Tag Archive for metal plating service

UK’s First National Onshore Oil and Gas College to be Developed in Blackpool

New plans to develop the UK’s first national onshore college for oil and gas were revealed in a speech yesterday by Matthew Hancock, minister for business and enterprise. As we know, the economic opportunities in shale and gas are plentiful, and this new centre of excellence aims to train a generation of onshore oil and gas specialists.

The National College for Onshore Oil and Gas

The new centre will be called the National College for Onshore Oil and Gas and will be based in Blackpool. The centre will also have working relationships with Chester, Redcar, Cleveland, Glasgow and Portsmouth.

MP Matthew Hancock considers the move to be a once-in-a-generation economic opportunity for the UK, and says that families, towns and villages across the UK will benefit from the new industry and its supply chain, creating 64,500 jobs.

Shale gas is an enormous opportunity for the UK and one that we simply can’t afford to miss out on,” said Hancock.

As the North Sea production continues to decline, the UK is becoming more and more reliant on importing gas from abroad to meet its needs. The government have estimated that by 2025, 70% of the gas consumed by the UK will be imported. Therefore, making the most of domestic oil and gas resources will help the UK to become more self-sufficient in the future.

£750,000 Government Funding

The college’s development is being funded by £750,000 of government money, and this amount is set to be matched by education providers and industry bodies. More money will be made available from the National College initiative to support the college on an industry-matched investment basis.

The bid to set up the college was led by the United Kingdom Onshore Oil and Gas (UKOOG), and it will be overseen by the oil and gas industry to make sure that the colleges meet the needs of the industry by delivering high level specialist training. The aim is to keep the UK at the forefront of drilling, hydraulic fracturing, site development and environmental management.

As experts in metal finishing and surface technology specialising in the oil and gas industry, us are delighted that such a fantastic investment is being made into the future of the industry. Any attempts that the UK can make to ensure the future security of our fuel is a great move!

Protecting Mild Steel from Salt Spray Corrosion

Here at us, we provide a range of metal finishing and metal plating services for both onshore and offshore applications. SeaTEC100 is a solution to increase the longevity of components used in subsea conditions. This product protects mild steel from salt spray corrosion and marine corrosion for an extensive period of time, making it perfect for use in sub-sea conditions. For more information about corrosion resistant coatings, please call us or email

New Nickel Boron Plating Service Available at us

As part of our recent expansion at us, we have added a variety of new metal plating and metal finishing services to the business. We are pleased to announce that we now have the facilities to carry out nickel boron plating.

Nickel boron plating can be applied to variety of different metals and is a great alternative to chrome plating. Among its many benefits are excellent wear and corrosion resistance.

Key Advantages of Nickel Boron Plating

  • Excellent corrosion resistance
  • Excellent wear resistance
  • Ductile
  • Solderability
  • High-temperature performance
  • Lubricity
  • Accepts dry film lubricant
  • Uniformity of coating
  • Excellent rigidity
  • Resistant to fretting
  • Resistant to galling
  • Resistant to abrasion

Electroless Nickel Boron Plating

Nickel boron coatings mirror the surface profile of the substrate it is applied to, therefore little or no post-plate grinding or burnishing is needed after plating. The process of electroless nickel boron plating does not need an electrical current; therefore the coating deposition rates are fully controllable and produce incredibly accurate and consistent tolerances. So even on sharp corners, edges, flat surfaces, as well as blind holes, threads, channels, recesses and internal areas of all shapes and sizes, the result is exactly the same.

The nature of an electroless nickel boron coating reduces the surface to surface contact of surfaces that slide up against each other, thus reducing drag and friction. The surface of nickel boron is typically nodular; therefore the structure allows it to dissipate heat efficiently due to the greater surface area. These characteristics are especially effective when used on saw blades, for example.

Aerospace Metals and The Hubble Space Telescope

As experts in the process of electroless nickel plating and diffused nickel plating, the staff at us like to keep up to date on the various uses of nickel around the globe. As nickel electroforming was used as the plating service of choice on parts of the Hubble Space Telescope, we thought it only right to feature it in a blog post!

The Hubble Space Telescope was carried into orbit in 1990 by a space shuttle and remains there today taking pictures of space. The HST provides scientists and astronomers with exceptional images from space that has contributed a great deal to improving our understanding of the universe.

Named after the astronomer Edwin Hubble, the HST has led to many breakthroughs in the field of astrophysics. Built by NASA, with contributions from the European Space Agency, the HST is operated by the Space Telescope Science Institute.

Perhaps the most memorable outcome of the images taken from the Hubble Space Telescope was the ability to accurately determine the rate of expansion of the universe.

Nickel electroforming has had an important role in the manufacturing of parts for the HST due to the ability of the process to meet very exact dimensional specifications. The Space Telescope Imaging Spectrograph (STIS) consists of a slit wheel that is made up of segments. These were produced by nickel electroforming, and then vacuum-laminated to stainless steel wheel segments.

Obviously a procedure such as this requires high levels of precision and accuracy. Multilayer electroforms with a minute tolerance were required, and were achieved using this process. The application of nickel electroforming has made a big contribution to the success of the Hubble Space Telescope and the high precision obtained by nickel electroforming has made it possible to produce enhanced coronographic HST images.

For more information about the ways in which nickel can be used, and corrosion protection aerospace metals, vvisit the us website at http://www.electroless-nickel-plating.co.uk