Used HITACHI BIST - BT1064 #9151329 for sale

HITACHI BIST - BT1064 is a state-of-the-art scanning electron microscope (SEM) designed with enhanced imaging capabilities. With a comprehensive set of features, the BT1064 offers the highest performance in its class. The exceptionally high electrostatic and magnetic fields enable the BT1064 to deliver superior images with greater resolution and clarity. With a scanning area up to 100mm in diameter and a maximum acceleration voltage of 6.9 kV, BIST - BT1064 also contains a depth of focus (DOF) of up to 500nm. HITACHI BIST - BT1064 is equipped with four modes, including SE (secondary electron), BS (Backscattering), ES (electron spectroscopy) and WF (widefield). Each mode provides users with a range of specialized performance and parameters that enable them to capture different kinds of images. SE mode produces mainly low-energy secondary electrons, allowing for a wide range of imaging capabilities, such as visualizing the surface structure of samples. BS mode detects higher-energy scattered electrons, capable of providing an overview of the sample surface, and also allowing for qualitative analysis of surfaces. ES mode enables users to capture material compositions while WF mode enables all-round imaging of samples. In addition, the BT1064 offers expanded capabilities for imaging and analysis, making it ideal for exploring microstructures in a wide range of materials. Through the combination of various settings with an automated focus control system, operators can accurately identify microstructures accurately and quickly. To complete the user experience further, the ergonomically designed operator console has been purposely constructed to provide convenience, flexibility, and ease. With the added advantage of a powerful graphical user interface (GUI), the user-friendly console supports highly efficient operation of BIST - BT1064. Overall, HITACHI BIST - BT1064 is efficient and reliable scanning electron microscope designed with enhanced imaging capabilities. With its wide range of features, it is the ideal choice for studying surface and microstructures, as well as material compositions.