Yasunori Matsuoka scite author profile

More than ten years have elapsed since Self-Compacting Concrete (abbreviated as SCC), which does not require consolidation, made its appearance. SCC has been applied in many construction projects, including ultra-large structures. To achieve excellent self-compactability in heavily reinforced areas, SCC should deform well under its own weight without segregation of ingredients. Therefore, research on SCC had been focused on improving both deformability and resistance to segregation. However, there was still no standard test for evaluating self-compactability and resistance to segregation of SCC. The authors developed evaluation test methods for simple application in the manufacturing stage and at construction sites. At present, these evaluation test methods are recommended as standard test methods in Japan Society of Civil Engineers specifications. At the time, it was still difficult to produce SCC of constant quality at ordinary ready-mixed concrete plants because facilities and quality control of materials had not reached the required level. For improved manufacturing and handling, an SCC with a viscosity agent (b-1,3-Glucan) was developed. It is possible to reduce quality fluctuations in a fresh state for commonly available materials and production facilities. At present, this type of SCC is defined as "Combination-type" in a recommendation of the Japan Society of Civil Engineers. This paper summarizes these evaluation test methods and introduces a Combination-type SCC developed to facilitate production and handling. Development of Combination-Type Self-Compacting Concrete and Evaluation Test MethodsTakefumi Shindoh 1 and Yasunori Matsuoka 2 Abstract 1. Introduction

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Simulation of Chloride Movement in Hardened Concrete

Maruya

Matsuoka

Tangtermsirikul

1992

Doboku Gakkai Ronbunshu

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Ester‐type photosensitive polyimide precursor with low thermal expansion coefficient

Matsuoka¹,

Yokota²,

Ogitani³

et al. 1992

Polymer Engineering & Sci

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For an ester‐type photosensitive polyimide precursor of low thermal expansion coefficient, the oxygen concentration in the curing process and the molecular weight of the polyimide precursor were found to control the properties of the polyimide. The effects of these factors on the thermal expansion coefficient, tensile strength, and modulus of polyimide film were investigated. Based on these results, a photosensitive polyimide with low thermal expansion coefficient, called the PIMEL TL‐series, was developed. Crack and delamination free multilayers were successfully achieved using this newly developed product.

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Creep crack initiation at a free edge of an interface between submicron thick elements

Hirakata

Hirako

Takahashi

et al. 2008

Engineering Fracture Mechanics

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