Design Tools & Support for Architects & Engineers

Complete technical resources, BIM objects, and expert support to integrate graphene-enhanced concrete into your architectural and structural designs with full code compliance.

Our commitment: Verified performance data, ready-to-use digital assets, and structural engineering support for your projects.

Complete Design Resources

Technical Specifications

Comprehensive spec sheets for graphene concrete with performance data, mixing ratios, and compliance standards.

  • Material properties & performance data
  • Mixing guidelines & dosage rates
  • CSI MasterFormat specifications
  • ASTM & ISO compliance documentation

BIM Objects & CAD Files

Ready-to-use digital assets for Revit, AutoCAD, and other design platforms.

  • Revit families (.rfa)
  • AutoCAD blocks (.dwg)
  • SketchUp components (.skp)
  • IFC standard files

Design Guidelines

Best practices for structural design with graphene-enhanced concrete.

  • Load-bearing capacity calculations
  • Thickness reduction opportunities
  • Reinforcement optimization
  • Durability design considerations

Performance Calculators

Online tools to estimate performance improvements and material savings.

  • Strength enhancement calculator
  • Carbon footprint reduction estimator
  • Cost-benefit analysis tool
  • Service life prediction model

Proven Project Applications

High-Rise Buildings

  • 30-40% reduction in column cross-sections
  • Enhanced seismic performance
  • Faster construction timelines
  • Lower foundation loads

58-story residential tower in Dubai - 35% material reduction in core walls

Infrastructure & Bridges

  • Extended service life (100+ years)
  • Superior crack resistance
  • Reduced maintenance costs
  • Saltwater & freeze-thaw durability

Coastal highway bridge in Norway - 50% reduction in chloride penetration

Architectural Concrete

  • Ultra-smooth surfaces
  • Thinner precast elements
  • Complex geometries enabled
  • Minimal shrinkage & cracking

Museum façade in London - 25mm thick precast panels with zero cracks

Green Building Certifications

LEED Credits

Up to 4 points

Contribute to MR Credits 1-2 (recycled content), EQ Credit 4 (low-emitting materials), and Innovation credits

BREEAM

Up to 6 credits

Credits under Mat 1 (Life Cycle Impacts), Mat 3 (Responsible Sourcing), and Mat 5 (Durability)

WELL Building

2 optimization

Supports Feature X06 (Enhanced Material Safety) and Feature X09 (Material Transparency)

Living Building

Petal-compliant

Red List Free material option, contributes to Materials Petal imperatives

Full documentation provided for all certification pathways.

Expert Support Services

Design Consultation

Work directly with our structural engineers to optimize your design for graphene concrete.

Custom Specifications

Tailored spec sections for your project requirements and local building codes.

CPD/AIA Training

Continuing education credits for your team on graphene concrete design principles.

Performance Verification

Third-party testing and certification support for critical structural elements.

Frequently Asked Design Questions

How does graphene concrete affect structural calculations?

Graphene concrete provides 30-40% higher compressive strength and 20-30% higher flexural strength compared to conventional concrete at the same mix design. This allows for smaller member sizes, reduced reinforcement, or higher load capacity. Our technical team provides detailed material properties (f'c, modulus of elasticity, Poisson's ratio) for structural modeling software.

Is graphene concrete compatible with existing design codes?

Yes. Graphene concrete meets all requirements of ACI 318, Eurocode 2, and other international concrete design codes. It's tested per ASTM standards and can be specified as a drop-in replacement for conventional concrete with enhanced performance characteristics. Our specifications include all necessary data for code compliance verification.

What's the cost impact for architectural applications?

While graphene concrete has a 15-25% higher material cost, the total project cost is often lower due to: thinner elements (reduced volume), less reinforcement needed, faster construction (higher early strength), and reduced long-term maintenance. For architectural concrete, the superior finish quality also eliminates costly surface treatments.

Can I see physical samples before specifying?

Absolutely. We provide complimentary sample panels (300×300mm) cast with your specified finish (form-faced, polished, exposed aggregate, etc.). We can also arrange site visits to completed projects in your region. For large projects, we can produce full-scale mockups at our facility.

Ready to Design with Graphene Concrete?

Request technical documentation, BIM objects, and schedule a consultation with our structural engineering team.

Free samples available • AIA/CPD training offered • No obligations