Polymer Cement Concrete

Polymer Cement Concrete (PCC) is a type of concrete that incorporates polymers to improve its properties. This composite material is designed to enhance the performance of traditional concrete by increasing its strength, durability, and resistance to various environmental factors.

History[edit]

The concept of polymer-modified concrete was introduced in the 1990s and has since become a common material in the construction industry^[1]^[2].

Composition[edit]

Polymer Cement Concrete is created by substituting all or part of the cement hydrate binder with polymers. Various types and forms of polymers are used as chemical admixtures, including latexes, liquid resins, redispersible powders, and water-soluble homo- or copolymers^[1]. The selection of polymer type and form depends on the intended use of the concrete and the desired properties, such as strength, chemical resistance, and durability^[1].

Mechanism[edit]

The incorporation of polymers into the cementitious matrix changes the microstructure of concrete. The polymer particles are dispersed in water, and as the water evaporates, the particles agglomerate and form a dense array. This process results in the coalescence of polymer particles into a homogeneous film, which enhances the cohesion and adhesion properties of the concrete^[1].

Properties[edit]

Polymer Cement Concrete exhibits improved mechanical properties, including increased strength, better workability, and enhanced durability. It also shows reduced water absorption and decreased total porosity, making it suitable for various applications such as repair mortars, waterproofing membranes, self-leveling compounds, and tile adhesives^[1].

Applications[edit]

Due to its superior properties, Polymer Cement Concrete is used in a variety of applications, including:

Repair mortars
Waterproofing membranes
Self-leveling compounds
Tile adhesives^[1]

References[edit]

^ ^a ^b ^c ^d ^e ^f Kujawa, W., Olewnik-Kruszkowska, E. and Nowaczyk, J., 2021. Concrete strengthening by introducing polymer-based additives into the cement matrix—A mini review. Materials, 14(20), p.6071.
^ Wilson, B., Scullion, T. and Estakhri, C., 2012. Design and construction recommendations for thin overlays in Texas (No. FHWA/TX-13/0-6615-1). Texas. Dept. of Transportation. Research and Technology Implementation Office.

External links[edit]

[Kujawa-1] ^ ^a ^b ^c ^d ^e ^f Kujawa, W., Olewnik-Kruszkowska, E. and Nowaczyk, J., 2021. Concrete strengthening by introducing polymer-based additives into the cement matrix—A mini review. Materials, 14(20), p.6071.

[Wilson-2] Wilson, B., Scullion, T. and Estakhri, C., 2012. Design and construction recommendations for thin overlays in Texas (No. FHWA/TX-13/0-6615-1). Texas. Dept. of Transportation. Research and Technology Implementation Office.

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v t e Concrete
History	Ancient Roman architecture Roman architectural revolution Roman concrete Roman engineering Roman technology
Composition	Cement Calcium aluminate Energetically modified Portland Rosendale Water Water–cement ratio Aggregate Reinforcement Fly ash Ground granulated blast-furnace slag Silica fume Metakaolin
Production	Plant Concrete mixer Volumetric mixer Reversing drum mixer Slump test Flow table test Curing Concrete cover Cover meter Rebar
Construction	Precast Cast-in-place Formwork Climbing formwork Slip forming Screed Power screed Finisher Grinder Power trowel Pump Float Sealer Tremie
Science	Properties Durability Degradation Environmental impact Recycling Segregation Alkali–silica reaction
Types	AstroCrete Fiber-reinforced Filigree Foam Lunarcrete Mass Nanoconcrete Pervious Polished Polymer Prestressed Ready-mix Reinforced Roller-compacting Self-consolidating Self-leveling Sulfur Tabby Translucent Aerated AAC RAAC
Applications	Slab waffle hollow-core voided biaxial slab on grade Concrete block Step barrier Roads Columns Structures
Organizations	American Concrete Institute Concrete Society Institution of Structural Engineers Indian Concrete Institute Nanocem Portland Cement Association International Federation for Structural Concrete
Standards	Eurocode 2 EN 197-1 EN 206-1 EN 10080
See also	Hempcrete
Category:Concrete