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

The Impact of Federal Buy Clean Requirements on the Concrete Industry

Watch this 45-minute webinar to learn about the implications of the Buy Clean Executive Order and hear what some concrete producers are doing to get ahead of the curve on EPDs.

Reducing Embodied Carbon with CO₂ Mineralized Concrete

View this on-demand webinar to discover strategies and resources to help you achieve your organization's climate goals, avoid unnecessary risks when purchasing carbon offsets and mitigate unavoidable ones.

Carbon Credits: The New Revenue Opportunity for Concrete Producers

Watch this 30-minute presentation - we explore everything you need to know about carbon removal credits and what they mean to your business.

Pouring to Procuring Sustainable Concrete – What You Should Know

Watch this 30-minute discussion on why low carbon concrete is becoming a consumer expectation and how project teams can specify and create high-quality, low carbon concrete.

VM0043 Verified Carbon Standard (VCS)Methodology for CO2 Utilization in Concrete Production

CarbonCure, in collaboration with Verra, the world's leading carbon crediting program, has developed a robust methodology to validate the carbon…

Incorporating CarbonCureinto Concrete Specifications:A Guidebook for Architecturaland Engineering Firms

In order to reduce CO2 emissions, it is critical that designers and builders adopt concrete specification practices that enable sustainable innovation. This guidebook provides a few step-by-step suggestions on how to incorporate sustainability best practices, including CarbonCure’s CO2 mineralization solution, into concrete specifications.

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 II Cement – Strength Improvement

This paper reviews strength gains in Type II 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 II cement. The mix was produced with CO2 which was added like an admixture. The added CO2 enhanced the 28-day compressive strength by 12% over a reference mix.

CarbonCure’s Impact on Concrete Mixture Type CEM II/A-L 42.5 (14% Limestone ) Cement and 30% GGBS – Strength Improvement

This paper reviews strength gains in Type CEM II/A-L 42.5 (14% limestone) cement and 30% GGBS concrete mixtures both with and without the use of CarbonCure technology. The CarbonCure ready-mix technology produced concrete with a binder system comprising 70% CEM II/A-L 42.5 cement containing 14% limestone and 30% ground granulated blast-furnace slag (GGBS). The mix was produced with CO2 which was added like an admixture. The added CO2 enhanced the 28-day compressive strength by 7% over a reference mix.

CarbonCure’s Impact on Type I/II Cement and Class C Fly Ash Concrete Mixtures – Strength Improvement

This paper reviews strength gains in Type I/II cement and Class C fly ash concrete mixtures. The mix was produced with CO2 which was added like an admixture. The added CO2 enhanced the 28-day compressive strength by 7% over a reference mix.

CarbonCure’s Impact on Type I/II Cement – Strength Improvement

This paper reviews the impact of CarbonCure ready-mix technology produced concrete with a binder system comprising 100% Type I/II cement. The mix was produced with CO2 which was added like an admixture. The added CO2 enhanced the 28-day compressive strength by 10% over a reference mix.