and Development
Laboratory, Japan |
267 |
| Kanakubo, T. |
Institute of Engineering Mechanics and Systems, University of
Tsukuba, Japan |
3 |
| Kanda, T. |
Kajima Technical Research Institute, Tokyo, Japan |
59 |
| Katagiri, M. |
Research and Development Center, Taiheiyo Cement Corporation,
Sakura, Chiba, Japan |
79, 85, 99 |
| Kaushik, S. K. |
Department of Civil Engineering Indian Institute of Technology,
India |
109 |
| Kawamura, C. |
Construction Division, Engineering Department, Railway Operation
Headquarters,Hokkaido Railway Company , Japan |
285 |
| Kishi, T |
Department of Civil Engineering, The University of Tokyo, Japan |
159 |
| Kunieda, M. |
Department of Civil Engineering, Nagoya University, Japan |
19, 147 |
| Kuriam, J. V. |
Civil Engineering Program, Universiti Malaysia Sabah, Malaysia |
459 |
| Kuzume, K. |
Kokusai Structural Engineering Corp., Japan |
339 |
| Li, V. C. |
Department of Civil and Environmental Engineering, Department
of Materials Science and Engineering, University of Michigan, USA |
59 |
| Maekawa, K. |
Department of Civil Engineering, The University of Tokyo, Tokyo,
Japan |
159, 179, 193, 301, 325, 395, 445 |
| Mannan, M. A. |
Civil Engineering Program, SKTM, Universiti Malaysia Sabah,
Malaysia |
459 |
| Maruya, E. |
Research & Development Dept., Ube-Mitsubishi Cement Research
Institute Corp., Ube, Japan |
251 |
| Matsuhashi, K. |
Concrete Structures, Structures Technology Division, Railway
Technical Research Institute, Japan |
285 |
| Matsushita, H. |
Faculty of Engineering, Kyushu University, Japan |
409 |
| Mihashi, H. |
Tohoku University, Graduated School of Engineering, Japan |
267 |
| Mikata, Y. |
Assistant Professor Department of Civil Engineering and Urban
Design, Osaka Institute of Technology, Japan |
339 |
| Minami, T. |
Shinko Wire Co. Ltd., Japan |
339 |
| Mishima, T. |
Maeda Corporation, Japan |
445 |
| Miura, K. |
Tohoku Univ., Graduated School of Engineering, Japan |
267 |
| Miyagawa, T. |
Department of Civil Engineering, Kyoto University, Kyoto, Japan |
339 |
| Mori, D. |
R & D Center, Taiheiyo Cement Corp., Sakura, Chiba, Japan |
369 |
| Nakamura, H. |
Department of Civil Engineering, Nagoya University, Japan |
147 |
| Nakanishi, H. |
R&D Center, Taiheiyo Cement Corp, Sakura, Japan |
241 |
| Nakarai, K. |
Department of Civil Engineering, The University of Tokyo, Japan |
395 |
| Nawa, T. |
Division of Solid Waste, Resources, and Geoenvironmental Engineering,
Lab. of Eco-materials and Resources, Hokkaido University, Japan |
225 |
| Nishiwaki, T. |
Faculty of Education, Art & Science, Yamagata University,
Yamagata, Japan |
267 |
| Ohno, T. |
Department of Civil and Environmental Engineering, National
Defense Academy, Yokosuka, Japan |
79, 85, 99 |
| Ohta, A. |
Central Research Laboratory, NMB Co., Ltd., Japan |
211 |
| Onoue, K. |
Department of Civil Engineering, Fukuoka University, Japan |
409 |
| Osaki, M. |
Research & Development Dept., Ube-Mitsubishi Cement Research
Institute Corp., Ube, Japan |
251 |
| Plank, J. |
Lehrstuhl für Bauchemie, TU Münhen, Germany |
233 |
| Poppe, A-M. |
Magnel Laboratory for Concrete Research, Department of Structural
Engineering, Ghent University, Ghent, Belgium |
259 |
| Reinhardt, H-W. |
Department of Construction Materials, University of Stuttgart,
Germany |
277 |
| Rinder, T. |
Department of Construction Materials, University of Stuttgart,
Germany |
277 |
| Rokugo, K. |
Dept. of Civil Engineering, Gifu University, Japan |
19 |
| Sachsenhauser, B. |
Lehrstuhl für Bauchemie, TU Münhen, Germany |
233 |
| Saeki, T. |
Department of Civil Engineering, Niigata University, Niigata,
Japan |
385 |
| Sakai, E. |
Dept.of Metallurgy and Ceramic Science, Graduate School of Science
and Engineering, Tokyo Institute of Technology, Japan |
211 |
| Salem, H. M. |
Structural Engineering Department, Cairo University, Giza, Egypt |
325 |
| Sasaki, K. |
Hanshin Expressway Co. Ltd., Japan |
339 |
| Sasaki, K. |
Graduate School of Science and Technology, Niigata University,
Niigata, Japan |
385 |
| Sato, T. |
JR Affairs, Research and Development Promotion Division,Railway
Technology Research Institute, Japan |
285 |
| Sato, Y. |
Division of Built Environment, Hokkaido University, Sapporo,
Japan |
133 |
| Schutter, G. de |
Magnel Laboratory for Concrete Research, Department of Structural
Engineering, Ghent University, Ghent, Belgium |
259 |
| Senga, T. |
Japan Air Self-Defense Force, Ichigaya, Japan |
79, 85, 99 |
| Seto, K. |
Osaka National Highway Works Office, Ministry of Land, Infrastructure
and Transport, Japan |
339 |
| Sharma, U. K. |
Department of Civil Engineering Indian Institute of Technology,
India |
109 |
| Shinada, K. |
Kajima Co. Ltd., Japan |
385 |
| Sogabe, M. |
Structural Mechanics, Railway Dynamics Division, Railway Technology
Research Institute, Japan |
285 |
| Soltani, M. |
Department of Civil Engineering, Tarbiat Modares University,
Iran |
193 |
| Spathis, A-L. |
Structures Laboratory, Department of Civil Engineering, University
of Patras, Greece |
431 |
| Srisoros, W. |
Department of Civil Engineering, Nagoya University, Japan |
147 |
| Sugamata, T. |
Central Research Laboratory, NMB Co. Ltd., Chigasaki, Japan |
241 |
| Suwada, H. |
Dept. of Structural Engineering, Building Research Institute,
Japan |
45 |
| Tanimura, Y. |
Concrete Structures, Structures Technology Division, Railway
Technical Research Institute, Japan |
285 |
| Teo, D. C. L. |
Civil Engineering Program, Universiti Malaysia Sabah, Malaysia |
459 |
| Toongoenthong, K. |
Taisei corporation, Tokyo, Japan |
159 |
| Tsuchiya, S. |
COMS Engineering Corporation, Tokyo, Japan |
179 |
| Ueda, N. |
Research and Development Center, Taiheiyo Cement Corporation, Sakura,
Japan |
79, 85, 99 |
| Ueda, T. |
Division of Built Environment, Hokkaido University, Sapporo, Japan |
133, 285 |
| Voo, Y. L. |
School of Civil and Environmental Engineering, The University of New
South Wales, Australia |
123 |
| Yamada, K. |
Research and Development Center, Taiheiyo Cement Corp., Sakura, Chiba,
Japan |
241, 357, 369 |
| Yamamoto, M. |
Research Center, Taiheiyo Consultant Co. Ltd., Japan |
369 |
| Yashiro, R. |
Department of Civil Engineering, Nagoya University, Japan |
147 |
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