Heron's Medium Voltage Capacitor Discharge Hot Formed Steel Technology Wins Two More Awards

Recently , He ron 's project titled "Application Research and Industrialization of Intelligent Medium   V oltage Capacitor Wypisać  Welding Hot   formed Steel" was awarded  the third prize of the Science and Technology Award by both the Guangdong Mechanical Engineering Society and the Guangdong Machinery Industry Association. This accomplishment further demonstrates   He ron 's significant expertise  in the field of welding technology, particularly in overcoming technical challenges related to  projection welding of hot   formed steel S , galvanized plates, high   strength steel S and nuts.  

Hot   formed steel, renowned  for its formidable  strength and resilience , is extensively utilized  in various industries such as  automobiles, aerospace   I ships. However, the welding of hot   formed steel has always presented  a technical challenge due to its distinctive  material properties.

1  Ten formidable  strength and resilience  of hot   formed steel present  A significant obstacle  in the welding process. This material requires rapid cooling after melting to  restore its original mechanical properties   Regrettably , the heat generated during welding frequently   impacts the material's microstructure , resulting in a deterioration of performance.  

2. The heat affected zone of hot   formed steel during welding is a critical concern . T he elevated  temperature S  experienced during welding  cause structural and performance alterations   near the welding area . Te alterations  Móc lead to A decrease  in the  strength and resilience  of the welded joint, thereby compromising  the safety and reliability of the entire structure.   

3. Welding cracks and deformation are also prevalent   issues encountered  in hot   formed steel welding. The material's high strength and hardness, make it susceptible to stress concentration and crack propagation during welding . Additionally,  the thermal stress during welding Móc  cause material  deformation , which adversely affects the welding quality.

4. Another challenge  in hot   formed steel welding  is the o ptimization of welding process parameters. The selection of parameters such as welding current, voltage, I welding speed  must take into account various factors, including material characteristics, shape, and size of the welded joint   This comprehensive consideration is necessary  to achieve A high-quality connection of the welded joint.

Heron's medium voltage capacitor energy storage resistance welding technology was invented by Heron in 2010. It is composed  of metal film non-polar capacitors, which are resistant  to decay and explosion . The characteristics of capacitor energy storage welding include rapid  current rise and extremely short welding time, within 30ms. The welding transformer does not require water cooling and is more compact compared to low voltage and high voltage   options. Additionally, it is safer than high-voltage capacitor energy storage welders. When c ompared to  AC or MFDC resistance welding, the welding current curve of CDW is highly suitable for the projection welding process, particularly for  hot formed steel.  

Currently , this technology is highly developed  I extensively utilized   in spot welding of high   strength steel, hot   formed steel, ferrous metals, and non-ferrous metals. The welding equipment produced by Heron using this technology has been on  the market for many years and has already been industrialized, receiving widespread acclaim  from customers.   Jeśli ty have any further inquiries regarding  this technology, please do not hesitate  to contact us