纽约州内固化混凝土桥面的现场性能

"SP-290: The Economics, Performance and Sustainability of Internally Cured Concrete" Pub Date : 2012-09-14 DOI:10.14359/51684176

D. Streeter, W. H. Wolfe, Ronald E. Vaughn

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引用次数: 11

摘要

摘要:为了提高基础设施混凝土的耐久性和寿命周期，已经取得了新的进展。这些改进包括高性能混凝土(HPC)的发展。HPC采用了较低的水胶凝比和补充胶凝材料(SCMs)来提高这些结构的耐久性。不幸的是，SCMs的使用和低水胶比导致了其他问题，包括收缩开裂和水泥未完全水化。为了帮助改善这些特性，需要在整个水泥基质中提供额外的固化水。从膨胀的页岩、粘土和板岩轻质骨料的饱和孔隙中供水在几个研究项目中显示出了前景。纽约州已经制定了一项计划来检查内部固化的好处，并在全州的几座桥梁上使用了这项技术。本文将讨论其中几座桥梁的性能和施工。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Field Performance of Internally Cured Concrete Bridge Decks in New York State

Synopsis: In an effort to improve the durability and the life cycle of infrastructure concrete, new advances have been made. These improvements have included the development of High Performance Concrete (HPC). HPC has utilized lower water cementitious ratios and supplementary cementitious materials (SCMs) in an effort to improve the durability of these structures. Unfortunately the use of SCMs and low water cementitious ratios have led to others problems including shrinkage cracking and cement that is not fully hydrated. To help improve these characteristics a supply of additional curing water is needed throughout the cement matrix. Water supplied from saturated pores of expanded shale, clay, and slate lightweight aggregates has shown promise in several research projects. New York State has developed a program to examine the benefits of internal curing and has utilized the technology on several bridges throughout the state. This paper will discuss the performance and construction of several of these bridges.

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"SP-290: The Economics, Performance and Sustainability of Internally Cured Concrete"

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