micro CT

Recent advancements in micro-computed tomography (microCT) have significantly enhanced its capabilities, making it an even more powerful tool for nondestructive inspection and analysis. Key developments include:

Increased Resolution: Improved detector technology and reconstruction algorithms have pushed the boundaries of spatial resolution, allowing for the visualization of finer details within samples.

Faster Scanning: Enhanced data acquisition speeds and processing power have reduced scanning times, enabling quicker inspections and higher throughput.

Larger Sample Sizes: Advances in system design now accommodate larger and more complex samples while maintaining high-resolution imaging.

Enhanced Contrast: Developments in contrast agents and imaging techniques have improved the ability to distinguish between different materials and tissue types within a sample.

Automated Analysis: Integration of machine learning and artificial intelligence has facilitated automated defect detection and quantitative analysis, increasing accuracy and efficiency.

In situ Imaging: New capabilities allow for real-time imaging of samples under various environmental conditions (e.g., temperature, pressure), providing insights into material behavior during actual operating conditions.

These advancements make microCT an even more versatile and valuable tool for research, quality control, and failure analysis across a wide range of industries