VIP member
Purchase/wholesale price of fiberglass microwave drying equipment
Microwave drying of glass fibers can be designed according to the size, shape, drying temperature, film-forming time, hardness, moisture content, and
Product details
Product Introduction
Microwave drying of glass fibers can be designed according to the size, shape, drying temperature, film-forming time, hardness, moisture content, and other requirements and characteristics of yarn, felt, cloth, blanket, etc,Microwave drying equipmentThere are three types: tracked continuous transmission, intermittent or intermittent travel, and microwave hot air hybrid About 50% more energy-efficient than traditional drying equipment, and can greatly improve fiber quality The equipment is divided into a preheating zone, a water extraction zone, and a film-forming zone to meet the drying requirements of fibers The relative advantages of microwave dried glass fibers (such as yarn balls, silk cakes, short cut fibers, fabrics, etc.) compared to conventional drying (such as steam, electric heating, etc.) are as follows
1. The water removal inside and outside the glass fiber is relatively thorough and uniform, enhancing the adhesion between the coating (organic silicon) and the surface of the glass fiber.
2. The composite composition of organic silicon and resin in deep organic films, due to their different dielectric properties, has a time difference in the formation of the drying layer, which leads to the tightening of the organic silicon layer between the resins, greatly reducing the interface failure rate and improving product quality.
3. When glass fiber is formed by wire drawing, there may be extremely fine cracks on its surface. Due to microwave heating, water vapor migrates from the inner layer to the outer layer, and there is a strong synergistic effect of steam pressure in the inner layer of the cylinder, causing the three pumps of glass wetting agent in the glass fiber to penetrate into the cracks on the surface of the glass fiber, which is more effective than traditional heating and drying methods and improves the strength of the glass fiber.
4. Traditional heating and drying methods have a long drying time, and glass fibers are exposed to high temperatures for a long time, which has a significant impact on their strength. However, microwave drying methods have a shorter drying time and have a smaller impact on the strength of glass fibers.
5. Low moisture content, with finished products having a moisture content below 1%
6. The use of microwave drying for glass fiber products has the characteristics of clean and bright appearance, high flexibility and strength, low hydrophobicity, easy coloring and spinning, and has strong market competitiveness in similar products.
Welcome to call for consultation or come for inspection and negotiation.
1. The water removal inside and outside the glass fiber is relatively thorough and uniform, enhancing the adhesion between the coating (organic silicon) and the surface of the glass fiber.
2. The composite composition of organic silicon and resin in deep organic films, due to their different dielectric properties, has a time difference in the formation of the drying layer, which leads to the tightening of the organic silicon layer between the resins, greatly reducing the interface failure rate and improving product quality.
3. When glass fiber is formed by wire drawing, there may be extremely fine cracks on its surface. Due to microwave heating, water vapor migrates from the inner layer to the outer layer, and there is a strong synergistic effect of steam pressure in the inner layer of the cylinder, causing the three pumps of glass wetting agent in the glass fiber to penetrate into the cracks on the surface of the glass fiber, which is more effective than traditional heating and drying methods and improves the strength of the glass fiber.
4. Traditional heating and drying methods have a long drying time, and glass fibers are exposed to high temperatures for a long time, which has a significant impact on their strength. However, microwave drying methods have a shorter drying time and have a smaller impact on the strength of glass fibers.
5. Low moisture content, with finished products having a moisture content below 1%
6. The use of microwave drying for glass fiber products has the characteristics of clean and bright appearance, high flexibility and strength, low hydrophobicity, easy coloring and spinning, and has strong market competitiveness in similar products.
Welcome to call for consultation or come for inspection and negotiation.
Specification parameters
Glass fiber microwave drying equipmentTechnical parameters:
Equipment model: ZY-30HM
Power input: three-phase 380 ± 10% 50Hz;
Output microwave power: 30KW (power adjustable)
Microwave frequency: 2450MHz ± 50MHz
Temperature control range: 0-300 ℃
Transmission speed: 0-5 meters per minute
Cooling methods: magnetron water cooling, transformer oil immersed water cooling (can operate continuously for 24 hours without interruption)
Conveyor belt: High temperature resistant PTFE conveyor belt
Dehydration efficiency: 30 kg/hour (can be customized according to customer's actual requirements)
Equipment (length x width x height): 12800 x 1265 x 1700mm
Whole machine made of stainless steel
Microwave leakage: in accordance with the national GB10436-89 standard ≤ 5mw/cm2
Compliant with GB5226 Electrical Safety Standard
Equipment model: ZY-30HM
Power input: three-phase 380 ± 10% 50Hz;
Output microwave power: 30KW (power adjustable)
Microwave frequency: 2450MHz ± 50MHz
Temperature control range: 0-300 ℃
Transmission speed: 0-5 meters per minute
Cooling methods: magnetron water cooling, transformer oil immersed water cooling (can operate continuously for 24 hours without interruption)
Conveyor belt: High temperature resistant PTFE conveyor belt
Dehydration efficiency: 30 kg/hour (can be customized according to customer's actual requirements)
Equipment (length x width x height): 12800 x 1265 x 1700mm
Whole machine made of stainless steel
Microwave leakage: in accordance with the national GB10436-89 standard ≤ 5mw/cm2
Compliant with GB5226 Electrical Safety Standard
application area
Online inquiry
-
Contacts
-
Company
-
Telephone
-
Email
-
WeChat
-
Verification Code
-
Message Content
-