Ultra-High Temperature Observation Laser Microscope System VL3000DX-SVF18SP
High-resolution in-situ observation under environments up to 1800℃. For research and material development of ceramics, secondary batteries, etc.!
The representative heating observation IR imaging furnace from Mikyo Manufacturing has been equipped with a digital violet laser microscope. It enables clear microscopic observation in ultra-high temperature environments of up to 1800°C. Compared to conventional models, the resolution and brightness have improved by about two times*, allowing for observations with high magnification and high contrast. Please utilize it for research on the behavior of fine structures and material development under high temperatures in steel, non-ferrous metals, ceramics, secondary batteries, and more. *Compared to our conventional model "VL2000DX-SVF17SP" ◆ Key Points ◆ - High-resolution in-situ observation Obtaining high-resolution images under ultra-high temperatures - Realization of diverse observation conditions Rapid heating and rapid cooling up to 1800°C - Excellent operability and controllability High-speed image acquisition accurately linked to temperature By using the optional load mechanism module "SVF12FTC," observations can be conducted under stress loading (up to 5kN) at high temperatures. For more details, please contact us.
basic information
【Specifications】 ■ System Name VL3000DX-SVF18SP ■ Configuration [ Leather Head VL3000DX ] [ Heating Device SVF18SP ] ■ Options [ Heating Load Device SVF12FYC ] * Specifications are subject to change without notice.
Price information
Please contact us.
Delivery Time
Model number/Brand name
Ultra-High Temperature Observation Laser Microscope System VL3000DX-SVF18SP
Applications/Examples of results
Research on the microstructural behavior of steel, non-ferrous metals, ceramics, and secondary batteries at high temperatures, material development.
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Resolution and brightness approximately doubled! High-temperature observation laser microscope system "VL3000DX-SVF18SP"
The representative heating observation IR imaging furnace from Yonezawa Manufacturing has been equipped with a digital violet laser microscope. This enables clear microscopic observation in ultra-high temperature environments of up to 1800°C. For more details, please refer to the catalog. If you have any questions or inquiries, please feel free to contact us.
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The digital violet laser microscope is equipped on the representative heating observation IR imaging furnace of Yokokura Manufacturing! 《Ultra High Temperature Laser Microscope System VL3000DX-SVF18SP》
The "VL3000DX-SVF18SP," an ultra-high-temperature laser microscope system equipped with a digital violet laser microscope, represents the flagship heating observation IR imaging furnace of Mikyo Manufacturing. It enables clear microscopic observation in ultra-high-temperature environments of up to 1800°C. Compared to conventional models, the resolution and brightness have improved by approximately two times*, allowing for high-magnification, high-contrast observation images. *For more details, please contact us or download the catalog.
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Experience high-temperature measurements up to 1700℃ and experiments under controlled atmospheric conditions! We invite you to try high-temperature observations using the demo unit from the IR series, which represents Yonezawa Manufacturing, including heating, atmospheric control, and oxidation experiments.
- Metal / Filler Material / Ceramic / Solder / Glass, etc. - This measurement allows you to experience high-temperature observation using a demonstration unit of the "IR Series" concentrated heating furnace, which represents the test equipment manufacturer Yokokura Seisakusho. Due to its sealed structure, the IR Series furnace can achieve a maximum temperature of 1700°C under controlled atmospheric conditions, as in the case of the IR-18SP. You can capture real-time changes in the test subject by checking videos of actual experiments and the test program. *Please note that the equipment used is a demonstration unit, and we may not be able to accommodate requests depending on the circumstances, so please contact us for details. *There may be variations depending on the thermal capacity of the test specimen. ▼ Features of the IR Series ▼ The rapid heating performance and superior temperature control, along with information from the observation port, significantly shorten heating experiment times and facilitate the screening of optimal heating conditions, contributing to improved efficiency in material development tasks.
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"High-Temperature Heating, Tensile Compression, In-Situ Observation" Atmosphere control also / High-Temperature Tensile Compression Observation Device "CATY-T3H" Achieves space-saving with a compact tabletop design.
The "CATY-T3H SYSTEM" is a tabletop high-temperature tensile observation device that allows for thermal fatigue testing while observing the condition of the sample surface in real-time. It employs a dual-swing crosshead design to keep the sample position centered and ensure no changes are missed!
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"Tabletop-sized high-temperature tensile observation device" High-temperature tensile compression observation device "CATY-T3H" with high-temperature heating, tensile compression, in-situ observation, and atmosphere control also available.
The "CATY-T3H SYSTEM" is a tabletop-sized high-temperature tensile observation device that allows for thermal fatigue testing while observing the condition of the sample surface "on-site," keeping the sample position centered to capture any changes!
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Mikyo Manufacturing provides a consistent production system that develops, designs, manufactures, and supports testing machines and measurement devices tailored to the objectives and applications of customers in fields such as material research and development, as well as in accordance with material testing standards and methods. The testing machines that respond to requests from various major manufacturers and research institutions are mostly customized products. When measuring the durability of new materials, they are completely made-to-order. We also pay attention to the "usability," which varies depending on the installation location and users, and we adjust the testing machines to ensure they are optimal for each customer.