From the pole figure measurement results of X-ray diffraction of anisotropic magnets represented by neodymium magnets, it has become possible to calculate the crystallographic orientation degree in relation to the residual magnetic flux density.
From the results of pole figure measurements of X-ray diffraction before magnetization of anisotropic magnets represented by neodymium magnets, it has become possible to calculate the crystallographic orientation degree with respect to the residual magnetic flux density. Since anisotropic magnets have a higher residual magnetic flux density after magnetization when the crystallographic orientation degree of the magnetization easy axis is high, understanding the crystallographic orientation degree before magnetization is beneficial for the development of anisotropic magnets and quality control in production lines.
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basic information
One of the important characteristics of anisotropic magnets is the residual magnetic flux density. The more aligned the direction of the easy magnetization axis is, that is, the higher the crystallographic orientation, the greater the residual magnetic flux density after magnetization. Therefore, understanding the crystallographic orientation before magnetization is extremely important for the development of anisotropic magnets and for quality control in production lines. Typically, it has become possible to calculate the crystallographic orientation corresponding to the residual magnetic flux density from the results of X-ray diffraction pole figure measurements before magnetization, based on the magnetic measurement results obtained after magnetization. Additionally, it has also become possible to calculate the angle of the easy magnetization axis.
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Understanding the crystal orientation before magnetization is helpful for the development of anisotropic magnets and quality control in production lines.
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Daitō Analysis Research has been advancing the establishment of an advanced think tank based on highly reliable analysis and analytical techniques accumulated in various material fields, as well as the challenges received from a wide range of industry customers. We aim to solve our customers' various issues with the least cost and the shortest delivery time. Moving forward, we would like to support our customers' research and development using the latest equipment and advanced manpower, and assist in creating products that enrich the future.
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