Micro-CT is a powerful non-destructive imaging technique that provides high-resolution 3D images of the internal structure of materials. It is widely used in material science for a variety of applications.
Scaffold Characterization: In tissue engineering, micro-CT is used to characterize the structure of scaffolds, including porosity, pore size distribution, and interconnectivity, which are crucial for cell growth and tissue regeneration.
Implant Analysis: The technique helps in studying the integration of implants with surrounding tissues, providing insights into their biocompatibility and performance.
Porosity Analysis: Micro-CT is used to quantify the porosity of materials, including the size, shape, and distribution of pores. This is crucial for materials like foams, ceramics, and geological samples.
Pore Connectivity: The technique helps in understanding the connectivity of pores, which is important for applications like filtration, catalysis, and fluid flow in porous media.
Fiber Orientation and Distribution: In composite materials, micro-CT can be used to analyze the orientation and distribution of fibers, which are critical for the mechanical properties of the composite.
Defect Detection: Micro-CT can identify defects such as voids, cracks, and delaminations within composite materials, aiding in quality control and failure analysis.
Quality Control: Micro-CT is used to inspect 3D-printed parts for defects such as porosity, incomplete fusion, and residual stresses.
Dimensional Accuracy: The technique helps in verifying the dimensional accuracy of printed parts against their CAD models, ensuring that they meet design specifications.
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