Home - Primx Pure

Better Performance. Less Material. Lower Embodied CO₂.

We improve slab performance through engineered concrete behavior.

PrīmX concrete floors are featured in the world’s first net-zero logistics facility by NREP (Logicenters), in Bålsta, Sweden

CO₂e Reduction You Can Measure, Report, and Verify

One integrated solution. We bring together the lowest available CO₂e cement, decarbonized steel fibers, and SCMs — project-specific, every time.
No performance trade-offs. Same load capacity, less concrete, no mesh reinforcement, lower embodied CO₂e per m².
Fully verified and reportable. EPD-documented, baseline-defined, and ready for your sustainability reporting.
Proven at scale. Logistics facilities, data centers, cold storage, and manufacturing plants across 26 million m².

PrīmX Concrete Technology

Patented SFRSSC

Steel fiber replaces mesh

Joints eliminated

Verified Leadership

Project-based EPD calculations

Defined baseline comparison

Project-issued EACs

Low-Carbon Materials

Low-carbon cement

Decarbonized steel fibers

Project-specific SCMs

EPDs signal a manufacturer’s commitment to measuring and reducing the environmental impact of its products and services

Calculate and compare your project’s CO₂e footprint with PrīmX Pure

Embodied CO₂e impact (vs conventional slab)

Pure reduction from design
and materials

2 752 470

kg

Additional CO₂e compensation
(EACs, optional)

366 470

kg

Comparison

CO₂e per m²

Work days required

Total joint length (m)

CO₂e compensation (EACs)

Mesh Reinforced

CO₂ per m²

68 kg CO₂/m²

Work Days Required

days

Steel Joints Required^*

m

Carbon Credits

Mesh Reinforced

CO₂ per m²

68 kg CO₂/m²

Work Days Required

days

Steel Joints Required^*

m

Carbon Credits

Get a project-specific CO₂e assessment

^* PRIMX floors do not require deformation joints. Expansion of joints between daily castings up to 4mm.
N.B. Estimated floor load-bearing capacity: 70 kN point load, 50 kN/m² uniformly distributed load (UDL)

CO₂e You Can Report with Confidence

Built into the project scope and outcome

Lowest carbon footprint

Highest performance industrial concrete floors

Ideal for logistics facilities, automated warehouses, data centers, manufacturing plants, freezers & cold storage

Reduction enabled by PrīmX Pure

Lower embodied CO₂e per m² by reducing concrete and steel in slab design
Thinner slabs and eliminates mesh reinforcement under equivalent load criteria
Same structural requirements and performance with less materials

Defined and Verifiable CO₂e Reduction

CO₂e reduction calculated relative to a mesh-reinforced slab under equivalent load conditions
EPD-based results per m² and total project impact
Calculation boundaries are defined for project-specific comparison and reporting

Reduction Achieved Through Design, Not Compensation

PrīmX Pure reduces CO₂e through lower material quantities, not offsetting
Reduced material demand increases the effect of low-carbon cement, fibers, and SCMs
CO₂e reduction is realized in the slab itself and reflected in project calculations

“Our project has aimed to be best in class regarding embodied carbon. The concrete floor is a very important part of this puzzle. Rather than exchanging cement for fly ash or other components, the focus has been on optimizing the concrete floor in every point, reducing the amount of materials to the site. This has proven to be the best way of reducing the carbon footprint today.”

Eva Sterner

Head of Development

World’s first net-zero logistics facility by NREP (Logicenters)

“PrīmX Pure is not just a floor – it’s a foundation for a new era of construction. Like the Romans who built to last by engineering wisely, we believe performance and responsibility must go hand in hand.”

Jānis Ošlejs

CEO

Primekss | PrīmX® Concrete Technology

“In construction we have to understand that we need new technology in order to solve the demands for the future. It’s not possible to use the solutions of the past for the challenges of the future. So we need technology that increases functionality, increases durability and reduces the carbon impact to be sustainable.”