Coupled FEM Simulation of Induction Heating Process in the Austenitization of a SUJ2 Steel Ring

Abstract This study focuses on two major advantages of induction heating over flame heating in the treatment of coated boiler tubes. In both cases the induction heating process is simple, fast and effective. Firstly, we will show how the the use of induction heating results in exceptionally thick and hard coatings with low porosity. Having high corrosion and wear resistant properties, the products can satisfy industry's needs for reliable coatings with a long service life. Next, the study will detail how a pipe with the coating already applied can be simultaneously bent by induction heating while the coating is melted and fused to the pipe. The result is a thicker, more even and reliable coating than that accomplished by the flame sprayed method on a bent pipe. The process is not only less cumbersome, but again provides a superior product for the market.

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The induction heating process of semi-solid aluminium alloys for thixoforming and their microstructure evaluation

Journal of Materials Processing Technology ◽

10.1016/s0924-0136(00)00567-7 ◽

2000 ◽

Vol 105 (1-2) ◽

pp. 176-190 ◽

Cited By ~ 12

Author(s):

H.K Jung

Keyword(s):

Induction Heating ◽

Aluminium Alloys ◽

Heating Process ◽

Microstructure Evaluation ◽

Semi Solid

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The Numerical Analysis of Temperature Field During Moveable Induction Heating of Steel Plate

Journal of Ship Production and Design ◽

10.5957/jspd.2012.28.2.73 ◽

2012 ◽

Vol 28 (02) ◽

pp. 73-81

Author(s):

Xue-biao Zhang ◽

Yu-long Yang ◽

Yu-jun Liu

Keyword(s):

Temperature Field ◽

Steady State ◽

Numerical Model ◽

Induction Heating ◽

Temperature Difference ◽

Steel Plate ◽

Heating Process ◽

Quasi Steady State ◽

Initial State ◽

Plate Temperature

In shipyards, hull curved plate formation is an important stage with respect to productivity and accuracy control of curved plates. Because the power and its distribution of induction heat source are easier to control and reproduce, induction heating is expected to be applied in the line heating process. This paper studies the moveable induction heating process of steel plate and develops a numerical model of electromagneticthermal coupling analysis and the numerical results consistent with the experimental results. The numerical model is used to analyze the temperature changing rules and the influences on plate temperature field of heating speed of moveable induction heating of steel plate, and the following conclusions are drawn. First, the process of moveable induction heating of steel plate can be divided into three phases of initial state, quasi-steady state, and end state. The temperature difference between the top and bottom surfaces of the steel plate at the initial state is the biggest; it remains unchanged at the quasi-steady state and it is the smallest at the end state. Second, obvious end effect occurs when the edges of the steel plate are heated by the inductor, which causes a decrease in temperature difference between the top and bottom surfaces of the steel plate that is unfavorable for formation of pillow shape plates. Third, with the increase of heating speed, the temperature difference between the top and bottom surfaces of the steel plate increases gradually.

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A New Single-Phase Direct Frequency Controller Having Reduced Switching Count without Zero-Crossing Detector for Induction Heating System

Electronics ◽

10.3390/electronics9030430 ◽

2020 ◽

Vol 9 (3) ◽

pp. 430

Author(s):

Naveed Ashraf ◽

Tahir Izhar ◽

Ghulam Abbas ◽

Ahmed Bilal Awan ◽

Ali S. Alghamdi ◽

...

Keyword(s):

Induction Heating ◽

Heating System ◽

Input Voltage ◽

Heating Process ◽

Zero Crossing ◽

Pulse Width Modulated ◽

Controlled Switching ◽

Compact Size ◽

Frequency Magnetic Field ◽

Frequency Controller

Induction heating (IH) is an environmentally friendly solution for heating and melting processes. The required high-frequency magnetic field is accomplished through frequency controllers. Direct frequency controllers (DFC) are preferred to dual converters as they have low conversion losses, compact size, and simple circuit arrangement due to low component count. Numerous frequency controllers with complex switching algorithms are employed in the induction heating process. They have a complicated circuit arrangement, and complex control as their switching sequences have to synchronize with source voltage that requires the zero-crossing detection of the input voltage. They also have a shoot-through problem and poor power quality. Therefore, this research proposes a novel frequency controller with a low count of six controlled switching devices without a zero-crossing detector (ZCD) having a simple control arrangement. The required switching signals are simply generated by using any pulse-width-modulated (PWM) generator. The performance of the proposed topology is verified through simulation results obtained using the MATLAB/Simulink environment and experimental setup.

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Study on the Mechanism of Interfacial Friction Heating in Polymer Ultrasonic Plasticization Injection Molding Process

Polymers ◽

10.3390/polym11091407 ◽

2019 ◽

Vol 11 (9) ◽

pp. 1407 ◽

Cited By ~ 2

Author(s):

Tao Peng ◽

Bingyan Jiang ◽

Yang Zou

Keyword(s):

Injection Molding ◽

Heating Temperature ◽

Fem Simulation ◽

Polymeric Materials ◽

Interfacial Friction ◽

Heating Process ◽

Injection Molding Process ◽

Ultrasonic Frequency ◽

Friction Heating ◽

Micro Parts

Ultrasonic Plasticization Injection Molding (UPIM) is an effective way to manufacture polymeric micro parts and has great potential for energy saving with processing polymeric materials of a small amount. To better control the UPIM process and improve the quality of micro parts, it is necessary to study the heat generation mechanism. In this paper, the interfacial friction heating process of UPIM was studied by finite element (FEM) simulation and experiment, and the temperature change in the friction interface was estimated. Then, the effects of different process parameters such as ultrasonic frequency and ultrasonic amplitude on the friction heating process were analyzed. The results showed that the rising trend of friction heating temperature was transient (finished within 1 s), and the change trend of FEM simulation was consistent with experimental results. Adjusting ultrasonic frequency and amplitude has a significant influence on the friction heating process. Increasing the ultrasonic frequency and amplitude can improve the efficiency of friction heating.

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