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Laser Welding
Laser welding is a highly efficient and precise welding technology that utilizes a high-energy-density laser beam as a heat source. Localized heating melts the material, forming a specific molten pool and joining metal parts. Its core principles can be categorized as heat conduction welding (low power density, shallow penetration) and deep penetration welding (high power density, resulting in a "keyhole" structure and strong penetration).
Friction Welding
Friction Welding is environmentally friendly and safe: it requires no welding wire or shielding gas, featuring a smoke-free, radiation-free process with no harmful emissions. It avoids oxidation issues from high temperatures in traditional fusion welding, making it ideal for easily oxidized materials like aluminum alloys.
Ultrasonic Welding
Ultrasonic welding is a solid-state welding technology that uses high-frequency mechanical vibrations (typically 15-70 kHz) to join materials. Its core principle is to use frictional heat to melt the contacting surfaces and form molecular bonds. Ultrasonic welding, as a highly efficient solid-state joining technology, offers the following key advantages
Hot Forging
Hot forging is performed above the metal's recrystallization temperature. Increasing the temperature increases the metal's plasticity, improving the workpiece's inherent quality and making it less prone to cracking. High temperatures also reduce the metal's resistance to deformation, reducing the force required by forging machinery
Cold Forging
Cold forging is a forming process performed at room temperature, also known as cold forging temperature. The advantage of cold forging is the excellent surface finish achieved by cold forged products. Forging without heating the blank is called cold forging.
Open-die Forging
Open-die forging is a metal forming process in which pressure is applied to a metal blank through an open die (such as an anvil or a simple flat die), causing it to plastically deform to the desired shape. Its key characteristic is that the die does not completely enclose the workpiece, allowing the metal to flow freely in non-contact areas, achieving forming through only localized contact.
