- X-ray generator with a maximum voltage of 300kV can capture images of carbon steel approximately 50mm thick. - Detection range: 325mm × 264mm.
A system equipped with two sets of X-ray generators: a "300kV X-ray generator" and a "90kV μ-focus X-ray generator." The "300kV X-ray generator" is intended for radiographic inspection of steel samples. The "90kV μ-focus X-ray generator" has a focus size of 12μm and is intended for radiographic inspection of light element samples such as aluminum.
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〇Various analysis equipment for correctly advancing laser construction method development (36 minutes) https://www.youtube.com/watch?v=aU0xllIS_xY 1. Use of two types of X-ray generators - An X-ray generator with a maximum voltage of 300kV can capture images of carbon steel approximately 50mm thick. - An X-ray generator with a maximum voltage of 90kV can capture images with a focus size of at least 12μm, achieving a resolution of 12μm in pixel resolution when magnified. 2. Digital X-ray detector - With a pixel resolution of 127μm, it can capture a wide area of 325mm x 264mm in one shot. *For more details, please download the PDF or contact us.*
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Various analysis equipment for correctly advancing laser construction method development (36 minutes) https://www.youtube.com/watch?v=aU0xllIS_xY 【Applications】 - Non-destructive testing of welds - Non-destructive testing of component assembly conditions *For more details, please download the PDF or contact us.
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At Maeda Industries, we offer a diverse range of laser devices, various peripheral equipment, and analytical instruments to achieve high-precision laser methods. Additionally, by utilizing our self-developed monitoring system for laser welding, we can visualize, measure, and instantly assess the quality of the keyhole and molten pool. This capability allows us to provide experimental results as digital data to our customers during the development of laser welding methods. As a result, we can accurately grasp the technical basis of laser welding and clarify the direction our customers should take. This leads to a significant reduction in development time and a decrease in risks when introducing laser technology, providing substantial benefits to our customers. Furthermore, the digital data obtained during the in-process phase can be used for adaptive control during laser processing, continuously maintaining the optimization of processing conditions, which contributes to quality stability.