Universiti Malaya Engineering Structural Health Monitoring
What is Structural Health Monitoring (SHM) and why is it necessary?
SHM BACKGROUND
Advanced, large, and expensive structures and infrastructures such as buildings, bridges, dams, oil platforms, offshore structures, piping systems, railways, etc. are designed to last long. However, many of them are more than halfway through their intended service life, and some of them have already reached the end of it. Therefore, they are considered structurally deficient, meaning they are in “poor” condition and in need of maintenance that requires spending billions.
Structures
Infrastructure
Railways
Energy
Oil and Gas
Ports
Roads
Airports
Pipelines
Healthcare
Damage:
Changes in:
- Geometric properties;
- Boundary conditions;
- System connectivity;
- etc…
Failure Statistics:
Factors leading to Extensive Degradation:
- Fatigue, Aging
- Corrosion, Delamination, Wear, Creep
- Environmental effects (e.g., micro structural defects, cracking, thermal stress, residual stress, instability, and fastening or adhesive faults)
- Overloading, changes in loading patterns
- Unexpected causes such as wind excitations, earthquake, vehicle impact or blast loads
PERSONNEL SAFETY
It is also important to protect the safety of the personnel, workers, and assets of the stakeholders from any undesired accidents or catastrophic events.
Structural Health Monitoring - A Transdisciplinary Field
Structural Health Monitoring (SHM) is the observation and analysis of engineering assets to monitor changes to the material and geometric properties. Early detection of damage is one of the most important factors in maintaining the integrity and safety of structures. However, conventional Structural Health Monitoring (SHM) approaches are challenged by real-time, low-cost and quality-guaranteed SHM.
Aims of SHM:
- To determine the current condition
- To predict future behavior
- To detect early structural damages
Diagnosis Levels:
- Level ❶: Damage Presentation
- Level ❷: Damage Localization
- Level ❸: Damage Extension
- Level ❹: Service life Prediction
Functionality of SHM Systems
The latest technologies, i.e. data analytics, Artificial Intelligence (AI), blockchain, Impact-Synchronous Modal Analysis (ISMA), and Technology Acceptance Model (TAM) need to cope with such bottlenecks to act more cost-effectively and sustainably in the planning, control, and management of engineering assets by providing high Health, Safety, Environment, and Quality (HSEQ) to prolong their life cycle.
Smart SHM as a powerful tool can be significantly used to mitigate the aforesaid concerns. This is also aligned with the Industrial Revolution 4.0 (IR 4.0) which promotes robotics and AI in research and analytics to industries and organizations in predictive policing.