Explore with CarbonCure: Case Studies, Featured Projects & Regulatory Framework

CO2 mineralization in the production of sustainable concrete

This study, published in Revista Ingeniería de Construcción and conducted by CarbonCure Technologies, shows how CO₂ mineralization in fresh concrete maintains strength while reducing cement content and embodied carbon, supporting industry decarbonization and global sustainability goals.

CarbonCure’s Lab Protocol

At CarbonCure, we recognize that strong data and thorough evaluation and verification are essential for any concrete producer looking to incorporate CO2 mineralization into their operations. Our comprehensive two-step lab protocol ensures compatibility, and maximizes cement efficiency.

Role of CO2 Injection in Concrete: Cement Hydration Reaction Enhancer

CarbonCure Ready Mix technology injects CO2 into fresh concrete while it is being mixed where it mineralizes, creating calcium carbonate…

CarbonCure Ready Mix Technology – AASHTO Compliance Field Trials

AASHTO compliance field trials data examines the effects of injecting CO2 into concrete, on compressive strength and durability, which could aid in achieving sustainability goals.

CarbonCure’s Global Regulatory Approvals

The resource summarizes CarbonCure's global regulatory approvals, from North America, Europe, Asia and Middle East

What Matters Most to Reduce CO2 in Concrete?

This short technical whitepaper summarizes why reduction in cement content is crucial while reducing the CO2 in concrete.

VCS Testing Procedures to Compare Strength of Concrete

This short technical whitepaper summarizes the testing procedures used within VM0043.

400 Hillsborough Street

A high-performance mix design used in Raleigh, North Carolina.

Measuring CO2 Mineralization in Concrete

CarbonCure’s Impact on Concrete Mixture Type GU Cement – Mix Optimization

This paper reviews CarbonCure's Impact on Concrete Mixture - Type GU Cement. The CarbonCure ready-mix technology produced concrete with a binder system comprising 100% Type GU cement. The mix was produced with CO2 which was added like an admixture. The added CO2 enhanced the 28-day compressive strength by 22% over a reference mix.

CarbonCure’s Impact on Concrete Mixture Type IL Cement and Class F Fly Ash – Mix Optimization

This paper reviews CarbonCure's Impact on Concrete Mixture Type IL Cement and Class F Fly Ash. The CarbonCure ready-mix technology produced concrete with a binder system comprising 80% Type IL cement and 20% Class F fly ash. The mix was produced with CO2 which was added like an admixture. The added CO2 enabled the use of less cement content without compromising the strength properties of the mix while achieving an increase in compressive strength of 8% over a reference mix.

CarbonCure’s Impact on Concrete Mixtures Using Type IP Cement – Strength Improvement

This paper reviews strength gains in Type IP cement concrete mixtures both with and without the use of CarbonCure technology. The CarbonCure ready-mix technology produced concrete with a binder system comprising 100% Type IP cement. The mix was produced with CO2 which was added like an admixture. The added CO2 enhanced the 28-day compressive strength by 5% over a reference mix.