How it Works
The AGT Implementation Process
AGT follows a simple, repeatable process so that performance can be repeated across every project
From Discovery to Durable Results
1. Identify
Define the performance challenge.
We begin by identifying the real-world problem—cracking, permeability, degradation, thermal stress, or mechanical failure—and defining the operational environment and use case.
2. Engineer
Match the graphene system to the application.
AGT selects and tailors the appropriate graphene formulation to address the target performance mechanisms within the material system.
3. Integrate
Design the implementation method.
We develop a practical integration pathway—whether through admixtures, coatings, additives, or composite systems—ensuring compatibility with existing manufacturing or construction workflows.
4. Validate
Test, measure, and document results.
Through laboratory testing, field trials, and third-party validation, we confirm performance improvements and document measurable outcomes.
5. Scale
Deploy with confidence.
Once validated, the solution is prepared for broader adoption through standardized processes that enable consistent, repeatable results across projects and environments.
Implementation
Consistent Mixing for Predictable Performance
Uniform dispersion is critical to achieving consistent results with advanced materials. AGT provides chemistry-specific guidance for each application, while the following principles apply broadly across most material systems.
Dispersion First
Proper dispersion ensures the graphene system is evenly distributed throughout the material. When appropriate, pre-mixing is used before blending into the full batch using consistent tools, timing, and procedures.
Concrete & Asphalt Applications
Batch Control
Maintaining consistent timing, mixing intensity, and material ratios across batches helps ensure repeatable performance from job to job and project to project.
Coatings & Sealants
Shear and Time Control
Controlled mixing shear and appropriate mixing duration help maintain uniform dispersion, stable viscosity, and predictable application behavior across the surface.
