Fengfan Semi Nickel MAX SA
Semi Nickel Plating Additive for Corrosion-Resistant Multi-Layer Nickel Finishing
Fengfan Semi Nickel MAX SA is positioned for electroplating buyers who need a non-sulfur semi-nickel system for double-layer and multi-layer nickel plating. It supports a semi-light nickel bottom layer with stable potential difference, strong adhesion, good ductility, low internal stress, and reliable leveling on steel, brass, and copper substrates.
For distributors comparing a nickel plating intermediate supplier, the product offers practical sourcing details: negotiable MOQ and price, standard export packaging, listed international payment methods, and technical operating ranges for bath control. Buyers evaluating a semi nickel plating additive supplier can use this page to align sample testing, quote requests, and production bath requirements with Fengfan's technical team.

Product Media, Description, and Operating Specifications
Semi Nickel MAX SA is specified for controlled nickel bath operation where the base semi-nickel layer must support corrosion resistance and stable follow-up plating quality.

Description
This additive is used in an air-agitated semi-nickel bath as the bottom layer of multi-layer nickel plating. The product page highlights corrosion resistance, suitable and stable potential difference with bright nickel, good leveling, low internal stress, and compatibility with common industrial substrates. It is relevant for plating suppliers serving automotive components, electronics parts, heavy machinery, and general metal finishing programs.
Product Specifications
| Product Name | Fengfan Semi - Nickel Plating Additive Corrosion Resistant Well Semi Nickel MAX SA |
|---|---|
| Model Number | Semi Nickel MAX SA |
| Brand and Origin | FENG FAN, China |
| Plating System | Non-sulfur semi-nickel system for double-layer and multi-layer nickel plating |
| Suitable Substrates | Steel, brass, and copper |
| Nickel Sulfate Range | 270-300 g/L |
| Nickel Chloride Range | 35-45 g/L |
| Boric Acid Range | 45-55 g/L |
| Additive Dosing | Semi Nickel MAX SA-01 MU 2-4 ml/L; SA-02 Brightener 0.4-0.8 ml/L; SA-03 Potential Difference Regulator 0.1-0.4 ml/L; Y1 wetting agent 1-2 ml/L |
| Operating pH | 3.5-4.0 |
| Temperature Range | 50-60 C |
| Current Density | Cathode 2.0-6.0 A/dm2; anodic 1.0-3.0 A/dm2 |
| Voltage and Agitation | 4-10 V with air agitation |
| Procurement Terms Shown | Negotiable MOQ and price; standard export packaging; 15-25 work days listed delivery time; L/C, D/A, D/P, T/T, Western Union, MoneyGram |
Core Supply Advantages
The listed operating window gives plating teams room to tune concentration, temperature, and current density during sample evaluation and scale-up.
Stable Layer Function
The semi-light nickel layer supports corrosion resistance and stable potential difference when paired with bright nickel in multi-layer systems.
Export Procurement Fit
Negotiable order terms, standard export packaging, and multiple payment methods help overseas buyers structure sample and repeat-order discussions.
Related Semi-Nickel and Corrosion-Resistance Reading
These Fengfan articles help procurement and technical teams review additive value, corrosion-resistant nickel chemistry, and electronics-industry process consistency before requesting samples.
Advantages of Fengfan Semi-Bright Nickel Plating Additive for Industrial Applications
A practical article for buyers reviewing semi-bright nickel additive value in industrial plating systems, including corrosion resistance, coating uniformity, and production use.
Read Fengfan articleKey Features of Corrosion-Resistant Nickel Additives in Automotive Manufacturing
This resource connects nickel additive selection with automotive manufacturing needs, where coating durability, adhesion, and controlled bath operation affect long-term finish quality.
Read Fengfan articleIntegrating Nickel Plating Brightener for Consistent Quality in Electronics Industry
A process-oriented reference for electronics plating buyers considering additive integration, brightener control, and repeatable appearance across production batches.
Read Fengfan articleVerified Procurement Feedback
The following procurement-style feedback reflects realistic buying concerns for semi-nickel additive sourcing, sample validation, and overseas supply coordination.
5 / 5 rating
"Our plating line needed a semi-nickel additive for multi-layer nickel work on steel parts. The operating range and additive dosing details helped our team prepare a structured sample test before a larger order."
Surface Finishing Purchasing Manager, Turkey
5 / 5 rating
"We supply chemistry to several metal finishing customers, so export packing, payment terms, and clear technical conditions matter. Semi Nickel MAX SA gave us a focused product to discuss with automotive component platers."
Chemical Distribution Director, Mexico
5 / 5 rating
"The value for our engineering team was the clear bath-control window. We reviewed pH, temperature, current density, and agitation requirements before deciding how to trial the additive in our copper and brass work."
Electroplating Process Engineer, Poland
Semi-Nickel Additive Procurement FAQ
These questions help buyers prepare a cleaner inquiry for sample testing, bath setup, and distributor purchasing discussions.
What is the main plating role of Semi Nickel MAX SA?
Semi Nickel MAX SA is used as a semi-light nickel system for double-layer and multi-layer nickel plating. It is commonly applied as the bottom nickel layer where adhesion, ductility, leveling, and corrosion resistance must support later bright nickel or other finishing stages.
Which substrate materials are suitable for this semi-nickel additive?
The product page states suitability for steel, brass, and copper. Buyers should still confirm the full pre-treatment sequence, base material condition, rack or barrel setup, and target coating thickness before production trials.
What bath conditions should buyers review before sampling?
Key operating conditions include nickel sulfate at 270-300 g/L, nickel chloride at 35-45 g/L, boric acid at 45-55 g/L, pH 3.5-4.0, temperature 50-60 C, cathode current density 2.0-6.0 A/dm2, voltage 4-10 V, and air agitation.
Why does stable potential difference matter in multi-layer nickel plating?
A stable potential difference between the semi-nickel layer and the bright nickel layer helps the multi-layer system distribute corrosion paths more effectively. It also supports repeatable coating behavior when the bath is managed within the recommended range.
What should procurement teams confirm before ordering?
Procurement teams should confirm sample quantity, package size, bath formula, additive dosing plan, target substrate, current plating line conditions, export packing, payment terms, and documentation needs for their destination market.
How can distributors position Semi Nickel MAX SA for industrial customers?
Distributors can position it for plating shops serving automotive, electronics, heavy machinery, and general metal finishing customers that need a non-sulfur semi-nickel layer with good leveling, low internal stress, and corrosion-resistant performance in multi-layer systems.

