MasterEase HES 3940
Poly Aryl Ether based superplasticizer for the production of high-
quality precast concrete
DESCRIPTION |
polymers produced in-house by Master Builders Solutions. The objective of the development of the PAE polymer was to take the characteristics of traditional polycarboxylic ether (PCE) admixtures but to modify the
structure of the polymer to give enhanced rheology and robustness to the concrete.The PAE polymers contained in the formulation ofMasterEase HES 3940 ensure that enhanced rheology is maintained from time of mixing to time of placing and finishing. The polymer structure of MasterEase HES 3940 is specially designed to improve the rheology of precast concrete, making it very flowable and low viscous even at very low water/cem entratios, without increasing stickiness. Robustness
is a distinctive feature of the precast concrete produced
with MasterEase HES 3940
structure of the polymer to give enhanced rheology and robustness to the concrete.The PAE polymers contained in the formulation ofMasterEase HES 3940 ensure that enhanced rheology is maintained from time of mixing to time of placing and finishing. The polymer structure of MasterEase HES 3940 is specially designed to improve the rheology of precast concrete, making it very flowable and low viscous even at very low water/cem entratios, without increasing stickiness. Robustness
is a distinctive feature of the precast concrete produced
with MasterEase HES 3940
TYPICAL APPLICATIONS
MasterEase HES 3940 is used for the productio n of
high-quality precast concrete.
ADVANTAGES
MasterEase HES 3940 offer the following benefits
for the precast concrete industry:
- Production of highly flowable, robust selfcompacting concrete having a low water cement ratio along with an optimal rheology
- selfcompacting concrete having a low water
- cement ratio along with an optimal rheology
- Enhanced robustness and consistency in concrete quality with low stickiness
- concrete quality with low stickiness
- Environmentally friendly, CO2 reduced mix design optimization
- design optimization
- Elimination/reduction of heat curing
- Improved surface appearance
- Exceptionally high early strength