Horizontal high-precision CT

Product Overview

Horizontal high-precision CTIt is a high-precision CT instrument designed specifically for core analysis, geological exploration, and similar sample testing needs. This device adopts * computer tomography (CT) technology, which can perform non-destructive, high-resolution 3D imaging specifically for long strip samples, thereby obtaining detailed internal structure and physical property information. Whether in laboratory environments or on-site exploration,Horizontal high-precision CTThey can provide fast and accurate analysis results to assist geologists and engineers in conducting more in-depth research and decision-making.

Application field

Main Features

Non destructive testing does not require any physical damage to the sample, preserves its integrity, and is suitable for multiple subsequent analyses and studies;

The scanning technology of fast scanning and efficient image processing algorithms significantly improve scanning speed and greatly reduce waiting time;

The built-in powerful data processing and analysis software for data analysis can perform multidimensional analysis on scan results, including density distribution, porosity, fracture network, etc;

Full diameter scanning is suitable for samples of different diameters, and non-destructive scanning can be performed on samples ranging from small to full diameters, meeting various exploration needs;

High resolution imaging equipment is equipped with high-precision detectors and X-ray sources, which can generate high-resolution 3D images and clearly display the tiny structures and cracks inside the sample;

data analysis

Density distribution analysis

Overall density distribution: Calculate and display the density changes of the entire sample to help identify the distribution and hierarchical structure of different materials.

Local density analysis: Conduct density measurements on specific areas and analyze changes in details.

Porosity analysis

Porosity calculation: Analyze the pore distribution in the sample through CT images, calculate porosity, and evaluate the storage performance of the sample.

Pore structure analysis: Identify and classify pore morphology, such as cracks, pores, etc., and provide geometric characteristics of pore space.

Fracture Network Analysis

Crack detection: Identify cracks in the rock core through image processing technology and generate a three-dimensional crack network model.

Crack characteristics: Analyze the length, width, direction, and density of cracks to provide basic data for mechanical analysis.

Sample composition analysis

Component identification: Based on the density and absorption characteristics of CT images, identify the distribution of different materials.

Sample content determination: Quantitatively analyze the volume content of different materials to provide data support for sample evaluation.

Fluid saturation analysis

Fluid detection: By scanning the sample, analyze the distribution and saturation of fluids (such as water, oil, and gas).

Dynamic change monitoring: Monitor the dynamic changes of fluids in the sample, evaluate reservoir characteristics and fluid migration behavior.

Mechanical property analysis

Stress distribution: Analyze the stress distribution of the sample under different stress conditions and evaluate the mechanical properties of the sample.

Deformation characteristics: Detect the deformation of the sample under pressure, providing reference for engineering applications.

Pore pressure analysis

Pressure distribution: By scanning the sample, analyze the pressure distribution in the pores and understand the fluid dynamics characteristics.

Pressure changes: Monitor the dynamic process of pore pressure changes over time or external conditions.

Structural integrity analysis

Integrity assessment: Evaluate the overall structural integrity of the sample, identify internal defects and weak areas.

Crack propagation: Analyze the propagation behavior of cracks under external forces to provide a basis for predicting sample failure.

Product testing and defect location analysis

Accurately analyze and judge the performance, reliability, and lifespan of products at different manufacturing stages, including size measurement, manufacturing processes, defect analysis, and even product performance.

3D visualization

3D modeling: Generate a 3D model from the CT data of the sample to visually display the internal structure of the sample.

Virtual slicing: Detailed analysis of the internal structure of a 3D model, including virtual slicing observation and precise measurement of dimensions.

Technical Specifications: