High-Temperature Observation Device 'IR-HP' / Contact Angle and Wettability Measurement Application

We have lined up the heating observation devices and IR image furnaces from Yokokura Manufacturing, used by various research institutions around the world. ▼ Product Lineup ▼ High-Temperature Furnaces 1. Heating observation type "MHO-300-2" - Observe with your microscope! Optional cooling down to -100°C 2. Compact "IR-TPS" - In-situ observation at high temperatures (1500°C) with your microscope 3. Ultra-high temperature heating type "IR-18SP" - Heats up to high temperatures (1800°C) 4. Compact "IR-TP" - Designed to enable various analyses 5. Wide-range high-temperature type "IR-QP" - Offers a wide heating range in the IR series, heating up to high temperatures (1700°C) 6. Wide-range type "IR-HP" - Offers a wide heating range in the IR series, suitable for heating plates, wafers, substrates, etc. Tensile Compression Mechanism 6. Tensile compression mechanism "CATY-T3H" - Simultaneous high temperature, tensile compression, and in-situ observation Please check the details on each product page. We also welcome inquiries for customization to fit your testing needs, so feel free to contact us.

The concentrated heating furnace "IR Series" is used in various research facilities around the world and is flexible in accommodating customizations. ▼ 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. ▮ Rapid Heating and Cooling & Temperature Control Performance With a heating rate of approximately 50°C/sec using concentrated heating, rapid cooling is possible with the heating lamp turned off. The temperature control performance achieves a temperature control accuracy of ±1°C through high-speed PID control of the heating lamp volume in relation to the temperature program. ▮ Compatibility with Various Atmospheres All furnaces adopt a vacuum chamber structure, allowing for gas replacement. They can accommodate heating under high vacuum, inert gas, reducing atmospheres, and humidity control atmospheres through bubbling. ▮ Easy Experimentation and Observation Compact and energy-efficient, they do not require a specific installation location. Due to the fast heating rate, there is no need to preheat the furnace, allowing experiments to be conducted whenever desired. ▼ Other Detailed Features ▼ - Real-time observation during heating - Clean Please check the related links for observation videos and examples of observation screen transitions!

We will be exhibiting [materials, custom testing machines, high-temperature furnaces] at Tokyo Big Sight from October 6 to 8, 2021. This exhibition will focus on showcasing testing machines and high-temperature furnaces. Our sales team will be present at the venue, so we welcome you to take this opportunity to discuss any inquiries regarding custom testing machines or modifications that may be difficult to address otherwise. Exhibition Name: TEST2021 [16th Comprehensive Testing Equipment Exhibition] Date: October 6 (Wednesday) to 8 (Friday), 2021, 10:00 AM to 5:00 PM (all three days) Venue: Tokyo Big Sight, South Hall 4F ☆ If you would like an invitation, please request it through our contact form. ○ Materials and Product Testing Machines Tensile, compression, bending, peeling, impact, wear, friction, etc. ○ Custom Testing Machines "Manufacturing Original Testing Machines" Creating a one-of-a-kind original testing machine ○ IR Imaging Furnace "Real-time Experimentation and Observation of Behavior at High Temperatures" Observing high-temperature conditions (up to 1800°C) on a tabletop, pioneering a new field in mechanical inspection Providing various devices for on-site observation and high-temperature observation for experiments such as heating and heat treatment ○ System and Software Development "Digitalizing Data Processing" Aiming to eliminate human error and improve work efficiency