4X STRONGER THAN TRADITIONAL CONCRETE
Polymer binder systems with superior mechanical properties, developed as an alternative to traditional cement. Excellent compatibility with aggregates and fillers, offering 4 times higher strength, chemical resistance and fast curing compared to traditional concrete.
TECHNICAL SPECIFICATIONS
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80-100 MPa pressure resistance
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curing time of 15-30 minutes
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Superior chemical resistance
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Freeze-thaw resistance
Technical Specifications
Advantages
Superior Mechanical Properties
Polymer concrete offers much higher compressive, tensile and flexural strength compared to traditional Portland cement concrete. With a compressive strength of 80-100 MPa, it can be used in thin sections and does not deform even under heavy loads. Water absorption is minimal thanks to low porosity.
Fast Production and Implementation
Cures in as little as 15-30 minutes, enabling fast production and short project delivery times. It is ready for use on the same day, as opposed to the 28-day curing time of traditional concrete. With this feature, it is the ideal solution for industrial floors, prefabricated elements and emergency repairs.
Polymer Concrete vs Traditional Concrete
Polymer Concrete
Traditional Concrete
Application Areas
Performance Specifications
| Features |
PRE-37
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PRE-38
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PRE-39
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PRE-3701
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PRE-3702
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PRE-3702LV
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|---|---|---|---|---|---|---|
| Description | Polymer Concrete | Polymer Concrete | Polymer Concrete | Polymer Concrete | Polymer Concrete | Polymer Concrete (Low Viscosity) |
| Chemical Content | Orthophthalic / Standard Glycol | Orthophthalic / Standard Glycol | Orthophthalic / Standard Glycol | Orthophthalic / Standard Glycol | Orthophthalic Acid-Based Unsaturated Polyester | Orthophthalic Acid-Based Unsaturated Polyester, Low Viscosity |
| Accelerator | Optional | Optional | Optional | Optional | Optional | Optional |
| Reactivity | Medium | Medium | Medium | High | High | High |
| Viscosity (cps) | 280 - 320 | 200 - 300 | 1000 - 1200 | 450 - 600 | 400 - 600 | 160 - 200 |
| Gel time (min.) | 5 - 6 | 8 - 12 | 15 - 18 | 7 - 15 | 7 - 11 | 7 - 11 |
| Monomer ratio (%) | 35 - 40 | 32 - 36 | 38 - 42 | 32 - 36 | 30 - 40 | 35 - 45 |
| HDT (°C) | 60 - 65 | 70 - 80 | 95 - 100 | 90 - 100 | 85 - 95 | 90 - 100 |
| Barkol hardness 934-1 | 40 - 45 | 45 - 50 | 45 - 50 | 45 - 50 | 35 - 45 | 35 - 45 |
| Bending strength (MPa) | 100 - 120 | 110 - 130 | 110 - 130 | 110 - 130 | 115 - 135 | 110 - 130 |
| Tensile strength (MPa) | 50 - 60 | 60 - 70 | 60 - 70 | 60 - 70 | 65 - 75 | 65 - 75 |
| Impact resistance (kJ/m²) | 6 - 10 | 5 - 15 | 5 - 10 | 7 - 10 | 9 - 13 | 8 - 12 |
| Features |
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| TDS/SDS | TDS or SDS Request | TDS or SDS Request | TDS or SDS Request | TDS or SDS Request | TDS or SDS Request | TDS or SDS Request |
Modification Codes
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T
Thixotropic
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WV
Winter Version
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UV
UV stabilized
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A
Cobalt accelerator
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SW
Summer Version
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TT
Spray Application
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B
Blue indicator
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HV
High Viscosity
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FT
Brush/Roller Application
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D
Filled
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LV
Low Viscosity
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ABP
Amin accelerator
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FR
Non-flammable
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TE
Terephthalic acid
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FRHI
Halogenated Isophthalic Flame Retardant
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LSE
Low styrene emission
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FRH
Halogenated Flame Retardant
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H
Halogenated
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M
Acrylic Modified
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Product Packaging
Different capacity and packaging options to suit your needs
