Using a halogen point heater, we locally irradiated expanded polyethylene (EPE) with infrared radiation and observed its thermal response. The irradiated area quickly reached high temperatures, causing the EPE to rapidly soften and melt. This is a clear example of ...

Using a halogen point heater, we locally irradiated expanded polystyrene (EPS) with infrared radiation to observe its thermal response. The irradiated area rapidly reached high temperatures, causing the EPS to melt quickly. This video clearly demonstrates how localized infrared heating ...

1.Features of CFSH 1. Illuminates in a circular pattern from all directions. Illuminates in a circular pattern from all directions, so there are no blind spots. 2. Ideal for resin heating Since it is a carbon fiber heating element derived ...

 This video demonstrates the use of a halogen line heater to focus infrared radiation into a linear pattern, selectively heating a specific area of a zinc plate. Zinc, with a melting point of approximately 419.5°C, melts in the irradiated ...

 This video demonstrates the use of a halogen line heater to focus infrared radiation into a linear pattern, selectively heating a specific area of a lead plate. Lead, with a melting point of approximately 327.5°C, is a relatively soft ...

 This video demonstrates the use of a halogen line heater to focus infrared radiation into a linear pattern, selectively heating a specific area of a tin plate. Tin, with a melting point of approximately 232°C, melts in the irradiated ...

 Caramel is a food primarily composed of sugar, dairy ingredients, and fats, and it exhibits various thermal reactions such as caramelization and Maillard reactions when heated. In this video, we visualize the thermal reaction process—including melting, foaming, charring, and ...

 Chocolate is a multi-component food that exhibits different thermal behaviors due to its composition of sugar, dairy ingredients, cocoa mass, and fats. In this video, we visualize a series of thermal reaction processes—including melting, foaming, charring, and smoke generation—using ...

 Gummy candy is a high-viscoelastic food primarily composed of gelatin and sugars, with its physical properties heavily dependent on moisture content and structural density. When subjected to infrared heating, heat rapidly conducts from the surface, leading to characteristic deformation ...

 This video presents the heating behavior of hard candy subjected to infrared irradiation using a halogen line heater. Hard candy, being a high-sugar amorphous solid, rapidly softens and dissolves under infrared heating, leading to foaming phenomena due to sugar ...

 Marshmallows are high-sugar, aerated confections that contain numerous air bubbles. When subjected to infrared heating, the internal air rapidly expands, and simultaneously, the surface sugars undergo caramelization and charring. This video visualizes the heating response of marshmallows under infrared ...

 This video captures the process of heating a polycarbonate sheet using high-temperature infrared heating with a halogen line heater. Polycarbonate is a resin with high heat resistance and transparency, and when heated, it becomes more flexible, making it easier ...

 This video captures the process of melting zinc using high-temperature infrared heating with a halogen line heater, providing non-contact and uniform heating. Zinc is a metal that melts at 419.5°C, and in this video, we observed in real-time how ...

 This video captures the process of melting tin using infrared non-contact heating with a halogen line heater. Tin is a metal that melts at a relatively low temperature of 231.9°C, and in this experiment, melting was observed to begin ...

 This video introduces the process of thermal expansion and fracture of glass under high-temperature infrared heating. Using a halogen line heater, we captured the thermal expansion that occurs when glass is heated to high temperatures and the resulting fracture. ...

 This video demonstrates the process of heating magnesium with infrared using a halogen line heater, capturing the high-temperature melting and combustion process. The heating temperature exceeds 650°C, allowing observation of the magnesium melting and burning process. During filming, protective ...

This is a demonstration of drying water droplets on synthetic paper YUPO® using the Carbon Line Heater. Please check the following site for more information.

This is a demonstration of drying and curing cellulose acetate adhesive using a carbon line heater. Please check the following site for more information.

This is a demonstration of drying and curing PVA polyvinyl alcohol using a carbon line heater. Please check the following site for more information.

This is a demonstration of drying and hardening starch paste using a carbon line heater. Please check the following site for more information.

This is a demonstration of drying and hardening fireproof putty using a carbon line heater. Please check the following site for more information.

This is a demonstration of drying and curing styrene butadiene rubber adhesive using a carbon line heater. Please check the following site for more information.

This is a demonstration of drying and curing vinyl acetate adhesive using a carbon line heater. Please check the following site for more information.

This is a demonstration of drying and curing chloroprene rubber adhesive using a carbon line heater. Please check the following site for more information.

This is a demonstration of drying and curing epoxy adhesive using a carbon line heater. Please check the following site for more information.