6 Reasons Why Shipyards Should Consider Selective Plating
Derek Vanek, Technical Manager at SIFCO ASC, explains how shipyards can put key technologies in the dock which offer speed, portability and efficiency.
For those in the shipbuilding industry, salt water and generally harsh operating conditions make repairs a constant and inevitable fact of marine life. Causing corrosion and damage to critical components such as pumps, valves and motors, regular maintenance or replacement is commonplace, resulting in costly downtime and loss of earnings. As a result, surface plating is widely used to repair or salvage critical components.
Typically carried out when in shipyards, the nature of the plating process usually means this work is performed by plating or machine shops off-site. Offering corrosion protection and wear resistance, with numerous coatings (including nickels, copper, silver, and nickel alloys) and methods of application, key components are typically disassembled and sent to nearby service shops. However, driven by a desire to save time, increase revenue and add value to their customers, many shipyards are now looking to bring the plating process in-house. In this respect, one method stands head and shoulders above the others: selective plating.
Leading the way in surface plating technology, selective plating lends itself particularly well to the demands and business models of shipyards. It is hardly surprising, therefore, that many are turning to the SIFCO Process®, the world’s leading portable method of selective plating. There are numerous reasons for this – let’s look at the top 6.
Essentially, the three common surface finishing processes (tank plating, thermal spray and selective plating) deliver the same end result. However, there are small differences in certain mechanical properties including adhesion and thickness of the deposit. Generally speaking, selective plating is equal to tank plating and thermal spray in most cases, and superior in many. Tests run in accordance with ASTM C633-79 on the SIFCO Process® show that two commonly used nickel deposits had a bond strength exceeding that of the bonding cement. In addition, the hardness of finish with selective plating lies within the broad range of performance obtained with tank deposits. Similarly, its adhesion is comparable to tank plating in most applications. Metallurgically dense and free of defects, brush plated deposits meet or exceed the requirements for tank electroplates, and far exceed those of thermal spray. Moreover, selective plating is carried out at room temperature, eliminating the risk of heat distortion or hydrogen embrittlement, both of which can lead to parts failure. Whereas thermal spray provides a mechanical bond, the SIFCO Process® creates a powerful atomic bond which is resistant to cyclical temperature fluctuations and sharp, direct impact. For this reason, the SIFCO Process® has been widely adopted by naval shipyards across the US, UK and Japan, and is used on a wide range of components such as turbine casings, providing a metal-to-metal seal with less risk for thermal distortion than welding.
Clearly, one of the key reasons for bringing surface coatings in-house is to accelerate the process and minimize downtime. In this respect, selective plating scores highly. With tank plating, parts have to be removed and usually shipped to a sub-contract plating company. Extensive masking may also be necessary, adding time to the process. Furthermore, certain parts may be too large for the tank to accommodate. With thermal spray technology, the application of the coating cannot be precisely controlled, so further machining is often needed to achieve the correct specification, adding a step to the process. Selective plating avoids these complications. Compared with a deposition rate of 0.001″ per hour for tank plating, selective plating is up to 60 times faster (0.015” per hour), accelerating the process. It’s also more precise, potentially eliminating the need for post-process machining. Most significantly of all, it can be applied in situ with only minimal disassembly and masking. Rather than the parts coming to the process, the process is able to go to the parts – and this is perhaps the key benefit of selective plating.
3. Portability and Ease of Use
While selective plating can be applied in a dedicated workshop – or by an automated process – it can also be delivered as a truly mobile service. Unlike the relatively complex processes of tank plating and thermal spray, only four core elements are required: a power pack, plating tools, plating solutions and a trained operator. It can literally be carried on site, or on board, and applied in situ, helping enhance or repair OEM components or salvage worn or mis-machined parts. It is a relatively easy process, and certified technicians and engineers can take on the role after training, opening up the ways to upskill ‘tiger teams’ to add value to shipyard services.
4. Safety and Environmental
Following significant investment in R&D, SIFCO ASC has developed a range of well-engineered and proven deposits that deliver excellent performance, while posing minimal risk to either operator or the environment. In addition, selective plating consumes less energy and produces less effluent water waste, adding to its sustainable credentials. The SIFCO Process® is therefore a safe, sustainable and cost-effective technology.
Suitable for a wide variety of sizes – from inside diameters as small as 1/4″ through to components too large to be tank plated, the SIFCO Process® offers a high degree of versatility and is written into shipbuilding specifications, including the American Bureau of Shipping, Mil-STD 2197(SH) and NAVSEA. First approved by the US Navy over 50 years ago, it remains the market leading product, supported by a global business. This, coupled with ease and portability make it an ideal process for a wide range of components and on-board repairs, including large, hard-to-move components such as propeller shafts, bearing seats and turbine casings. Other components suitable for selective plating include propulsion components, hydraulics, and electrical and structural systems, so it is suitable for many marine applications.
Although the SIFCO Process® is typically a manual process, it can also be automated to meet the demands of higher volume plating applications, to include data logging and improved traceability. In automated applications, a computer program controls tooling and chemicals, while a robotic arm delivers consistent application during both pre-treatment and plating. Real-time data allows shipyards to monitor quality control while improving traceability and repeatability. Additionally, automation reduces ergonomic risk to the operator, limiting their exposure to chemicals used in the process.
Ultimately, cost will be the key driver in terms of shipyard investment, and many factors combine to make selective plating the process of choice. Requiring minimal equipment and space, it needs less capital investment in tools and personnel. Its portability means it can be used for large, difficult-to-move components such as propeller shafts, reducing the need for expensive disassembly and shipping of components. It provides a permanent and cost-effective repair, with minimal need for additional machining. It facilitates remanufacturing as an alternative option to replacing equipment, extending its useful life. It consumes less energy and chemicals than other technologies and – most critically – it accelerates turnaround to minimize equipment downtime and production delays.
Quality and Assurance
In addition to providing a superior and more consistent coating quality, the SIFCO Process® is easier and faster to apply, resulting in less downtime. Moreover, by having the process in-house or in situ, traceability is improved and risks inherent in the supply chain are reduced with less dependence on sub-contract plating. The net result is improved production flexibility and efficiency and a reduction in total product cost. Critically, the SIFCO Process® uses lower volumes of materials, minimizing EHS concerns. The process not only exceeds the fundamental requirements of shipbuilding manufacturing, and repair and maintenance processes, it also provides a full circle of benefits, including quality, durability, cost saving, portability and time saving.