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Elsyca V-PIMS
A revolution in digital PIMS combining Pipeline Corrosion Integrity Management System (PIMS) and computational modeling capabilities
Elsyca IRIS
Deep analysis of AC threats and design and engineering of efficient mitigation systems
Elsyca CatPro
Graphical simulation platform for cathodic protection and DC stray current analysis of pipeline networks
Elsyca CPManager
3D CAD-based software simulation platform for the design and analysis of cathodic protection installations
Elsyca ACTA
Unique engineering service offering accurate, disambiguated, and tailored risk ranking report of pipeline networks
Elsyca PlatingManager
Leverage a digital twin of your plating line to predict plating performance and increase manufacturing capacity
Elsyca CuBE
Avoid signal integrity problems during the design phase using an upfront, accurate and easy DFM test
Elsyca PCBBalance
The world’s only PCB DFM software that applies automated and optimized copper balancing to your PCB design and panel layout.
Elsyca PCBPlate
State-of-the-art graphical simulation platform for enhancing the plating performance of your PCB panel and pattern plating processes.
Elsyca ECoatMaster
CAD independent software platform for the simulation of the automotive electrocoating process of a body-in-white (BIW).
Elsyca EPOS
Simulate the performances of electropolishing processes based on a virtual mock-up of the electropolishing cell.
Elsyca AnodizingManager
State-of-the-art graphical simulation platform for analyzing the production performance and quality of anodizing processes.
Elsyca CorrosionMaster
CorrosionMaster identifies corrosion hot spots and predicts corrosion rates, enabling engineers to look at alternative material combinations and/or coating systems, or investigate corrosion-mitigating measures.
Elsyca LeakageMaster
Improve vehicles interior acoustic comfort by performing upfront virtual smoke tests.
Elsyca MeshingMaster
Automatically creates meshes for a variety of applications such as acoustics, CFD, thermal analysis, etc
Elsyca XPlorer
Interactive simulation results viewer for Finite Elements results

Challenges in Zinc-Nickel plating operations

Blog Post

Challenges in Zinc-Nickel plating operations

Zinc Nickel Plating: Challenges

A wide range of Zinc/Nickel bath types are commercially available. The majority of these baths has been developed to tackle the needs of the automotive industry, such as ductile coatings, high throwing power and high plating speed. Only in recent years, some bath suppliers have introduced Low Hydrogen Embrittlement (LHE) baths specifically designed for the aerospace market.

Besides layer thickness, the electroplating of alloys has the additional challenge of maintaining the metal composition within the specification window. In the case of Zn/Ni, corrosion protection increases with nickel content up to a certain level, above which the alloy becomes nobler than the substrate and loses its sacrificial function. Plating performance can vary depending of the type and age of the bath making it harder to ensure a reliable end product. Although the root problem is a non-uniform current density distribution, often the practical action relies on overplating by increasing the imposed current or plating process time. This sort of action however does not often solve the problem of failing to meet layer thickness specifications, moreover these actions lead to excessive waste of capacity and resources, possibly also to increased scrap rates.

Elsyca's solution

Elsyca's Advanced Engineering Services (AES) offer different solutions for Zn/Ni plating. Laboratory bath characterization captures the electrochemical behavior of a plating bath sample. Such a study provides valuable information on the electrochemical behavior of a plating bath and often explains the origin of unexpected plating defects. Frequently ignored on the plating shop floor, flow conditions can dictate important plating defects and for that reason flow is an important factor during the laboratory characterization. Many surface properties, such as alloy composition, roughness, hydrogen embrittlement, etc. can be correlated with current density and flow conditions. This way, together with current density and layer thickness distribution, also different surface properties can be predicted from Elsyca's simulation solution. 

Plateability analysis is a simple and fast diagnostic tool which can be used by an OEM during component design phase. Foreseeing and minimizing plating problem areas not only reduces the production cost of the component but also reduces the chance of future warranty problems.

A Plating Feasibility Analysis provides a quick plating configuration diagnostic. Either for newly designed tooling configurations or for tooling configurations that have migrated from cadmium plating, the performance of a tooling configuration can be quickly evaluated, even before the Zn/Ni bath becomes operational.

Either for rack plating or plating of individual components, Computer Aided Engineering (CAE) projects make use of Elsyca's solution to iteratively design or optimize the part load and / or tooling configuration. Optimization generally starts with fine tuning the part arrangement and positioning. In case tooling is required for meeting layer thickness specifications, current robbers, auxiliary anodes and insulating shields can be iteratively defined and improved based on simulation results. For more advanced tooling configuration as developed for landing gears, different rectifiers can be integrated in the electrical circuit, each feeding a separate sub-group of conforming anodes.

A vast number of tooling sets for Zn/Ni has been designed both by Elsyca's Advanced Engineering Services (AES) and customers using in-house Elsyca's software.

Both for aerospace components or automotive parts, Elsyca has developed a vast number of Zn/Ni plating tooling configurations. The practical limitations of both industries, although very different, are a critical factor to the Elsyca tooling design. While automotive platers prefer robust and operator-friendly tooling for their racks, the stricter specifications and lower part volumes in the aerospace sector call for more complex, thus more performing tooling solutions.

For projects that involve the CAE of an optimized tooling configuration, Elsyca also delivers the Bill of Materials and the CAD of the entire rack skeleton or tooling configuration (including supporting fixtures), depending on the application.

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