industrial ct | x ray ndt | x ray 3d microscopy | micro ct | sanying | sanying precision instruments co.,ltd-九游会登陆

 solution：（1）high resolution image acquisition and processing of multi-scale digital rock（2）assessment of oil damage（3）observation oil and water distribution law and dynamic imaging1、multi-scale 3d data acquisition and folding technology of rocks cross-scale study：    multi-scale continuous high-resolution 3d data acquisition of rock digital volume has broken conventional model, which needs to destroy the rock and extract sample to observe. using of 3d data acquisition, scanning the full diameter rock can help to analyze its anisotropy, distinguish and describe primary fracture, and quantitatively calculate microcrack. in addition, using images is contribute to distinguish different structures, and calculate cracks and holes of every lithofacies. so the next location which needs to be studied further is confirmed. 2、evaluation of oil damage   reservoir acidification can improve the recovery rate of oil and gas. the types of complex types in the rock of reservoir rock are complex. the behavior is variable and the storage condition is different. and the phenomenon of metasomatism and compaction is widespread. however, interstitial material in the rock has high correlation with oil and gas output. therefore, it is very important to test it qualitatively and quantitatively, and display its 3d structure. using high resolution x-ray 3d microscope analyzing a certain type of clay or carbonate cements quantitatively in 3d space can be realized. combining with different acid solution, researchers can observe and evaluate acidizing effect directly.3、oil and water distribution law, dynamic imaging observation4、simulation and analysis oil-waterdisplacement    researching on changes of rock wettability in oil and water displacement process, and distribution and variation of oily water in the porous medium, from the micro perspective, will be helpful to understand the displacement mechanism more deeply. through micro ct loading displacement device, the process of oil and water changing can be observed directly. the application effect of all kinds of oil displacement agent can also be studied. in turn to evaluate each kind of rock displacement mechanism and direct production.

   mainly basing on study of microscopic pore structure and seepage, digital rock physics is an emerging rock physics, applying in the field of energy and mineral resources. in recent years, because of micro-nanoimaging technology, the microscopic pore structure can be expressed directly in digital image. and digital rock becomes an practical application technology from theoretical research tool. using digital rock physics, rock characteristic parameters are calculated and the seepage characteristics simulation is done. focusing on improving recovery efficiency, digital rock physics commits to providing faster and more accurate solutions.core digital analysis processanalysis of the content    we provide test analytical techniques and instrumentation for exploration and development of oil and gas. through full diameter core ct – micro/nano ct, cross scale/high resolution, and 3d scanning is done. high-performance server helps to calculate pole structure and real interface interaction, focusing on precise calculation of rock physical properties, which will guide and evaluate three mining, fracturing and acidizing design.description of core geological characteristics statistics of rock micro characteristics basic physical parameters of oil layer situ contrast of fracturing acidification study on body characteristics of oil and water seepage simulation of large scale fluid study on geological engineeringconstruction of data core library

  in material science, the macro properties of the material are closely related to the microstructure. in the process of preparation and use of material, accurate controlling the information of material, such as internal porosity, inclusions, crack, the number of 3d space for the material microstructure, volume fraction, distribution and so on, will help to analyze the relations between defect information and mechanical property, identify the role of defects in material failure. in turn, this will contribute to study failure mechanism and improve material quality. x-ray 3d microscopy will greatly promote the research and development of new materials and improve material performance in the field of materials.display 3d space of structure digital radiography2d slice figure3d image                                                                                                                      structural characterization of components     display 3d space of structurevolumetric solid concentrationmorphology of componentsorientation of statisticalmiscellaneous(as the equivalent diameterof ball, ferret diamet)                                                                               calculation of surface/volume porositydisplay 3d space of pore structurestatistics of pore morphology (size, sphericity and spatial orientation)display 3d space of crack structure lstatistics of crack orientation and other information other parameters(ferret diameter, equivalent ball diameter, etc.)    x-ray micro ct can test deep fiber orientation, layered, weaving and defects of materials nondestructively. what’s more, quantitative analysis can be done, to help with the research of failure mechanism to optimize and improve the quality of the material.extraction and display of pore model display and calculation of connected pore calculation of permeability permeability anisotropycalculation the uniform of internal component of the material volume calculation of inclusions and surface inclusions in particles statistics of wall thick in cellular materials

aerospace materialaerospace parts   it can be used for the evaluation of welding quality of parts,non destructive inspection of internal stomatal defects, shrinkage of welding roots, crack shape and size, etc.  it can be used to locate the position of holes in the process of casting, and obtain the size, shape and other information of defects. obtain the structure size of the castings, compared with the design size, and analyze the errors.  after gotten the internal dimensional of engine vane by ct, finite element analysis and simulation study can be carried out.    it can be used to observe distribution of internal adhesives and cracks in connection between resin, plastic and composite materials. and provide strong support forwelding technology assessment.    get the inner 3d structure of components, including porosity, crack, more/less tin, wire bonding defects such as bad information. so it is an important nondestructive image detection means in the electronic components failure analysis.

   technical persons in sypi co., ltd have many years of experience in pcb/pcba analysis and ul certification, accumulated a large number of actual cases. they can provide various solutions for customs in different stages, including research, certification, production, and customer complaints, help customs to solve problems  quickly, and grab the market opportunities.theoverall structure and solder ball defect of circuit board:

    with the rapid development of modern manufacturing industry, 3d printing technology becomes an important means. meanwhile, computed tomography (ct) is being used in more and more areas, including 3d printing.     by using ct technology, the 3d reconstruction image of a sample can be gotten. then the image will be converted to stl format.  and this format can be used in 3d printing directly.    apply 3d printing technology into medical science. scan tooth by ct, and manufacture a new tooth by 3d printing.     apply 3d printing technology into fossil research. making a new fossil by ct and 3d printing can avoid possibly damaging to the original fossil, and can help human to study it better.reverse engineering    combining 3d printing and ct can be used into reverse engineering field. this will provide inner structure of sample non-destructively and reverse reduction rapidly. applying in many fields, such as, 3d printing manufacture, metrology,system assembly precision detection, and system failure detection.             comparison of  3d printing and design sample (red represents positive error, and blue represents negative error)

   regardless of the resolution and image quality, micro-ct is another detection method, except industrial ct and medical ct. it promotes the progress and development of biological bionic science greatly.    the stl data shows the structure of the skeleton. and some research can be done combined with finite element analysis and 3d printing software.    the main blood vessel is the key to research skull. by using nanovoxel x-ray ct, extract and obtain the detailed data of the blood vessels. this will provide a good theoretical basis for subsequent artificial skull stents.