Shanghai Junko New Energy Technology Co.,Ltd.
Shanghai Junko New Energy Technology Co.,Ltd.

Introduction of Forging Application

Induction forging is a modern metalworking process that utilizes the principles of electromagnetic induction to heat and shape metal components. This method is highly efficient and precise, offering several advantages over traditional forging methods.


1. Principle of Induction Heating

  • Electromagnetic Induction: In induction forging, a high-frequency alternating current is passed through a coil, creating a magnetic field. This magnetic field induces eddy currents within the metal, which generate heat due to the resistance of the metal to the flow of the induced currents.

  • Localized Heating: The heat is generated directly within the metal, allowing for precise control over the heating area and temperature. This is particularly useful for heating specific parts of a workpiece without affecting the entire component.


2. Process Steps

  • Material Preparation: The metal workpiece is prepared, ensuring it is clean and free of any contaminants that could affect the induction heating process.

  • Induction Heating: The workpiece is placed within an induction coil. The coil generates a magnetic field that induces eddy currents in the metal, heating it rapidly and uniformly.

  • Forging: Once the metal reaches the desired temperature, it is forged using presses, hammers, or other forging tools. The heat from the induction process makes the metal more malleable and easier to shape.

  • Cooling: After forging, the workpiece is cooled to room temperature, which can be done by air cooling or water quenching, depending on the material and desired properties.

  • Post-processing: The forged component may undergo additional processes such as heat treatment, machining, or finishing to achieve the final desired properties and dimensions.


3. Advantages of Induction Forging

  • Energy Efficiency: Induction heating is highly energy-efficient, as it directly heats the metal with minimal heat loss.

  • Precision: The localized heating allows for precise control over the forging process, reducing the risk of overheating or underheating.

  • Speed: Induction forging can be much faster than traditional methods, as the metal can be heated rapidly.

  • Flexibility: The process can be easily adapted to different shapes and sizes of workpieces, making it suitable for a wide range of applications.

  • Improved Material Properties: The rapid heating and cooling rates can result in improved microstructures and mechanical properties of the forged components.


4. Applications

Induction forging is used in the production of various components in industries such as automotive, aerospace, and heavy machinery, where high strength and precision are required.

It is particularly useful for forging complex shapes or parts that are difficult to heat uniformly using conventional methods.


Induction Forging Machine


Hot Coil Spring (Red Coil Spring) Induction Heating Production Line

Process production process:

Turning over material → feeding → induction heating → heat preservation → rapid discharging → coil spring → trimming → (temperature raising) → quenching and cooling → tempering → tempering spray cooling


This production line system consists of a control part, a mechanical transmission part and an induction heating part. Among them, the AC speed regulation transmission system for feeding and rapid discharging is composed of a frequency converter and a motor. With IGBT super audio frequency induction heating power supply as the core, the process control of the system is completed through PLC centralized control. In order to achieve high system efficiency, high product quality, and high performance consistency.


Control section:

One Siemens TP277 touch screen, one Siemens S7-200 PLC, two high-precision infrared thermometers, and three ABB inverters.


Transmission mechanical part:

Turning rack, feeding mechanism, holding furnace transmission mechanism, rapid discharging machine, temperature measuring and sorting mechanism


Induction heating part:

Two sets of induction heating power supplies, two sets of load capacitor cabinets, and three sets of inductors.


Features: 

① The production line operates fully automatically. It can record and monitor the number of workpieces, temperature, and operating voltage, current, power, speed and other parameters of the equipment, and perform statistics and analysis on the heating quality of the workpieces. It is easy to operate and maintain;


② Adopting the latest domestic technology IGBT induction heating power supply, it has the advantages of energy saving and high efficiency, and the overall heating efficiency is greater than 0.6;


③ Wide range of use, no need to change equipment configuration to produce φ12-φ85mm diameter springs;


④ The overall movable sensor structure automatically switches the sensor according to the diameter of the workpiece, making it convenient and quick to replace the porcelain tube, which improves production efficiency;


⑤ The transmission mechanism of the high-temperature link is made of high-temperature-resistant stainless steel and has a long service life;


⑥ Reasonable layout of the heating chamber of the holding furnace and a fully automatic temperature control system have the advantages of energy saving and high efficiency;


⑦ Fully closed-circuit cooling circulation pipeline and all stainless steel pipelines improve the stability of equipment operation.


Usage: Mainly used for hot rolled springs and waste heat quenching. By adjusting the equipment configuration, it can be used for bar quenching and tempering, annealing and tempering.