[ Problem Point ] The annealing process of SiC wafers requires uniform heating at high temperatures, while improving throughput remains a challenge. [ ⇒Kaizen Point ] By using the Carbon line heater, heating efficiency has improved. Throughput has increased, and ...

[ Problem Point ] In production environments with low-volume, high-mix production, the conventional drying methods using large hoppers and dryers presented a challenge. The traditional equipment processes large quantities of pellets at once, leading to excessive energy consumption for small ...

[ Problem Point ] In the coating process, slow drying speed led to reduced production efficiency. Traditional drying methods required a long time to supply sufficient heat, limiting the throughput of the production line. Additionally, large drying equipment was necessary, ...

[ Problem Point ] Freezer warehouse shutters are prone to condensation due to temperature differences between the interior and exterior. This condensation freezes and turns into frost or ice, making it difficult to open and close the shutters. In winter ...

[ Problem Point ] To accurately measure the thermal deformation of printed circuit boards, a heat source capable of providing uniform and instantaneous heating is required. However, conventional heaters suffer from uneven heating and slow response times. Additionally, the long ...

To improve the accuracy of temperature measurement, selecting the appropriate measurement timing is extremely important. Even for the same object, different temperatures may be observed due to factors such as the progress of heating or cooling, changes in the surrounding ...

In temperature measurement, selecting the measurement location is extremely important for ensuring measurement accuracy and applying controlled temperature. Even for the same object, different measurement locations can yield varying temperatures. Therefore, it is necessary to minimize variations in measurements and ...

Temperature measurement plays a crucial role in various fields, including industrial applications, medical practices, research, and food processing. However, it is important to note that the measured temperature does not always perfectly reflect the “true temperature” . Numerous factors, such ...

In temperature measurement, one of the factors that cause measurement errors is temperature distribution variability. Temperature does not always spread uniformly; it significantly changes depending on the material of the measurement target, surrounding environment, and heat transfer methods (conduction, convection, ...

Various factors contribute to errors in temperature measurement, but among them, incomplete thermal contact, time delay, and environmental influences are the primary causes of measurement inaccuracies. These errors can be minimized by adopting appropriate measurement methods and environmental adjustments. In ...

To improve the accuracy and efficiency of temperature measurement, selecting the most suitable thermometer is crucial. There are various temperature measurement devices, each with unique characteristics and advantages. Choosing the right device enables more precise measurements, facilitating efficient energy and ...

Temperature measurement plays a crucial role in many aspects of our daily lives and industries. Whether it’s measuring air temperature, body temperature, or managing the temperature of industrial products, temperature is closely related to various physical phenomena, and its measurement ...

Table of Contents What is Temperature Measurement? Basic Knowledge and Importance Types of Temperature Measurement Devices and How to Choose Them Fundamental Error Factors Affecting Temperature Measurement and Countermeasures Measurement Errors Caused by Temperature Distribution Variations and Their Prevention Limitations ...

[ Problem Point ] Looking for a method to reactivate adhesives in hard-to-disassemble machinery or component joints in a manufacturing line through localized high-temperature heating from a distance. [ ⇒Kaizen Point ] By utilizing the halogen glass rod heater, localized ...

[ Problem Point ] With other heating methods, heat would spread excessively, sometimes reaching unnecessary parts of the tube. [ ⇒Kaizen Point ] Thanks to the precise heating of the halogen glass rod heater, the risk of heat spreading to ...

[ Problem Point ] When heat spreads over a wide area, unnecessary parts of the tube body also receive heat, posing a risk of deformation and deterioration. As a result, there were concerns about a decline in the overall product ...

[ Problem Point ] I was looking for a way to speed up the drying process of stamped markings on metal surfaces. [ ⇒Kaizen Point ] Since the markings can be heated in a pinpoint manner, the drying process can ...

This video demonstrates the visualization of heat transfer in a graphite rod using infrared localized heating with a halogen point heater. A thermographic camera was used to observe the effects of infrared heating on the graphite rod in real-time, capturing ...

This video visualizes the heat transfer of a ceramic pipe (alumina) through localized infrared heating using a halogen point heater. A thermographic camera was used to observe in real-time how infrared heating affects the ceramic pipe, capturing its temperature distribution ...

This video visualizes the heat transfer of an iron screw using localized infrared heating with a halogen point heater. A thermographic camera is used to observe in real-time how infrared heating from the halogen point heater affects the iron screw, ...

This video introduces a polyvinyl chloride (PVC) tube joining method using localized heating with a halogen glass rod heater. By focusing infrared radiation to achieve pinpoint heating, efficient heating and joining can be accomplished. With appropriate temperature control and heating ...

This video introduces a polyurethane tube joining method using localized heating with a halogen glass rod heater. By focusing infrared radiation to achieve pinpoint heating, efficient heating and joining can be accomplished. With appropriate temperature control and heating condition adjustments, ...

This video demonstrates the process of precisely heating and melting the ends of polyurethane tubes using a halogen glass rod heater and infrared technology. This heating treatment is performed as a preparatory step for joining tubes together, achieving a uniform ...

This video demonstrates the use of a halogen glass rod heater to locally heat chocolate with infrared, melting only a specific portion. Please take a look at this example of localized heating, designed for potential applications in the food processing ...

This video introduces a method for efficiently and precisely processing the ends of ropes using infrared heating technology. By utilizing the halogen glass rod heater, it is possible to prevent fraying while achieving quick and high-quality processing. Please check the ...