Technological Background
Next-Gen SHM

High-Performance Sensing
For Critical Environments

We transform physical data into digital intelligence. Custom hardware and software solutions for real-time monitoring where precision is not optional.

Explore Technology View Use Cases

The Cost of the Invisible

Most industrial assets operate in the dark. Off-the-shelf sensors fail to capture the complexity of your operation, leading to catastrophic inefficiencies.

Unplanned Downtime

Reactive maintenance is expensive. Without predictive data, you are waiting for failure to happen instead of preventing it.

Blind Spots

Common sensors can't reach critical components. We measure what others can't: geometry, vibration, and deformation.

Inactionable Data

Raw data is noise. Without local processing and smart algorithms, terabytes of data generate no insights.

The Sensing Node

Custom Precision Engineering

We don't sell black boxes. We develop sensing nodes adapted to the geometry and physics of your specific equipment. Robust, wireless, and precise.

  • High sampling frequency for vibration analysis.
  • Edge Computing: Data processed on the sensor itself, not in the cloud.
  • Non-intrusive integration (IP67+ Rating).
MaxSensing Hardware
The Intelligence Layer

From Physics to the Cloud

Proprietary algorithms that translate raw signals (vibration, temperature, pressure) into clear diagnostics. We build the Digital Twin of your asset.

  • Real-time Digital Twin visualization.
  • AI-based Anomaly Detection.
  • Customizable dashboards for engineers and managers.
MaxSensing Software Dashboard
The Material Core

Nanotechnology for Extreme Sensitivity

We push the boundaries of materials science. By integrating graphene and carbon nanotubes (CNTs) into our transducers, we create sensing surfaces that are virtually imperceptible, yet extraordinarily sensitive.

  • Ultra-High Gauge Factor (GF):

    Our nanomaterial formulations deliver exponential sensitivity to structural deformation compared to traditional metallic strain gauges.

  • Minimal Intrusiveness:

    Micrometric thickness and ultra-lightweight. Our sensors do not alter the dynamic, mechanical, or aerodynamic properties of the host structure.

  • High Efficiency:

    Superior electrical and thermal conductivity ensures a high signal-to-noise ratio even in the most aggressive industrial environments.

Advanced Nanomaterials

Where Precision and Performance Converge

Industry 4.0

Industry 4.0

Predictive maintenance for rotating machinery and robotics.

Aerospace

Aerospace

Structural testing and design validation for extreme loads.

Oil, Gas & Pipelines

Oil, Gas & Pipelines

Continuous pipeline monitoring, impact and leak detection.

Renewables

Renewables

Turbine efficiency and blade integrity monitoring.

Civil Infrastructure

Civil Infrastructure

Structural Health Monitoring (SHM) for bridges and tunnels.

Our Team of Experts

Our consultants bring decades of experience in engineering, data science, and industrial applications.

Consultant Name

Dr. Thais Montanheiro

CEO & Advanced Materials Expert

Specialist in advanced materials for high-sensitivity transducers.

Consultant Name

Dr. Domingos Rade

SHM & Industrial Solutions Consultant

Expert in structural health monitoring for large civil and aerospace structures.

Consultant Name

Dr. Douglas Leite

Embedded Systems Consultant

Specialist in low-power hardware and data analysis systems.

Beyond Off-the-Shelf Sensors

We were born from the need to measure the immeasurable. Our team unites engineering PhDs and embedded systems developers to create the exact sensor your problem demands.

Meet our team →
Common Sensors
MaxSensing
Raw Data Only
Processed Insights
Difficult Integration
Industrial Plug & Play
Generic Fit
Non-Intrusive Geometry

Ready to Digitize Your Physical Assets?

Schedule a technical consultation to discuss your specific sensing requirements.

Talk to an Expert
```