The application fields of infrared sleeve heating lamps are relatively wide. The following are some common fields:
Industrial manufacturing
Plastic processing: It can be used to preheat plastic particles so that the plastic reaches the appropriate processing temperature before entering the extruder, improve fluidity and extrusion efficiency, and ensure the uniform quality of plastic films, pipes, profiles and other products.
Metal heat treatment: quenching, tempering and other heat treatments for small metal parts, quickly and accurately heating to the required temperature, improving the metal structure and performance, and improving the hardness, toughness and wear resistance of parts.
Glass processing: In the production of glass products, such as glass bottles and glass tubes, the raw materials or semi-finished products are locally heated to the softening point to facilitate blowing, stretching and other processing operations, and improve molding quality and production efficiency.
Electronic manufacturing: In the production process of electronic components, such as chip packaging, circuit board welding, etc., it is used to heat flux, glue, etc., accelerate their drying and curing, and improve production efficiency and product quality. It can also preheat electronic components to prevent them from being damaged by sudden temperature changes during subsequent processing.
Printing and packaging: In the printing industry, it can quickly dry ink, improve the drying speed and quality of printed products, and reduce ink smearing and fading. In the packaging industry, it is used for heat shrink packaging, so that the packaging material can shrink quickly and fit the product to achieve a good packaging effect.
Health care
Physiotherapy and rehabilitation: It can relieve pain and inflammation caused by diseases such as arthritis, muscle strain, sprains, etc., and dilate local blood vessels by irradiating the affected area, promote blood circulation, and accelerate tissue repair and regeneration. It can also be used for postpartum repair, irradiating the abdomen, waist, buttocks and other parts of the mother to promote physical recovery.
Medical insulation: In scenes such as neonatal care and postoperative recovery, it provides patients or babies with a suitable environmental temperature, which helps them recover and grow healthily.
Food processing
Food drying: It can quickly remove moisture from food and achieve dehydration and drying. It is suitable for drying and processing of various foods such as vegetables, fruits, meat, fish, dairy products, grains, etc., and can maximize the retention of food nutrients and flavor.
Food baking: It makes the surface of food brown quickly and forms a caramel flavor. For example, in the production of baked foods such as bread and biscuits, it can be used as an auxiliary heating equipment to improve the appearance and taste quality of food.
Food sterilization and disinfection: It uses high temperature to quickly kill bacteria and microorganisms in food to ensure the safety and shelf life of food. It can be used for sterilization and disinfection of vegetables, fruits, meat, fish, dairy products, beverages and other foods.
Food thawing: It provides fast and uniform heat for frozen food to thaw it in a shorter time , and the food quality will not be degraded due to local overheating, maintaining the original flavor and nutrition of the food.
Agricultural field
Greenhouse insulation: In agricultural greenhouses, additional heat is provided to plants at night or in low temperature weather to maintain a suitable temperature in the greenhouse, promote plant growth and development, and enhance plant resistance to cold.
Seed germination: Provide suitable temperature conditions to accelerate seed germination, improve seed germination rate and germination potential, and meet the germination needs of various seeds.
Scientific research experiments
Material performance testing: In material science research, materials are heated to study the changes in the physical and chemical properties of materials under different temperature conditions, such as testing the thermal stability of polymer materials and the thermal expansion coefficient of metal materials. The heating temperature of the material can be accurately controlled to obtain accurate experimental data.
Chemical reaction acceleration: As an efficient heating source, it accelerates chemical reactions, shortens reaction time, improves reaction efficiency, optimizes reaction conditions, and improves the selectivity and yield of reactions. It is suitable for chemical reactions that require heating, such as organic synthesis reactions and catalytic reactions.
