Friction stir welding abbreviated as (FSW) includes the solid state joining process which uses frictional heat created through a rotating tool that needs to join materials. The non-consumable tool, along with a shoulder and profiled probe, is plunged and rotated into the interface within the two work pieces. It then traverses with the joint line, that causing the material becomes heat and soften.

This article talked about all factors that will help in heat sink design. It also provided answers to questions about how a heat sink works and tips to include in your design guide.

Forging has the capacity to deal with different temperature conditions, as it needs no heat to complete the process. For instance it includes cold forging, hot forging, warm forging. It offers reproducibility & interchangeability. Here in this article, we are going to dig out all the details about cold forging along with the advantages in detail.

This places high demands on the heat sink. The heat sink is required to be light in weight, strong in thermal conductivity and strong in plasticity. Only relying on the limited size and maximizing the heat dissipation performance can truly protect the heat dissipation of electronic products. So, what materials can we choose to make a heat sink that meets the shape requirements without losing heat dissipation?

In the current pandemic situation, many cannot navigate such a chaotic market. So, what are the factors that affect the price of heat sinks? I believe many consumers are confused by this. This paper will analyze from the following four aspects.

Cold forged heat sink is a good choice for casting complex shapes with excellent thermal conductivity. The cold forging process allows an almost perfect straightness of more fins per square millimeter.

Brazing cold plates as well as copper tube plates have their own unique benefits and are used in various industries. In this post we will explain everything from a to z about these two specific cold plates: their definition, advantages, applications, and differences. Let's walk with us to understand the topic thoroughly.

A Heat Pipe Heat Sink is a heat transfer element with high thermal conductivity. It transfers heat through the evaporation and condensation of the working fluid in a fully enclosed vacuum envelope. The side heat transfer area can be changed arbitrarily, long-distance heat transfer, temperature control and a series of advantages.

Aluminum is a material with good thermal conductivity, so it is mainly used to produce heatsinks. We generally call aluminum radiators, where all the aluminum profiles refer to aluminum and contain aluminum alloy products.Aluminum material is softer and less resistant to corrosion, so the aluminum h