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Master X-Seed
Master X-Seed 100
Set hardening accelerating admixture for concrete
Decreasing energy requirements while increasing productivity with no compromise on concrete quality might sound unachievable, but new admixture technology is making these apparently opposing objectives an achievable reality.
Master X-Seed 100 is optimised for all concretes, and is especially useful in the production of structural precast elements where high early-strength development is a critical success factor. Master X-Seed 100 is a viable alternative to heat curing methods, and its significant impact on hydration supports the use of binders with lower clinker content.
How does Master X-Seed 100 work?
Master X-Seed 100 is an engineered suspension of crystal seeds containing nanoparticles, designed to boost the hydration process of early age cement (6-12 hrs). It strongly accelerates the essential growth of calcium silicate hydrate crystals using unique and innovative seeding technology.
Master X-Seed 100 promotes concrete hardening at low, ambient and even heat-curing temperatures. Unlike traditional acceleration methods, early strength development is boosted by a unique mode of action – the virtually barrier-free crystal growth of the seeds between the cement grains – while the final microstructure benefits from equivalent or improved properties.
Crystal Speed Hardening
Master X-Seed 100 is the essential component of Master Builders Solutions' Crystal Speed Hardening concept – the value proposition offered by Master X-Seed's unique crystal seeding technology:
Efficient processes
Energy reduction
Material optimisation
High-quality specifications
The concept addresses critical industry requirements and can outperform all alternative solutions, particularly in contributing significantly to meeting sustainable construction targets.
What makes Master X-Seed 100 different?
Master X-Seed 100 brings numerous benefits:
Early strength acceleration at low, ambient and heat curing temperatures
Flexible adjustment of production capacities
Increased production cycles (double, triple rotation)
Better use of formwork by earlier demoulding
Reduction/elimination of heat curing
Lowers investment and running cost of curing
Facilitates minimum required cement quantities
Allows binder optimisation: using lower grade, less clinker-containing cements or increasing use of supplementary cementitious materials (limestone, fly ash, slag)
Less risk of delayed ettringite formation
Reduced water absorption
Improved concrete durability
Reduced CO2 emissions for improved plant and product eco-efficiency
Your local contacts
Customer Support
For Orders, SDS's and Label requests
Jordan Smith
Head of Technical & Marketing