WHY IS RHEOLOGY IMPORTANT FOR SHOTCRETE AND HOW IT CAN BE IMPROVED

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WHY IS RHEOLOGY IMPORTANT FOR SHOTCRETE AND HOW IT CAN BE IMPROVED by Ezgi Yurdakul, PhD Better Concrete Conference Ames, IA

What is shotcrete? Shotcrete (aka sprayed concrete) is concrete placed by a high velocity pneumatic projection from a nozzle. There are two types of process: Dry-mix process: The dry material is conveyed through a hose in an air stream at high velocity. Water is added at the nozzle to produce a plastic material which is compacted by impact on the receiving surface. Wet-mix process: Wet-mix is shotcrete in which the ingredients, including water, are mixed before introduction into the delivery hose. 2

Advantages of shotcrete Used for mining and tunneling applications for both temporary and permanent support Provides high early strength Increases safety of underground opening Manual spraying Flexibility to reach areas where ready-mix trucks can t get in Robotic-arm spraying

What does the industry want to have? The ideal mix should have the following characteristics: Optimum flowability and viscosity to balance pumpability and sprayability Very high early strength High bond strength Low rebound rate Low sagging High durability 4

Rheology of shotcrete Wet-mix shotcrete requires a complex and conflicting rheological performance to satisfy both pumpability and sprayability needs Pumpability High flowability High cohesion (to prevent segregation under pressure) Sprayability Low flowability (to prevent sagging and increase build-up thickness) Moderate plasticity (to aid with better dispersion of accelerator, allow proper compaction, and reduce rebound so the incoming material hits to a soft substrate) High cohesion (so material sticks to itself and provide resistance against sliding under its own weight) High stickiness (so material sticks to the sprayed surface, increases bond, and prevents fall outs) When pumpability increases, sprayability decreases 5

Limitations of slump test The demand on the rheological behavior of shotcrete is too complicated to be oversimplified by judging based on slump test. It is possible to have two mixes with the exact same slump values but with completely different rheological properties as a result of different cementitious materials and the advancements in chemical admixture technology.

Desired rheological characteristics Shotcrete must be as plastic as possible so that the sprayed aggregates can be embedded in the fresh concrete¹. Therefore, although aggregates are the ones that rebounds, paste rheology is the factor that determines the rebound rate. 7 ¹Pfeuffer, M., and Kusterle, W. (2001). Rheology and rebound behaviour of dry-mix shotcrete. Cement and Concrete Research, Vol. 31, pp. 1619 1625.

Rheology required for sprayability Sprayability is the efficiency of a mix at sticking to the applied surface (adhesion) and to itself (cohesion). Rebound occurs as a result of the larger aggregate particles segregating from the mix after hitting the receiving surface at high velocities and subsequently bouncing off. When a soft cushion like cement paste is formed to encapsulate aggregates, the rebound rate becomes lower in the subsequent layers.

Rheology required for rebound reduction The quality of paste is important for evaluating the rebound: Stickiness: adhesion to substrate surface that allow large buildup thickness Cohesiveness: adhesion to itself to resist against the segregation of the mix which is critical for shotcrete Yield stress and viscosity: essential to resist against sagging on vertical walls

Rheology required for pumpability Pumpability is the stability and mobility of a mix under pressure Highly flowable mixes are prone to sagging if they do not possess a certain degree of viscosity and yield strength which helps material to resist the effect of gravity.

Rheology required for build-up thickness Sticky mixes are desirable for the shotcrete process as they allow larger build-up thicknesses on walls and overhead applications. Stickiness also contributes to enhancing: Safety Productivity Cost-efficiency

Rheology required for consolidation If mixes have a lack of cohesion and are not fluid enough, voids will occur within the shadow areas behind the reinforcement Poor consolidation causes poor coating of the rebar and high porosity of the concrete causing a reduction in strength and durability.

How is rheology of shotcrete being addressed? The following changes are made to the mix to improve its rheology: Increase binder content Use silica fume Use rheology control admixtures Use viscosity modifying admixtures Use superplasticizers Use air-entraining agents Use accelerators Optimize sand/total aggregate ratio Optimize aggregate size and gradation Optimize w/cm

Pozzolanic-based rheology control agent Composition Pozzolanic-based rheology controlling admixture Liquid dispersion of discrete, uniformly distributed nanometric particles of amorphous silica Non-porous, spherical, and nonaggregated In a stable colloidal aqueous dispersion RHEOLOGY CONTROL AGENT Properties SILICA FUME Commonly used dosage 0.6%-0.8% of total binder content Commonly used dosage 5%-8% of total binder content

Benefits Requires approximately 1/10 th of the silica fume dosage to provide equivalent performance Dosage efficiency Reduced rebound Pozzolanic based rheology control agent Increases cohesiveness therefore, improves sprayability/ pumpability, reduces rebound and increases maximum build-up thickness. Accelerated early strength It is liquid which makes it easy to handle compared to silica fume that is in powder form. Easy handling Higher pozzolanic activity than silica fume, therefore it provides faster and higher early strength

Reduced rebound Mix with rheology control agent, rebound reduced from 20% to 5% 16

Improved compaction No difference was observed in cylinder vs core strength due to rheology control agent improving the rheology and consolidation

Reduced cycle times Mix with rheology control agent reaches initial and final set 1 to 3 hours faster than the silica fume mix

Faster early strength Mix with rheology control agent provides much faster early strength 19

High long term strength Mix with rheology control agent provides faster early strength without compromising final strength

High durability Boiled absorption Permeable voids Mix with rheology control agent provided low permeability due to its filler effect improving the microstructure

Conclusions There is a very delicate balance between the mix constituents and their impact on shotcrete performance. It is ideal to maintain the highest possible fluidity (lowest yield strength) while providing the desired viscosity, cohesiveness, and stickiness to satisfy all needs. The addition of rheology control agent optimize the mix and help achieving that delicate balance by improving the shotcreting process as an application and shotcrete performance as a material.

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