OUR SERVICES

Structural health is a holistic approach aimed at monitoring a structure's safety and performance not only during an earthquake but throughout its entire service life.

Seismic effects, time-dependent stiffness degradation, material fatigue, deformations, and operational structural weaknesses are continuously measured using advanced sensor technologies. The collected data is then evaluated through intelligent analytical methods. This ensures that your building's current status is monitored in real-time, potential risks are detected at an early stage, and safe, sustainable structural management is maintained.

The system is based on the integration of high-precision sensors developed by Sebiza Tech into buildings, combined with real-time data analysis via the proprietary RİSKOLOJİ software. All collected data is processed instantaneously, structural behavior is evaluated through scientific methodologies, and clear, actionable insights are provided to decision-makers.

Core Objectives of Our System

24/7 Structural "Check-Up"

Your structures are under continuous surveillance. Potential risks are identified early, while wear, fatigue, and stiffness loss processes are regularly tracked.

Rapid Post-Earthquake Reporting

Following a seismic event, your building's risk and damage status are rapidly analyzed and reported, allowing for immediate occupancy and safety decisions.

Real-Time Seismic Impact Analysis

Forces acting on the structure during an earthquake and the building’s actual structural response are measured and evaluated instantaneously.

Retrofitting Performance Monitoring

The effectiveness of structural retrofitting is monitored through scientific data, providing concrete evidence of the increase in durability.

Cost Advantage

Early detection minimizes maintenance and repair costs, preventing unplanned interventions and ensuring long-term savings.

Long-Term Lifecycle Management

Structural aging and performance shifts are analyzed using data-driven methods, allowing for the scientific prediction of the building's safe service life.

Uninterrupted Post-Earthquake Occupancy

Data-based decision mechanisms replace panic and uncertainty, ensuring the continuity of safe usage in your structures.

Earthquake engineering is a holistic engineering discipline encompassing analysis, testing, modeling, and retrofitting processes to ensure that structures demonstrate safe, resilient, and sustainable performance under seismic loads.

Leveraging our expertise in disaster technologies, our company provides end-to-end solutions, ranging from the seismic performance assessment of existing structures to the execution of comprehensive retrofitting applications.

Field Investigation and Material Testing

• Core Sampling and compressive strength testing.
• Rebar Detection (X-ray, Ferroscan, GPR, etc.).
• As-built Documentation and existing condition mapping (Surveying).
• Concrete Chipping and structural system inspection.
• Evaluation of concrete and steel material quality.
• Seismic Performance Assessment
• Analysis of building seismic safety.
• Risk Classification and prioritization for intervention.

Retrofitting Projects

• Reinforced concrete and steel structural retrofitting design.
• FRP (Carbon Fiber) application projects.
• Jacketing solutions (Concrete/Steel).
• Addition of shear wall systems.
• Foundation strengthening and soil improvement integration.

Disaster Technology Integration

• Sensor-based structural health monitoring systems.
• Real-time data analytics.
• Rapid post-earthquake damage assessment.
• Digital building inventory management.

Ground improvement encompasses engineering solutions designed to increase bearing capacity, control settlements, and mitigate liquefaction risks to ensure that structures perform safely under seismic loads.

In accordance with geotechnical survey data, methods such as grouting, jet grouting, deep soil mixing (DSM), stone columns, piled foundation systems, and drainage solutions are tailored to project-specific requirements. The objective is to optimize the soil-structure interaction, thereby enhancing the building’s seismic performance and ensuring its long-term safety.

Structural analysis and design encompass engineering studies conducted to ensure that a structure demonstrates safe and controlled behavior under seismic, wind, and live loads. During this process, existing or planned structures are analyzed in 3D using numerical modeling techniques to evaluate the strength and stiffness capacities of load-bearing elements. Based on the findings, performance-oriented, cost-effective solutions are developed in compliance with international codes and standards. The objective is not merely to satisfy regulatory requirements, but to deliver a sustainable design that optimizes the long-term durability and safety of the structure.