Architectural Concrete
Construct intricate curved concrete forms that traditional methods cannot achieve. Offering customized solutions, we deliver exceptional quality and speed without the steep custom pricing.
Robotic Precision
Unlike traditional formwork, which requires extensive labor, time, and materials to construct molds for concrete, our 3D concrete printing technology eliminates these inefficiencies. We use robotics to directly print complex forms layer by layer, significantly reducing the need for manual intervention and speeding up the entire process.
Traditional formwork is subject to human error, leading to inconsistencies. Our process receives CAD files and translates that to robotic instruction. That means no formwork, no shop drawings. Design to production can take as little as one week or less depending on the complexity of the project.
Traditional Process for curved retaining walls
DDesign Development, Design + Engineering
3 weeks
Formwork
2 weeks
Pouring & Curing of Concrete
up to 21 days
Stripping of forms
1 day
Concrete Finishing
1 day
Our Process
Design Development, Design + Engineering (CAD Drawing)
3 weeks
Video of Digitization
1.5 week
3D Printing + Concrete Curing
1 day
Options
Liberate the curve
Traditional formwork limits design possibilities, but our 3D concrete printing technology unlocks your creativity. Architects can explore intricate forms and complex geometries that would be too costly or difficult with conventional methods, bringing bold visions to life with precision and ease.
Quality and Performance
Unlike traditional methods prone to human error, 3D printing ensures consistent, high-quality results. Every project is tested by third-party labs certified in CSA and ASTM standards, ensuring top-tier structural integrity and compliance.
Frequently Asked QuestionsOUR IMPACT
Our approach delivers an average cost of under $300K per unit (costs exclude land, servicing, softcosts) showcasing that robots can be integrated affordably while meeting and exceeding the Ontario Building Code.
With 26 rental units, including 30% affordable, we surpass industry standards.
Our project achieves a 20% reduction in energy intensity and greenhouse gas emissions, and our all-electric buildings ensure zero greenhouse gas energy consumption.
By creating wall assemblies with R-30 thermal performance and consolidating three trades into one, we effectively address the labor shortage, demonstrating the transformative potential of robotics in construction.
Cost and Time Certainty
Formwork is labor-intensive and time-consuming, often requiring weeks for setup and teardown. Our automated 3D printing process gives time and material certainty, and can reduce project durations from months to weeks. This streamlined workflow translates into significant cost savings, reducing both labor expenses and overall construction costs.
Case Study: Delivering the Client’s Vision
Pain
An architect was tasked with designing a standout feature for a high-profile client. After creating an amazing design with flowing, organic curves, they were disappointed to learn that the intricate formwork needed would exceed the budget. Faced with the possibility of scaling back, the architect feared disappointing the client.
Gain
The architect discovered 3D concrete printing (3DCP), which allowed them to realize their ambitious design without the high costs of traditional methods. With robotic printing, the project was delivered with speed and precision, staying within budget and schedule. The client was thrilled, and the architect successfully maintained the integrity of their vision.