High Frequency Induction Heating Equipment Small High Frequency Heating Equipment For Metal Heating And Melting
Overview of high frequency induction heating equipment:
Electromagnetic induction heating is the most commonly used for metal heating. The small-scale high-frequency heating equipment adopts this electromagnetic induction heating principle. This electromagnetic induction heating method can not only heat the metal locally, but also heat, melt and quench the whole. Therefore, copper and aluminum are no exception, and the workpiece is not easy to deform and fracture when heated in this way.
Technical parameters of high frequency induction heating equipment:
Model: LC-GPGY-110KW
Maximum input current: 110A
Input power: 110kW
Oscillation frequency: 28khz
Input voltage: 356v
Host volume: 474mm×374mm×674mm
Cooling water pressure: 0.1-0.3mpa
Cooling water flow (main engine): 15L / min (0.1MPa)
Cooling water flow (transformer): 18L / min (0.1MPa)
Water temperature protection point: 50 ℃
Host weight: 40 ± 5% kg
Efficiency: 90%
Advantages of high frequency induction heating equipment:
1. Strength: strength refers to the ability of metal materials to resist permanent deformation and fracture under the action of slowly loaded static load. The load modes include tension, compression, bending, shear and torsion. According to the nature of force, it can be divided into tensile strength, compressive strength, flexural strength, shear strength and torsional strength. Yield strength and tensile strength are commonly used in engineering.
2. Elasticity: the deformation of metal materials under the action of external force, which can still restore its original shape and size after the external force is removed, is called elastic deformation. The property with elastic deformation ability is called elasticity.
3. Plasticity: when the external force acting on the material exceeds a certain limit, most of the deformation will disappear after the external force is removed (elastic deformation part), but some of the deformation can not completely recover the original shape and size, resulting in residual deformation, which is called plastic deformation. Plasticity refers to the ability of a material to undergo irreversible permanent deformation before fracture. The plasticity of metal is mainly expressed by elongation after fracture, reduction of area and cold bending angle.
4. Toughness: toughness refers to the ability of metal to absorb deformation energy before breaking under impact load, which is usually expressed by impact absorption energy or impact toughness.
5. Hardness: hardness refers to the ability of metal to resist the pressing of harder objects. It is not a simple physical quantity, but a comprehensive mechanical property index reflecting the strength, plasticity and elasticity of materials. Hardness can be measured by different methods on different instruments, mainly including Brinell hardness, Rockwell hardness and Vickers hardness.
6. Fatigue: fatigue refers to the phenomenon that metal suddenly breaks when its maximum stress is lower than the yield point under the action of alternating external force, and its measurement index is fatigue limit.