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High-purity Ultra-fine Tin Powder

When a company wants to make a new product, one of the most important things they have to think about is how much the materials will cost like for atomised aluminium powder. This is especially true for ultrafine tin powder that is very pure. To figure out the price, you have to think about a lot of different things, like how the material is made, how it will be used, and how it is made.


In the past few years, scientists have come up with different ways to make new materials and improve the ones we already have like High-purity Ultra-fine Tin Powder. Nanosize titanium-carbonitride-based materials, for example, are used to cut metal and make composites with metal binders. In this article, a way to make ultrafine tin powder that is very pure is explained.

In this process, molybdenum carbide and nickel are heated. The molybdenum oxide is then used to make a catalyst. The alloy is heated even more after the catalyst has formed. Citric acid can also be used to make things less acidic. This method is fast and easy to use. Also, it's easy to get the nanoscale material without grinding. It is also cheap and doesn't hurt you. You can use this method on other metals as well.

During the process, the metals used to make the alloy were kept in their 99.9 wt% pure form. Inductively coupled plasma (ICP) spectroscopy was used to find out how pure the powders were.

Why choose TIJO Metal Materials High-purity Ultra-fine Tin Powder?

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It is not easy to make an ultrafine tin powder that is the right quality and purity. Depending on the use, this material can cost anywhere from EUR 500 to EUR 2500 per gram to make. To get to this level of quality, you need to add things like silicon and titanium, among others. The powder that is made is then treated with an anaerobic surface conductive coating treatment, which is similar to how microelectronic devices are made.

High-purity Ultra-fine Tin Powder or Tin and other metals that are micro- and nano-compressed have been studied for many years. This has led to many interesting discoveries, like the tin nano-lubricant additive. A 0.11% nano-tin powder that forms a self-repairing film on friction pairs is one example of a metal nano-lubricating additive. This metal nano-lubricating additive also lowers the temperature at which high-temperature ceramics fuse together.

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