Validate bio-based materials, CO2-injected concrete, 3D printing materials, and novel admixtures with electrical resistivity monitoring that goes beyond what temperature sensors can offer.
Advanced materials like bio-based components, CO2-injected concrete, and novel admixtures behave differently than standard mixes. Temperature-based sensors miss critical performance data.
Prove efficacy of non-standard materials with detailed resistivity data that temperature sensors simply cannot provide.
Refine material compositions with granular data on hydration, moisture content, integrity, and performance over time.
Generate the empirical evidence needed to demonstrate long-term integrity and gain industry acceptance for innovative materials.
Validate that sustainable materials meet performance standards — critical for green building certifications and carbon reduction goals.
Monitor the curing process of 3D-printed concrete structures, ensuring structural integrity through continuous real-time data.
Accelerate R&D cycles by getting continuous, automated data instead of manual testing at discrete intervals.
Unlike temperature-based sensors, Sensytec's patented sensors measure the electrical resistivity of materials, providing detailed insights into curing processes, moisture content, and overall integrity — which are crucial for non-traditional materials.
Enhanced R&D processes for new sealant products using resistivity sensors.
Validated bio-based and CO2-injected concrete for industry acceptance.
Critical monitoring data for 3D-printed concrete structures.