模板水压与流变特性的SCC演化

S. Amziane, C. Ferraris
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引用次数: 6

摘要

本文描述了如何进行实验调查,以确定胶凝基材料(水泥浆、石灰石浆、混凝土、自密实混凝土(SCC)等)在塑性阶段的水压变化。研究了一种利用新型装置同时测量总侧压和液压压力的方法。混合后,记录到水力压力和总侧压力同时下降,然后总侧压力抵消,水力压力为负值。与其他标准方法(维卡、量热法、超声波脉冲回波等)相比,该设备能够提供有关材料原位机械状态的简单直接信息。研究了两种硅酸盐水泥掺加石灰石填料的水泥浆体在塑性阶段的水力动力学变化。为了将水力测量与工作性联系起来,研究了水泥浆体的流变学演变。在与同等水泥浆体具有相同自由水含量的标准混凝土上进行的试验表明,只要压力为正,水压变化也相似。但SCC的情况并非如此,与同等水泥浆相比,SCC观察到的水压变化较慢,零压力时间延迟。石灰石和HRWRA的存在是造成这种缓凝效果的主要原因。此外,一旦压力变为负值,由于骨料的存在,观察到压力变化的延迟效应。最后,现场试验表明,该液压装置可用于现场连续浇注、定型、脱模进度监控。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
SCC Evolution of Formwork Hydraulic Pressure and Rheological Properties
This paper describes how an experimental investigation was performed in order to determine the hydraulic pressure variation of cementitious based materials (cement paste, limestone paste, concrete, Self compacting concrete (SCC), etc.) during the plastic phase. A method based on measurements of both total lateral pressure and hydraulic pressure, using a novel device was investigated. Just after mixing, a simultaneous drop of both the hydraulic and the total lateral pressures was recorded, followed by a cancellation of total lateral pressure and a negative value of hydraulic pressure. Compared to other standard methods (Vicat, calorimetry, ultrasonic pulse-echo, etc …), the device was able to give simple and direct information about the mechanical state of the material, in situ. The kinetic variation of the hydraulic pressure occurring during the plastic phase of cement pastes using two portland cement fractions and a limestone filler was investigated. To relate the hydraulic pressure measurements with workability, a study on the evolution of the rheology of the cement paste was conducted. The experiments on standard concretes, which had the same free water content as an equivalent cement paste, show a similar hydraulic pressure variation as long as the pressure is positive. This is not the case for SCC where the observed hydraulic pressure variation is slower and the time of zero pressure is delayed compared to the equivalent cement paste. The presence of limestone and the HRWRA is the main reason for this retardation effect. In addition, as soon as the pressure becomes negative, due to the presence of aggregates, a delaying effect on the pressure variation was observed. In the end, field test show that the hydraulic pressure device could be used to monitor the field schedule of successive pouring, setting and demolding.
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