Tag Archives: metal plating

Copper Plating and the Use of Copper Balls

Copper balls have been specially designed to aid the quality of electroplating.  The balls are 25mm, 31mm, 40mm or 50mm in diameter and are made up of 99.9% copper and between 0.04 and 0.06% phosphorus.  They enable the quality of copper plating to be heightened.  This is due to them being able to give free flowing material which dramatically reduces the development of sludge during the process of plating.  This is their sole purpose.  It is also useful that they are able to reduce sludge development because this extends the anode baskets life because the sludge does not erode them.

Successful Copper Plating

The anodes are created using the purest of copper which is oxygen free.  The anodes must be made out of oxygen free copper so that the correct phosphorus content occurs for the electroplating process to be successful.  This process is watched and monitored strictly for quality control and this highly automated process creates a product of great uniformity and high quality of plating.

Why Choose Copper Plating?

Copper plating is functional and decorative.  It is well known for being an excellent conductor.  The deposited layer which is left when copper plating occurs is very bright and levels well.  Copper plating is often used in Medical settings or laboratories due to it being able to kill off bacteria naturally without need for any chemical assistance.  In reference to its decorative flare – this is due to its highly polished copper-pink appearance.  Lacquers can be applied so as to prevent tarnish from building up on the copper plating if it is solely intended for decorative use.

Contact us Today

If you or your business are interested in copper plating, or other plating methods, such as electroless nickel plating or diffused nickel plating, heat treatment or have a special project which requires specialist assistance, then why not contact us?  We are Derbyshire based, leading specialists in the plating industry who offer a wide range of well-developed, tried and tested techniques which are not only high-end but also cost effective.  We have experience of working for the aerospace, medical, army and automotive industries, to name but a few and offer our services to the whole of the UK, Germany, France, Brazil and Holland.   

 

What to Consider before you Electroplate

Are you thinking about having parts electroplated?  Here are the most important things you need to take in to consideration before and during the process…

What should you consider Pre Electroplating?

 

  • Nesting

Electroplating involves electrical and chemical reactions on the surface of the part you are wanted to be plated, so exposure is crucial to the result of the final product.  Parts which are nesting will lack adhesion and therefore coverage on the final product.

  • Tolerance

The tolerance on vital dimensions on the part in question should be designated with the plating thickness in mind.  This is should be accounted for when the pieces are ready for assembly after the products have been through the chemical process.

  • Environment and exposure

What is your product going to be exposed to?  A high amount of friction, heat or sea spray?  This is essential for negotiating the thickness of the necessary plating required to maintain the resistance, corrosion and rust protection of the part in question.

  • Geometry

Electroplating involves using a current in order for the reaction to be initiated on the surface of a part, which means that the geometry of the parts surface will influence the distribution of electroplating across the surface.  This is called current density.  It is normal that plating builds up in parts which have sharp corners, bends and threads but it can be prevented if specialists use advanced plating processes.

  • Drainage

The preparation of the surface of a part needing plating must be correct so that the inside surfaces of a part will be sufficiently covered when the process is completed.  This is so that the plating will have the correct bond strength for plating to have been carried out correctly and for the part to have ultimate protection and increase its longevity.  This, for some parts, may mean they need to have a weep hole create during their design phase, so that this can be achieved.

  • Usage

It must be clear what your intended use is for the part you are needing plating.  Make it clear to your specialists what the use and required characteristics are of the part.  Important features include conductivity, low friction, high strength, corrosion resistance, wear, exposure to sea spray or water etc.  This will determine which metal your part is made from (eg. Copper, Nickel, Tin, etc), how your part should be finished and plated.

 

us and You

 

us are a Derbyshire based company and we are leading specialists in the plating industry.  We offer an array of well-developed, high-end techniques which are cost effective and reliable.  We have extensive experience working for industries, such as aerospace, medical, army and automotive and offer our services to the UK, France, Germany, Holland and Brazil.  If you need plating services such as electroless nickel plating, copper plating or heat treatments, then contact us today by calling our friendly and professional team on our phone number, alternatively you can click here to be taken directly to our website and view the services we offer for yourself.

 

What to Consider before you Electroplate

Are you thinking about having parts electroplated?  Here are the most important things you need to take in to consideration before and during the process…

What should you consider Pre Electroplating?

 

  • Nesting

Electroplating involves electrical and chemical reactions on the surface of the part you are wanted to be plated, so exposure is crucial to the result of the final product.  Parts which are nesting will lack adhesion and therefore coverage on the final product.

  • Tolerance

The tolerance on vital dimensions on the part in question should be designated with the plating thickness in mind.  This is should be accounted for when the pieces are ready for assembly after the products have been through the chemical process.

  • Environment and exposure

What is your product going to be exposed to?  A high amount of friction, heat or sea spray?  This is essential for negotiating the thickness of the necessary plating required to maintain the resistance, corrosion and rust protection of the part in question.

  • Geometry

Electroplating involves using a current in order for the reaction to be initiated on the surface of a part, which means that the geometry of the parts surface will influence the distribution of electroplating across the surface.  This is called current density.  It is normal that plating builds up in parts which have sharp corners, bends and threads but it can be prevented if specialists use advanced plating processes.

  • Drainage

The preparation of the surface of a part needing plating must be correct so that the inside surfaces of a part will be sufficiently covered when the process is completed.  This is so that the plating will have the correct bond strength for plating to have been carried out correctly and for the part to have ultimate protection and increase its longevity.  This, for some parts, may mean they need to have a weep hole create during their design phase, so that this can be achieved.

  • Usage

It must be clear what your intended use is for the part you are needing plating.  Make it clear to your specialists what the use and required characteristics are of the part.  Important features include conductivity, low friction, high strength, corrosion resistance, wear, exposure to sea spray or water etc.  This will determine which metal your part is made from (eg. Copper, Nickel, Tin, etc), how your part should be finished and plated.

 

us and You

 

us are a Derbyshire based company and we are leading specialists in the plating industry.  We offer an array of well-developed, high-end techniques which are cost effective and reliable.  We have extensive experience working for industries, such as aerospace, medical, army and automotive and offer our services to the UK, France, Germany, Holland and Brazil.  If you need plating services such as electroless nickel plating, copper plating or heat treatments, then contact us today by calling our friendly and professional team on our phone number, alternatively you can click here to be taken directly to our website and view the services we offer for yourself.

 

Electroplating from the Start

Electroplating is a form of metal plating which is used by many industries in a range of capacities which include the aerospace, automotive, army, space, medical, electronic and engineering sectors, to name but a few.  It is useful due to the fact that it is so versatile and lends itself so because of its electrochemical process where metal ions in solution are bonded to metal substrates by means of electrodeposition.

Before Electroplating

Pre Electroplating, all parts must be thoroughly cleaned and then a process of chemical baths must be followed so that the parts can be prepared and activated so that the adhesion for the strong bond can take hold and become effective.  This is key in the electrodeposition process.  Many variables must be monitored closely during the electroplating bath process, such as the power supply which provides a direct flow of current to the parts in submerged.  This enables ions to be attracted to the surface of the metallic part evenly.  Every mole of electrons that are transferred to the part, allows one mole of metallic ions in the solution to adhere to the part during the bath process.  A chemical reaction can subsequently occur where the reduction and oxidation of ions takes place.

Types of Electroplating

Specialist plating facilities are able to plate a large array of different base materials to protect various surfaces.

Base materials for electroplating include:

  • Brass
  • Copper
  • Nickel
  • Stainless Steel
  • Nickel Silver

Surface finishes for electroplating include:

  • Gold
  • Silver
  • Copper
  • Electroless Nickel

About Electroless Nickel Plating

Electroless nickel plating is a high quality but cost effective coating solution which can drastically extend the life expectancy of a stainless steel component.  This is due to the metal layer deposited by the electroless nickel coating creating an even thickness across the components surface, despite its shape.  This makes electroless nickel plating very popular in sectors such as the defence, health, automotive and aerospace industries.

Happy New Year From us!

As 2019 draws to a close, we are looking back on what has been a very busy year for us in the metal plating industry. From our nomination for the Excellence in Manufacturing Award at The Sheffield Business Awards, to our new testing laboratory, 2019 has been a great year for all of us here at us.

New facilities to monitor phosphorus levels

Our new laboratory means that our lead times have been cut dramatically; we are now able to turn around standard plating jobs within 24 hours. Our new state of the art, in house facilities mean that we no longer have to outsource testing. We can now monitor phosphorus levels, perform micro-sections and hardness tests on site.

Excellence in Manufacturing Award

In November we were thrilled to discover that us had been shortlisted for The Wake Smith Excellence in Manufacturing Award at The Sheffield Business Awards. The ceremony took place in December and although we didn’t win, we were very pleased to have been nominated for such a prestigious award.

We have more than 30 years of experience specialising in the electroless nickel plating process, and a comprehensive range of metal finishing processes and techniques. We also offer a variety of surface treatments including electroless nickel plating, diffused nickel plating, copper plating, shot blasting and heat treatment. For more information, please call us or email 

Happy New Year From us!

As 2019 draws to a close, we are looking back on what has been a very busy year for us in the metal plating industry. From our nomination for the Excellence in Manufacturing Award at The Sheffield Business Awards, to our new testing laboratory, 2019 has been a great year for all of us here at us.

New facilities to monitor phosphorus levels

Our new laboratory means that our lead times have been cut dramatically; we are now able to turn around standard plating jobs within 24 hours. Our new state of the art, in house facilities mean that we no longer have to outsource testing. We can now monitor phosphorus levels, perform micro-sections and hardness tests on site.

Excellence in Manufacturing Award

In November we were thrilled to discover that us had been shortlisted for The Wake Smith Excellence in Manufacturing Award at The Sheffield Business Awards. The ceremony took place in December and although we didn’t win, we were very pleased to have been nominated for such a prestigious award.

We have more than 30 years of experience specialising in the electroless nickel plating process, and a comprehensive range of metal finishing processes and techniques. We also offer a variety of surface treatments including electroless nickel plating, diffused nickel plating, copper plating, shot blasting and heat treatment. For more information, please call us or email 

The Future’s Bright, The Future’s us

2008 saw the beginning of the EU process which took four years to put in to place, preventing incandescent light bulbs from being sold.  This was because they performed inadequately and were not eco-friendly due to the high amount of electricity they consumed.  The LED has therefore taken its place on our supermarket shelves, as they are proven to be much more efficient.

Plating Industries

The electronic and automotive industries, as well as most British households and road engineers for road lighting applications, are using LED lights.  The LED substrate can be silver plated either conventionally by rack or less conventionally by reel-to-reel plating procedures.  Plating differs depending on the thickness, and ranges from 20 to 150 A/dm², normally.

Bright Lights

How are LED lights so bright?  This is due to a low free-cyanide silver process which contains brightener additives.  This creates high luminosity.  These LEDs are much more eco-friendly, cost effective and use a fraction of the amount of electricity of an incandescent light bulb.

Heat Treatment gets the Deep Treatment

The silver deposits used to plate the LEDs were initially heated for 60 minutes at 200° and then for 120 minutes at the lower temperature of 170°C but it was quickly identified that significant reflectivity was lost during this.  So it was decided that a post-dip was going to be used in order to prevent the reflectivity loss, in the form of an aqueous treatment post heat treatment.  This seems to have worked, having been tested on multiple different types of nickel, at higher temperatures and with the nickel being treated for shorter lengths of time (up to 1 minute), as the GAM measurements do not diminish dramatically at all.  Thus, proving the effectiveness of the combination of plating, heat treatment and the post-dip aqueous treatment as a trio.

The Future’s Bright, The Future’s us

2008 saw the beginning of the EU process which took four years to put in to place, preventing incandescent light bulbs from being sold.  This was because they performed inadequately and were not eco-friendly due to the high amount of electricity they consumed.  The LED has therefore taken its place on our supermarket shelves, as they are proven to be much more efficient.

Plating Industries

The electronic and automotive industries, as well as most British households and road engineers for road lighting applications, are using LED lights.  The LED substrate can be silver plated either conventionally by rack or less conventionally by reel-to-reel plating procedures.  Plating differs depending on the thickness, and ranges from 20 to 150 A/dm², normally.

Bright Lights

How are LED lights so bright?  This is due to a low free-cyanide silver process which contains brightener additives.  This creates high luminosity.  These LEDs are much more eco-friendly, cost effective and use a fraction of the amount of electricity of an incandescent light bulb.

Heat Treatment gets the Deep Treatment

The silver deposits used to plate the LEDs were initially heated for 60 minutes at 200° and then for 120 minutes at the lower temperature of 170°C but it was quickly identified that significant reflectivity was lost during this.  So it was decided that a post-dip was going to be used in order to prevent the reflectivity loss, in the form of an aqueous treatment post heat treatment.  This seems to have worked, having been tested on multiple different types of nickel, at higher temperatures and with the nickel being treated for shorter lengths of time (up to 1 minute), as the GAM measurements do not diminish dramatically at all.  Thus, proving the effectiveness of the combination of plating, heat treatment and the post-dip aqueous treatment as a trio.

Plating to Perfection

They were first designed in 1928.  They are made in Chicago.  They are plated in copper, nickel and silver before being coated in 24-carat gold.  What are we talking about?  An Oscar!

These 14 inch, 8.5 pound statuettes are the literally the definition of perfection in more ways than one.  If they are not perfect, then the makers are lead to starting the statuettes from scratch, time and time again.  But once they are deemed perfect, they are guaranteed for life!  The iconic Art Deco Academy Award takes a long 10 days to repeat from start to finish, partly because there is only one Oscar mould and also because so many processes take place in their production, such as electroplating.

About the Oscar

It was designed by Cedric Gibbons, the MGM art director, who sketched the subjected standing on a film reel with five spokes.  These five spokes represent the original five branches of the Academy and was originally called the Academy Award of Merit.  Each Oscar is engraved with a serial number and now over 3,000 Oscars have been awarded.  These Oscars may begin their lives in Chicago but one classified as ‘perfect’ are packaged and flown, with guards, to Los Angeles for the award ceremony.  An interesting fact about Oscars is that although they are guaranteed for life, if they are damaged, an actor can send them back and have them either replaced or restored to their former glory.  They are meant to be priceless objects and there is an act to say that they are not resalable.  However, this electroplated objects of splendour have continued to be traded in the shadows with some of the highest sales exceeding $250,000 and Michael Jackson paid $1.5million for a Best Picture award for Gone With The Wind 1939 in 1999.

Find Out More About us Today

If you are interested in finding out more about any of the plating processes which you have read about in this article, such as copper plating, electroless nickel plating or diffused nickel plating, then why not get in touch with us today?  We are leading specialists in the plating industry based in Derbyshire, England, and offer an array of developed techniques which are both high-end and cost effective.  We work in the aerospace, automotive and medical industries to name but a few and we offer our services to the UK, France, Holland, Brazil and Germany

Plating to Perfection

They were first designed in 1928.  They are made in Chicago.  They are plated in copper, nickel and silver before being coated in 24-carat gold.  What are we talking about?  An Oscar!

These 14 inch, 8.5 pound statuettes are the literally the definition of perfection in more ways than one.  If they are not perfect, then the makers are lead to starting the statuettes from scratch, time and time again.  But once they are deemed perfect, they are guaranteed for life!  The iconic Art Deco Academy Award takes a long 10 days to repeat from start to finish, partly because there is only one Oscar mould and also because so many processes take place in their production, such as electroplating.

About the Oscar

It was designed by Cedric Gibbons, the MGM art director, who sketched the subjected standing on a film reel with five spokes.  These five spokes represent the original five branches of the Academy and was originally called the Academy Award of Merit.  Each Oscar is engraved with a serial number and now over 3,000 Oscars have been awarded.  These Oscars may begin their lives in Chicago but one classified as ‘perfect’ are packaged and flown, with guards, to Los Angeles for the award ceremony.  An interesting fact about Oscars is that although they are guaranteed for life, if they are damaged, an actor can send them back and have them either replaced or restored to their former glory.  They are meant to be priceless objects and there is an act to say that they are not resalable.  However, this electroplated objects of splendour have continued to be traded in the shadows with some of the highest sales exceeding $250,000 and Michael Jackson paid $1.5million for a Best Picture award for Gone With The Wind 1939 in 1999.

Find Out More About us Today

If you are interested in finding out more about any of the plating processes which you have read about in this article, such as copper plating, electroless nickel plating or diffused nickel plating, then why not get in touch with us today?  We are leading specialists in the plating industry based in Derbyshire, England, and offer an array of developed techniques which are both high-end and cost effective.  We work in the aerospace, automotive and medical industries to name but a few and we offer our services to the UK, France, Holland, Brazil and Germany

Apple watch for gold plating

The Gold Plated Apple

Apple watches which have been gold plated tend to cost a minimum of $10,000 if you buy directly from Apple, for the 18 carat gold edition.  So instead there is now the option to purchase a DIY kit for $100 which also entails a step by step guide to this cheap solution to gold plating yourself with 24 carat gold.  This is a much more cost effective option than sending your Apple watch back to Apple to do it for you which costs at least $400.  There are also other benefits from the DIY set – for example, you can touch up gold plated areas once they begin to fade or show signs or wear and this can be done at your convenience, too.

Plating

If you are wanting a product plated then there are lots of different options for you to mull over.  These include electroless nickel plating, diffused nickel plating, copper plating, tin plating, nickel boron plating and nickel diamond plating to name but a few.

The Pros of Plating

  • Improves the quality of your components
  • Improve the surface
  • Protects the component from wear
  • Increases the levels of hardness
  • Induces self-lubrication
  • Reduces the wear of a friction in a component
  • No chipping or flaking like with other top coats like paints of lacquers
  • Lower porosity
  • Non-magnetic
  • Less prone to staining
  • Pit-free deposits
  • Hard deposits
  • Very uniform thickness
  • Excellent corrosion protection
  • Doesn’t have to be extortionately expensive
  • Marine corrosion resistant (DNP)
  • Sub-sea protection (DNP)
  • Salt spray resistant (DNP)
  • Protects ferrous and non-ferrous surfaces (TP)
  • Increases performance (TP)
  • Increases durability (TP)
  • Non-toxic (TP)
  • Resistant to fretting (NBP)
  • Resistant to galling (NBP)
  • Resistant to abrasion (NBP)
  • Ductile (NBP)
  • Solderability (NBP)
  • Performs well at high temperatures (NBP)
  • Increased thermal transfer (NDP)
  • Conformity to complex geometry (NDP)
  • Can be applied to all common metals and alloys (NDP)
  • Can cover entire surfaces of specific targeted areas (NDP)
  • Are used by a number of industries, such as power, telecommunications, medical, marine, army, aerospace, motor, etc.

Plating Specialists

us are leading specialists in the plating industry.  Based in Derbyshire, England, we specialise in electroless nickel plating but offer a wide range of other techniques too.  Our aim is to provide a high-end but cost effective service for you.  We have extensive experience working in a great number of sectors including the automotive, aerospace and military industries and are proud that we can offer our services to the entirety of the UK, France, Holland, Brazil and Germany.

Contact us Today

If you are interest in finding out more about electroless nickel plating, diffused nickel plating, copper plating, tin plating, nickel boron plating or nickel diamond plating, then why not call us today  on our phone number or alternatively you can email our staff at us at   We look forward to hearing from you!

The Gold Plated Apple

Apple watches which have been gold plated tend to cost a minimum of $10,000 if you buy directly from Apple, for the 18 carat gold edition.  So instead there is now the option to purchase a DIY kit for $100 which also entails a step by step guide to this cheap solution to gold plating yourself with 24 carat gold.  This is a much more cost effective option than sending your Apple watch back to Apple to do it for you which costs at least $400.  There are also other benefits from the DIY set – for example, you can touch up gold plated areas once they begin to fade or show signs or wear and this can be done at your convenience, too.

Plating

If you are wanting a product plated then there are lots of different options for you to mull over.  These include electroless nickel plating, diffused nickel plating, copper plating, tin plating, nickel boron plating and nickel diamond plating to name but a few.

The Pros of Plating

  • Improves the quality of your components
  • Improve the surface
  • Protects the component from wear
  • Increases the levels of hardness
  • Induces self-lubrication
  • Reduces the wear of a friction in a component
  • No chipping or flaking like with other top coats like paints of lacquers
  • Lower porosity
  • Non-magnetic
  • Less prone to staining
  • Pit-free deposits
  • Hard deposits
  • Very uniform thickness
  • Excellent corrosion protection
  • Doesn’t have to be extortionately expensive
  • Marine corrosion resistant (DNP)
  • Sub-sea protection (DNP)
  • Salt spray resistant (DNP)
  • Protects ferrous and non-ferrous surfaces (TP)
  • Increases performance (TP)
  • Increases durability (TP)
  • Non-toxic (TP)
  • Resistant to fretting (NBP)
  • Resistant to galling (NBP)
  • Resistant to abrasion (NBP)
  • Ductile (NBP)
  • Solderability (NBP)
  • Performs well at high temperatures (NBP)
  • Increased thermal transfer (NDP)
  • Conformity to complex geometry (NDP)
  • Can be applied to all common metals and alloys (NDP)
  • Can cover entire surfaces of specific targeted areas (NDP)
  • Are used by a number of industries, such as power, telecommunications, medical, marine, army, aerospace, motor, etc.

Plating Specialists

us are leading specialists in the plating industry.  Based in Derbyshire, England, we specialise in electroless nickel plating but offer a wide range of other techniques too.  Our aim is to provide a high-end but cost effective service for you.  We have extensive experience working in a great number of sectors including the automotive, aerospace and military industries and are proud that we can offer our services to the entirety of the UK, France, Holland, Brazil and Germany.

Contact us Today

If you are interest in finding out more about electroless nickel plating, diffused nickel plating, copper plating, tin plating, nickel boron plating or nickel diamond plating, then why not call us today  on our phone number or alternatively you can email our staff at us at   We look forward to hearing from you!

The Advantages of Electroless Deposition of Nickel

Electroless solutions have the advantage of producing coatings which have a very high degree of uniformity. This means that electroless nickel is ideal for plating complex shapes and can be used effectively to salvage parts that have been mis-machined. It also allows worn components to be recycled.

Electroless nickel deposits vs electrolytically-applied coatings

Electroless nickel deposits are chemically applied using an autocatalytic immersion process which does not use an electrical current.

This is much different from electroplating, which depends on an external source of direct electrical current to produce a deposit on the substrate material. Because the electrical current cannot be evenly distributed throughout the component itself, it is hard to obtain a uniform deposit with electrolytically-applied coatings.

Electroless nickel is often chosen above electrolytically applied coatings because of its ability to coat irregularly shaped, highly detailed parts with complex geometries. The completely uniform deposit thickness is perfect for achieving close dimensional tolerance capabilities.

If you would like to find out more about using electroless plating as an alternative to electroplating, call us , email us at  or visit the contact page on our website to make an enquiry.

Features of Electroless Nickel PTFE Coatings

Nickel-PTFE combines the engineering properties of nickel with the lubricity of polytetrafluoroethylene.

Just like standard electroless nickel, the Nickel PTFE deposit occurs as a result of an autocatalytic chemical reaction which allows a reliable, repeatable coating of uniform thickness. This coating makes it possible to coat parts with sharp edges, seams, threads, deep recesses and complex shapes.

During the plating process, the PTFE particles become embedded throughout the deposit of nickel. The unique composite of Nickel PTFE allows for renewed polytetrafluoroethylene at the surface of the component, even as the coating wears. The chemical process involved in the production of Ni-PTFE coatings means that the PTFE is uniformly dispersed throughout the nickel deposit in order to ensure optimum performance in high friction and non-lubricated applications.

Features of Nickel PTFE Coatings

  • Long life lubrication
  • Dry lubrication, reducing sticking and galling
  • Good mold release, eliminating spray releases
  • Hydrophobic
  • Uniform coverage, particularly good for complex shapes
  • Can be heat treated for increased hardness
  • Good for hign friction applications
  • Natural lubricity eliminating the need for standard lubrication
  • Moving parts such as slides and bearings work with improved efficiency and quieter operation

If you are looking for a nickel coating that combines the lubricity of polytetrafluoroethylene with the hardness and corrosion resistance of electroless nickel, us can help. Call us , email us at  or visit the contact page on our website to make an enquiry.

us Announce New Nickel Diamond Plating Service

us are pleased to announce the latest of our new metal plating services available; nickel diamond plating!

We’ve got a wealth of experience in the processes of electroless nickel plating, copper plating and metal finishing, so nickel diamond plating is a natural extension of our quality range of services.

What is Nickel Diamond Plating?

Nickel diamond plating combines an electroless nickel deposit with fine particles of diamonds.

A variety of substrates can be coated using nickel diamond, including metals such as carbon and tool steels,  aluminium, alloys, copper, brass, bronze, stainless steel, and titanium.

The use of diamond particles contained within an electroless nickel coating offers a practical and affordable way to utilise the properties of diamond on the surface of components.

Common Applications of Nickel Diamond

Nickel diamond can be used for a huge range of applications across a variety of industries. Common applications include the following:

  • Machinery parts for the textile industry
  • Wood working tools
  • Computer parts
  • Paper handling equipment
  • Mechanical shaft shields for automotive water pumps and chemical process pumps
  • Gage blocks

What are the Features of a Nickel Diamond Coating?

Nickel diamond coatings provides a highly corrosion and wear resistant coating. By providing maximum protection to the surface of the substrate, coated machinery parts will have an increased lifespan. This helps to keep maintenance and related downtime due to the replacement of high wear parts to a minimum, reducing costs.

Due to the electroless chemical method of deposition, nickel diamond plating is able to cover surfaces with perfect uniformity. Therefore, regardless of the geometry of the component, the nickel diamond coating creates a uniform deposition on all areas of the part, even on recesses and holes.

Key Benefits of Electroless Nickel Diamond Plating

Nickel diamond plating has many benefits which make it a superior choice of coating, including the following:

  • Excellent wear resistance
  • Excellent hardness
  • Enhanced corrosion resistance
  • Increased thermal transfer
  • Conformity to complex geometries
  • Can be applied to all common metals and alloys
  • Can be used to cover entire surfaces or selected areas

What are the Advantages of Aqua Blasting / Vapour Blasting?

Here at us, we have recently added an aqua blasting service to our comprehensive range of metal plating and metal finishing services. This non aggressive technique effectively removes the dirt and corrosion from the surface of the material, but it does not damage the surface in any way, as can be the case with some other ‘blasting’ techniques.

The Benefits of Aqua Blasting

The primary benefit of aqua blasting is that all the critical dimensions of the component stay the same, making the process safe to use on precision engineering items, molds and automotive engine components.

It cleans by utilising the flow of water to remove dirt, not by impact; therefore it doesn’t change the dimensions of the part. In addition to cleaning the surface, it also de-greases it simultaneously.

Aqua blasting is far gentler than grit blasting and bead blasting, but just as effective. During grit and bead blasting, the media is ricocheted off the surface of the component in an aggressive manner.

But the water involved in aqua blasting reduces the ricochet of media due its cushioning effect; therefore the angle of the media is changed to produce a lapping effect which travels across the surface to give an even satin/polished finish.

Typical Applications of Aqua Blasting

• Degreasing and surface finishing of components in the automotive, reconditioning & maintenance industries
• Removal of paint, rust, scale, carbon & similar deposits in engineering industries
• Surface preparation prior to bonding, re-painting or re-coating
• Satin finishing of stainless steels & other special materials
• Cleaning of PCB’s & electrical connectors
• Removal of small burrs from manufactured components
• Cleaning of dies & molds

What are the Advantages of Aqua Blasting / Vapour Blasting?

Here at us, we have recently added an aqua blasting service to our comprehensive range of metal plating and metal finishing services. This non aggressive technique effectively removes the dirt and corrosion from the surface of the material, but it does not damage the surface in any way, as can be the case with some other ‘blasting’ techniques.

The Benefits of Aqua Blasting

The primary benefit of aqua blasting is that all the critical dimensions of the component stay the same, making the process safe to use on precision engineering items, molds and automotive engine components.

It cleans by utilising the flow of water to remove dirt, not by impact; therefore it doesn’t change the dimensions of the part. In addition to cleaning the surface, it also de-greases it simultaneously.

Aqua blasting is far gentler than grit blasting and bead blasting, but just as effective. During grit and bead blasting, the media is ricocheted off the surface of the component in an aggressive manner.

But the water involved in aqua blasting reduces the ricochet of media due its cushioning effect; therefore the angle of the media is changed to produce a lapping effect which travels across the surface to give an even satin/polished finish.

Typical Applications of Aqua Blasting

• Degreasing and surface finishing of components in the automotive, reconditioning & maintenance industries
• Removal of paint, rust, scale, carbon & similar deposits in engineering industries
• Surface preparation prior to bonding, re-painting or re-coating
• Satin finishing of stainless steels & other special materials
• Cleaning of PCB’s & electrical connectors
• Removal of small burrs from manufactured components
• Cleaning of dies & molds

How Are Nickel Coatings Used in Aircraft?

Nickel coatings are often used on various parts of aircraft due to its fantastic properties of corrosion resistance and hardness. Needless to say, the Aircraft industry has an ongoing need for nickel plating.

Electroless nickel plating is used in the Aircraft industry to provide:

  • Corrosion resistance at high temperatures to protect airfoil components from erosion and abrasion.
  • Provides a coating that will allow high nickel/chromium alloy parts to be joined by brazing or welding.
  • To repair worn or damaged components so that they can continue to be used rather than scrapped.

Electroless nickel coatings have been used on the following aircraft parts:

  • Bearing journals
  • Servo valves
  • Compressor blades
  • Turbine blades
  • Pistons
  • Engine shafts
  • Engine mounts
  • Landing gear
  • Hydraulic and manifold systems
  • Gyroscope components and optics

For more information about the use of electroless nickel plating in the Aircraft industry, please contact the staff at us or email: 

Everything You Need to Know About Vapour Blasting

Aqua blasting, or vapour blasting as it is sometimes called, is commonly used for fine surface preparation, de-burring, finishing and polishing.

The aqua blasting service here at us will degrease, blast and finish components all at the same time, providing a complete vapour blasting service for a variety of components. Other uses for the process include the removal of carbon deposits, the removal of paint, rust, and similar deposits in the engineering industry, and surface preparation prior to bonding, re-painting or re-coating.

How Does Vapour Blasting Work?

The process of vapour blasting is completely dust free, and uses a mixture of a media and water to form a slurry. This slurry is then pumped through a vapour blasting nozzle under considerable pressure whilst at the time being mixed with a high pressure air supply. The pressurised slurry then flows over and around the part, component or surface that is being blasted, producing a clean, smooth finish.

What are the Advantages of Aqua Blasting?

Vapour blasting has a lot of advantages over conventional sandblasting or bead blasting. Unlike shot blasting (and other blasting methods which actually move the surface material from the components), the process is non-intrusive; and it is perfect for delicate parts and soft metal. Aqua blasting is commonly used when a fine finish is required for aluminium, alloys, steel and many other metals; including bronze, magnesium, titanium, brass and copper.

With the water acting as a protective buffer; and the emulsion gently eradicating any grime – the underlying surface is crucially left intact. Vitally, there will be no alteration of critical dimensions. The creation of any dust is also avoided; as there no break-up of any media during the aqua blasting process.

Key Advantages of Aqua Blasting:

  • Can be applied to almost all metals
  • Surfaces are degreased and cleaned in tandem
  • Cleaning process relies on water flow and not impact
  • Makes surfaces more stain resistant
  • Singular part or batch process
  • No dust from the process

Aqua Blasting, Wet Blasting and Vapour Blasting Service Chesterfield, Derbyshire

To find out more about our aqua blasting service, as well as a range of our other metal plating and metal finishing services, call us or email .

3 Reasons to Choose Electroless Nickel Plating Over Galvanisation

What is Galvanisation?

When a metal is galvanised, a protective zinc coating is applied to it. This zinc coating is applied to steel or iron in order to prevent the surface of the metal from rusting. Hot-dip galvanisation is the most common method of galvanisation. During this process, the steel parts are submerged in a bath of molten zinc. This process is also achievable through electrochemical and electro deposition processes but there are some differences between them.

Hot-dip galvanisation produces a grey, matte coating to the surface of the metal, which is very thick and durable.

Electroless Nickel as an Alternative to Galvanisation

Electroless nickel plating and galvanisation are both effective metal finishing techniques for the prevention of corrosion and rust on the surface of metal. If you’re trying to decide which would be a better coating for your application, here are 3 reasons why you should choose electroless nickel plating as an alternative to galvanisation.

  1. Durability and Corrosion Resistance

The electroless nickel plating process is a high quality, cost effective solution to coating metals such as mild or stainless steel and can substantially extend the life of a component. It is an excellent alternative to galvanisation as it is both durable and aesthetically pleasing.

  1. Uniform Coating

Not only does electroless nickel plating provide enough corrosion resistance to be used in harsh environments, the uniform coating it creates can be a perfect solution for critical high-end engineering items such as those used in the defence, healthcare, automotive and aerospace industries.

  1. Cost Effectivity

Electroless nickel plating is also much cheaper than you would imagine, considering the extent of its durability, and the wear resistance of the surface can be increased by using heat treatments. This makes it an ideal specialist plating where friction and wear may be problematic with regard to the use of the component.

Electroless Nickel Plating

To find out more about electroless nickel plating and how it can be used as an alternative to galvanisation, contact the experts at us on our phone number or email: