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What are Nickel Alloys Used For?

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The World Platinum Investment Association (WPIC) said recently that carmakers are accelerating reductions in palladium use and increased use of platinum due to concerns about Russian palladium supplies. However, it still expects a significant surplus in the platinum market this year.

Palladium is used by carmakers in tailpipe emissions systems to reduce carbon emissions.  While carmakers prefer palladium for catalytic converters, they are turning to platinum, which is cheaper than palladium, to save costs.

Russia accounts for about 25-30% of the world's palladium supply and 8-10% of its platinum supply.

There is no sign that western sanctions against Russia have restricted palladium exports since the conflict escalated in February, but as the conflict continues, more companies could boycott The Russian metal and governments could impose restrictions.

Platinum is currently trading at about $950 an ounce, about half the price of palladium.  Automakers use about 2.5 million to 3 million ounces of platinum and about 8.5 million ounces of palladium each year.

For the year as a whole, platinum supply will be 5 percent lower than in 2021 and demand 2 percent higher, with the automotive sector seeing a 16 percent increase due to increased light vehicle nickel alloy are still very uncertain.

Nickel alloys are metals made by combining nickel as the main element with another material (usually titanium, copper, aluminum, iron, and chromium). 
It combines two materials to provide more desirable functions, such as higher strength or corrosion resistance. Due to its unique performance, it is used in a variety of devices in multiple industries.
About 90% of all new nickel sold each year is used to make alloys. The most popular is stainless steel, which accounts for about two-thirds of newly produced nickel alloys. 



Enhanced properties provided by the material:
Improved versatility
Higher toughness 
Enhanced corrosion resistance 
Oxidation resistance 
Strength increases at higher and lower temperatures 
Magnetic
Electronic properties
 
Many nickel-based alloys have excellent properties at temperatures above 1000°C, making them ideal for extremely harsh environments. They provide excellent oxidation resistance at high temperatures while maintaining high-quality weldability, machinability, and ductility.
 

How long is the life of nickel alloy? 
Nickel alloys have an average life of 25 to 35 years. Depending on the application, the service life may be longer. So, the material is more cost-effective than other metals. Nickel alloys are recyclable and have one of the highest recovery rates in the world. About half of the nickel in stainless steel products comes from recycled nickel materials. 
 

Nickel alloy applications:
This material is common in a variety of devices and objects that people use every day, including: 
Mobile phone 
Food preparation equipment 
Medical equipment 
Laboratory equipment 
Transportation
Plane 
Pharmaceuticals 
Building materials 
Aircraft and power turbines 
Nuclear power system 
 
The energy, chemical, petrochemical, and power industries rely on nickel superalloys for their excellent oxidation resistance and high-temperature strength in critical applications. Alloys of nickel, chromium, and molybdenum offer enhanced corrosion resistance. 



Superalloys are made by adding homogeneous elements (including chromium, aluminum, cobalt, and titanium) to produce optimal directional solidification or single crystal structure, thus giving the material strength beyond that of ordinary steel. These nickel-based alloys are used in extremely hot environments, such as gas turbines and aircraft for electricity generation. 
 
Iron-bearing nickel alloys are popular in electronics and specialty engineering. Nickel alloys with copper are used in Marine engineering because of their corrosion resistance in seawater.
 
Wastewater treatment and piping systems have increased the use of this type of stainless steel because of its very low corrosion rate when treating water, even at high flow rates.  It also offers incredible strength and ductility and is easy to manufacture, making it easier to use a cheaper method of joining when assembling pipes. 
 
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Since February, gold has enjoyed a smooth upward run on the back of surging US inflation and the brewing of war. While expectations of rate rises have also risen in tandem over this period, gold had been largely pre-priced and the underlying driver of tightening expectations had come from inflation continuing to rise to record highs. The risk aversion caused by the continued tension in the war also provided an important short-term support for gold. This will have a certain impact on the price of the nickel alloy and the market of the nickel alloy. 

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