The UK’s National Institute for Manufacturing and Technology (NIMT) has developed a new iron-rich composite material that can be used in building materials.
The material is called Ironstone and it is produced by combining two naturally occurring minerals, the minerals tin and zinc, to form a new type of alloy known as ferric iron.
It has a number of benefits.
For one, it can be manufactured in a relatively short time-frame compared to other materials.
For another, the material is resistant to water.
It also has a wide range of applications, from building materials to solar panels.NIMFOT has been awarded a £20,000 (€24,000) grant from the UK Government to develop the new material.
The university has been working on the technology for many years, and is one of only a few large scale industrial companies that have applied for funding to develop this technology.
In the future, NIMT hopes to develop other applications, like building materials with high-quality iron or for the building industry, in order to help tackle climate change.
NimT’s chief executive, Matthew Rourke, said that the technology was unique in that it could be made by combining iron with another mineral to form the final product.
This is the first time a company has applied for a grant for a new mineral-based additive that can replace one of the primary components in a product, he said.
The research was led by Professor Paul McVay, director of NIMFOM’s Institute of Materials, and the lead author on a paper published in the journal Applied Physics Letters.
Professor McVee said that while the research is focused on making ferric oxide, he was looking at other uses for the material, such as making flexible glass.
“We’re also looking at using it in the construction industry to make some of the more exotic and high-tech materials,” he said, referring to the high-end materials in the car and aerospace industries.
“If we can make a material that is both lightweight and high in tensile strength and strong and resistant to moisture, it will help us in a number more ways.”
The research has been funded by the National Science Foundation and the Engineering and Physical Sciences Research Council of Australia.
The news comes after a US university announced plans to build an office building that could house an Ironstone facility.
Ironstone is a mineral-rich, composite material, that is used in the manufacture of glass, steel, and composite materials.
It can be found in many parts of the world, including the United States, Australia, and China.
It is one the few naturally occurring materials that can resist chemical reactions and withstand heat and pressure, making it a very attractive candidate for high-value applications.
Ironstones have also been used to make many high-strength materials.
In fact, in the US, one in five buildings in the United State is made from Ironstone.
But, as a result of climate change, NimFOT believes that it is important to develop a new additive that could help to reduce the impact of climate-change on the world’s supply of materials.
“The Ironstone material we are developing is unique in the fact that it can use both iron and titanium,” Professor McVays said.
“We are looking at all the potential uses of this additive in the future.”
He said that this material could be used to form building materials in future buildings.
“It’s very important that we understand the chemistry behind the iron and the titanium,” he added.
“These metals have a very high degree of stability and can withstand a lot of extreme conditions, and we need to understand how we can harness the chemistry and make this material better.”