La méthode du mortier de béton équivalent (MBE)—Un nouvel outil d’aide à la formulation des bétons adjuvantés

Schwartzentruber, A.; Catherine, C. Sainte

doi:10.1007/bf02480524

Cited by 112 publications

(26 citation statements)

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“…This is probably due to the specific characteristics of the superplasticizer used that has a retarded effect. Other superplasticizers lead to a continuous decrease of the spread over time [18,32].…”

Section: Mortar Resultsmentioning

confidence: 99%

“…Schwartzentruber and Catherine [18] proposed the use of the concrete equivalent mortar (CEM) concept to study the rheology of fresh concrete with the assumption that the rheological properties of CEM should be correlated with those of the corresponding concrete. For CEM design it is considered that all friction phenomena take place at the cement paste/aggregate interface.…”

Section: Concrete Equivalent Mortar (Cem) For Design Purposesmentioning

confidence: 99%

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Study of the rheology of self-compacting concrete with fine recycled concrete aggregates

Carro-López

González-Fonteboa

Brito

et al. 2015

Construction and Building Materials

163

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Section: Mortar Resultsmentioning

confidence: 99%

Section: Concrete Equivalent Mortar (Cem) For Design Purposesmentioning

confidence: 99%

Study of the rheology of self-compacting concrete with fine recycled concrete aggregates

Carro-López

González-Fonteboa

Brito

et al. 2015

Construction and Building Materials

163

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“…After mixing, the slump of mortar was measured with the mini MBE cone (''Mortiers de Béton Equivalent'' that can be translated as ''Equivalent Mortars to Concrete'' with respect to the surface of solids relative to the fluid that is the cement paste in mortar and the mortar in concrete) [34] which is shown in Fig. 2.…”

Section: Slump Testmentioning

confidence: 99%

Influence of fine recycled concrete aggregates on the properties of mortars

Zhao

Rémond

Damidot

et al. 2015

Construction and Building Materials

244

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h i g h l i g h t sInfluences of saturation state of FRCA on the mortars' properties are studied. Mortars made with dried FRCA present larger slump and better mechanical properties. Compressive strength of mortars decreases quasi linearly with substitution rate. Fraction 0/0.63 mm of FRCA has a worse effect on mechanical properties of mortars. a r t i c l e i n f o b s t r a c tFine recycled concrete aggregates (FRCA) also called recycled sand, having particle sizes smaller than 5 mm, are essentially composed of mortar and hardened cement paste. Therefore they induce a large water demand which makes them hard to recycle into mortar and concrete. In this paper, the properties of mortars containing FRCA have been studied, including fresh properties, mechanical properties and interfacial transition zone (ITZ) microstructure.The influence of saturation state of FRCA (dried or saturated) on the properties of mortars of identical compositions has first been studied. The results showed that the slump of mortars containing dried FRCA is always larger than that of mortars containing saturated FRCA. Indeed, in the case of dried FRCA, the theoretical amount of absorbed water is added at the beginning of mixing leading to a temporary increase of the initial efficient W/C ratio and volume of paste, leading to a better workability before its absorption into FRCA. On the contrary, the absorbed water in saturated FRCA is not readily available and thus cannot contribute to increase the initial efficient W/C ratio. Moreover, the compressive strength of mortars containing dried FRCA is always larger than that of mortars made with saturated FRCA, which is attributed to a thinner interfacial transition zone improving its mechanical properties. The influence of the fraction of recycled sand and of the granular class of recycled sand on the mechanical properties of mortars has then been studied with saturated FRCA. The compressive strength of mortars decreases quasi linearly as the replacement percentage of recycled sand increases. Moreover, it is shown that the finer fraction of recycled sand (0/0.63 mm) has the worse effect on the mechanical properties of mortars.

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“…Approaches to mixture proportioning continue to be developed and promulgated, such as the method of concrete equivalent mortar that utilizes mortar mixtures to proportion a concrete with a reduction in the number of required concrete batches [24]. Another more recent example would be the International Center for Aggregate Research (ICAR) 'aggregate suspension' proportioning method for self-consolidating and other concretes, developed by Fowler and Koehler [25].…”

Section: Mixture Proportioningmentioning

confidence: 99%

Best Practices Guide for High-Volume Fly Ash Concretes : Assuring Properties and Performance

Bentz¹,

Ferraris²,

Snyder³

2013

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A best practices guide is developed from a synthesis of recent research on high-volume fly ash (HVFA) concrete mixtures. These best practices can be applied by the concrete construction industry to achieve desired properties and to ensure the (high) performance of HVFA concrete mixtures in practice. As such, the report considers all aspects of HVFA concrete production, from the characterization of the starting materials, through mixture proportioning and curing options to achieve desired properties, to the in-place early-age and long-term performance of the concrete in its fresh and hardened states. Both mechanical and transport properties are considered in detail. Perspective is established based on a brief review of current practices being employed nationally. Each topical section is concluded with a practice-based set of recommendations for the design and construction community. The report is intended to serve as a valuable resource to these communities, providing both a research summary and a guide to practical steps that can be taken to achieve the optimum performance of these sustainable concrete mixtures.

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La méthode du mortier de béton équivalent (MBE)—Un nouvel outil d’aide à la formulation des bétons adjuvantés

Cited by 112 publications

References 1 publication

Study of the rheology of self-compacting concrete with fine recycled concrete aggregates

Study of the rheology of self-compacting concrete with fine recycled concrete aggregates

Influence of fine recycled concrete aggregates on the properties of mortars

Best Practices Guide for High-Volume Fly Ash Concretes : Assuring Properties and Performance

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