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Showing 191 results in "Morgan Advanced Materials”
We are delighted to part of the group looking to position the Midlands, UK as a world leader in advanced ceramics is undertaking a research project to engage the wider business community in the process.
Morgan Advanced Materials are proud to be a member of The Midlands Industrial Ceramics Group (MICG), who have successfully bid for funding in the latest round of awards announced by the UK Research and Innovation’s flagship ‘Strength in Places Fund’.
We are pleased to announce the acquisition of Carbo San Luis. This comes after a 22-year strong partnership and ensures the continued growth and development of the business. The acquisition comes into force on 10 June 2020.
The growing demand for hybrid and electric vehicles requires new engineering solutions and one of the greatest challenges is how to manage heat. Morgan Advanced Materials is taking industry-leading products and expertise in developing thermal management systems (which have transformed gas and diesel-powered trains to electrified trains) and is now applying that capability to the automotive sector.
Morgan Advanced Materials and Royal Academy of Engineering Chair Professor Ian Kinloch are tackling carbon-carbon composite challenges across a range of industries.
Carbon composites are in high demand across the globe, particularly in the aerospace, automotive, mechanical engineering and rail sectors. However, as many of these materials were developed decades ago, modern analytical and synthetic techniques have the potential to improve these materials, whilst also lowering production costs and producing greener more energy efficient products.
Ray Mouw, Business Development Manager at Morgan Advanced Materials’ Technical Ceramics business, explains why magnesia stabilised zirconia ceramic components will be vital for pumps that work in harsh environments, such as oil & gas, and crude oil extraction.
It goes without saying that crude oil is a valuable, or perhaps more accurately an invaluable product to all of us globally. The unrefined petroleum is pumped from reserves deep underground and by the barrel load, all day, every day.
Our dependence on this product (which is processed into a variety of fuel sources and commodities like jet fuel, petrol and diesel) has been quantified by a market intelligence report from Beroe.
Just like Wi-Fi (wireless internet), the origins of Partially Stabilised Zirconia (PSZ) is a commercial success story that was born from research carried out at Australia’s CSIRO. The original patent on PSZ technology dates back to 1978 (US Patent 4,067,745), awarded to researchers Garvie, Hannink and Pascoe.
Global engineering company Morgan Advanced Materials applies world-class material science and manufacturing expertise to solve its customers’ technical challenges.
A plethora of expertise makes up the complex products and services offered by Morgan Advanced Materials, but it essentially boils down to a simple concept: helping its customers achieve more with less.
However, when you look at the vast amount of what customers can get through Morgan Advanced Materials, the bottom line might almost seem like a paradox.
Superwool® XTRA, a low-biopersistent fiber, meets stringent environmental requirements in addition to high-temperature tolerance and improved pollutant resistance.
Lining iron and steel furnaces is critical to extend the life of the furnaces and to protect the purity of the metals being heat treated. Therefore, choosing the best material to meet these needs is crucial. For many years, the first-choice material for the industry has been refractory ceramic fiber (RCF), which can withstand the extreme temperatures within the furnace and has strong resistance to pollutants.
As an Advanced Materials Company, Morgan constantly upgrades its products to deliver more value to its customers. Morgan's Motel Metal Systems business is proud to introduce its latest range of next generation crucibles for Aluminium holding application – VAluStar™.
Backed by Morgan’s expertise and experience of over 160 years in manufacturing crucibles for nonferrous metals, VAluStar™ crucibles are highly resistant to oxidation at low temperatures, thanks to Morgan’s proprietary glazes. These crucibles are particularly best suited for holding Aluminium and Aluminium alloys in electric resistance furnaces.