Nickel Electrode Ø 6 mm (BMG-012) Short Description The Nickel Electrode Ø 6 mm is a high-quality anode made from nearly pure nickel, engineered for electroplating applications where controlled nickel ion release is essential. It delivers consistent, durable nickel deposits and is ideal for bath, pen and pad plating processes. Product Description Constructed from robust, corrosion-resistant nickel, this electrode offers excellent conductivity and uniform dissolution in the electrolyte. Using a nickel electrode helps maintain a stable nickel concentration in the bath, resulting in uniform deposits, enhanced layer properties and repeatable results. With a diameter of 6 mm and a length of approximately 95 mm, it fits standard electrode holders and plating setups. Typical Applications Nickel electroplating in various plating systems Bath, pen and pad plating techniques Corrosion protection layers and functional intermediate coatings Pre-treatment for subsequent precious metal plating Use in workshop, laboratory and production processes Key Benefits High chemical resistance: dissolves smoothly in electrolyte Stable current supply: supports reproducible plating outcomes Improved layer quality: even distribution and strong adhesion Long service life: durable material reduces frequent replacement Easy to use: fits common Ø 6 mm electrode holders Usage Instructions Preparation: Clean and degrease workpieces before plating. Setup: Install the nickel electrode as the anode, connect the workpiece as the cathode. Operation: Plate within recommended voltage and temperature ranges. Maintenance: Periodic cleaning extends electrode life and ensures consistent performance. Conclusion The Nickel Electrode Ø 6 mm is an essential component for efficient and reliable nickel electroplating, offering consistent performance for hobbyists, technicians and professional platers alike.

Nickel Electrolyte BMG-091.1 High-Quality Nickel Electrolyte for Electroplating Metal Surfaces Short Description The Nickel Electrolyte BMG-091.1 is a ready-to-use galvanic solution for electroplating decorative nickel layers on metal parts. It is suitable for beginners, workshops, and professional applications. Nickel plating improves corrosion resistance, enhances surface finish, and prepares the surface for further coatings such as gold or chrome plating. real-gold.de What Is This Nickel Electrolyte Used For? This nickel electrolyte is designed for electroplating a smooth, bright nickel coating onto metal objects to: provide a protective layer against corrosion improve surface appearance and wear resistance act as an intermediate layer before gold, silver, or chrome plating real-gold.de Typical applications include: Automotive and machinery parts Decorative metal components Restoration and repair projects Hobby and craft electroplating How Does Nickel Plating Work? (Simple Explanation) Electroplating uses electric current to deposit metal from a liquid solution onto a workpiece. Clean and degrease the metal surface thoroughly. Attach the workpiece as the cathode (negative terminal). Immerse both the workpiece and a nickel anode in the nickel electrolyte. Apply direct current; nickel ions in the solution are reduced and form a solid nickel layer on the workpiece. real-gold.de Proper surface preparation and correct electrical settings are key to achieving a smooth, shiny nickel finish. Advantages of Nickel Electrolyte BMG-091.1 Easy to use for beginners and advanced users Produces uniform, bright nickel coatings Ideal as a protective layer or base for further plating processes Works with common plating methods such as tank plating, brush plating, and pen plating real-gold.de Technical Parameters PropertyValue / RangeNotesElectrolyte TypeNickel electrolyteFor decorative nickel platingWorking Temperature15–60 °CRoom temperature operation possibleVoltage (Tank Plating)~2–6.5 V~4 V recommendedVoltage (Pen / Brush Plating)~3–6 V~4.5 V recommendedCurrent Density0.5–4 A/dm²Up to ~7 A/dm² with bath movementpH Value~3.5–4.5Correctable with dilute acidDeposition Rate~1.3 µm/min at 3 A/dm²Typical plating performanceTypical SubstrateSteel, copper, brass, other metalsClean and prepare surfaceRecommended AnodesNickel or platinumBest results with appropriate anode selection Practical Application Notes Clean the workpiece meticulously before plating to ensure good adhesion. real-gold.de Nickel layers provide an excellent barrier layer for later gold, silver, or chrome plating. real-gold.de Slight movement of the electrolyte bath can help create a more uniform nickel layer. real-gold.de Nickel plating is widely used because nickel adheres well to many metals and provides a good base for further finishes. realgold-shop.de Safety Information Nickel electrolytes contain nickel compounds, which can cause allergic skin reactions and other health effects if mishandled: Wear protective gloves and eye protection Avoid skin and eye contact Work only in well-ventilated areas Do not inhale vapors or mists Keep out of reach of children Follow all instructions and the safety data sheet (SDS) real-gold.de Scope of Delivery Nickel Electrolyte BMG-091.1 Quantity according to selected size Important Notice This product is not a toy and requires basic electroplating knowledge. For best results, combine this electrolyte with proper pre-treatment and post-treatment products. Continuous monitoring of parameters such as voltage, current, and bath condition will improve plating quality

Nickel Remover / Nickel Stripper SW10014 Effective chemical solution for removing electroplated nickel layers Short Description The Nickel Remover / Nickel Stripper SW10014 is a chemical solution designed for the fast, controlled, and efficient removal of electroplated nickel layers from metal surfaces. It is ideal for workshops, electroplating labs, hobby projects, or professional applications where existing nickel coatings need to be removed before re-plating or surface refinishing. Applications The nickel stripper is used to: Safely and uniformly remove electroplated nickel layers Prepare metal surfaces for re-plating Remove damaged, uneven, or aged nickel layers Restore metal parts prior to polishing or coating Use in workshops, small-scale production, and professional electroplating processes How Nickel Removal Works (Simple Explanation) Mechanical removal of nickel is difficult or may damage the base metal. The nickel remover uses a chemical reaction that selectively dissolves the nickel layer without significantly affecting the underlying metal (e.g., copper, brass, steel) when applied correctly: Preparation: Degrease and clean the workpiece. Immersion: Fully submerge the nickel-plated part in the solution. Dissolution: Chemical interaction dissolves the nickel layer. Completion: After removal, rinse parts thoroughly with water. Benefits of Nickel Remover SW10014 Efficient removal of electroplated nickel layers Selective toward nickel, gentle on most base metals Prepares surfaces for subsequent electroplating or finishing Easy bath application – no mechanical stripping required Suitable for hobby, workshop, and professional use Technical Parameters PropertyValue / RangeProduct typeNickel Remover / Chemical Nickel StripperApplicationChemical removal of nickel layersOperating temperatureRoom temperature to slightly warmedBath typeNon-electrolytic chemical processSuitable layersElectroplated nickelBase metalsCopper, brass, steel, stainless steel (after pretreatment)Reaction timeDepends on layer thickness and conditionLayer thicknessAll standard electroplated nickel layersSafety precautionsProtective equipment requiredStorageCool, dry, tightly closed container Note: Values are for general guidance and may vary depending on layer and application. Practical Application Tips Preparation: Degrease and clean the workpiece before immersion for best results. Nickel Removal in Dip Bath: Fully submerge the workpiece in the solution. Monitor reaction time – nickel dissolves depending on thickness and temperature. Remove the workpiece once the nickel layer is dissolved. Post-treatment: Rinse thoroughly with clean water to remove all residues. Degrease and activate before applying new coatings if required. Safety Information The nickel remover is a strong chemical solution that must be handled carefully: Wear chemical-resistant gloves, safety glasses, and protective clothing Avoid contact with skin and eyes Rinse immediately with water if contact occurs Work in well-ventilated areas only Do not ingest – seek medical attention if swallowed Keep out of reach of children Dispose of waste according to local chemical disposal regulations Conclusion The Nickel Remover / Nickel Stripper SW10014 is a reliable chemical solution for efficiently and controlled removal of electroplated nickel layers. It is ideal for workshops, hobbyists, and professional electroplating facilities that need to prepare surfaces for re-plating or further processing without mechanical effort or damage to the base material. The chemical dip bath application ensures uniform, gentle nickel removal and simplifies subsequent processes.

Nickel Industrial Electrolyte BMG‑223 Professional nickel plating solution for fast deposition and durable protective layers Short Description The Nickel Industrial Electrolyte BMG‑223 is a high-performance electroplating solution designed for the electrolytic deposition of nickel on conductive metal surfaces. With a high nickel concentration of approx. 60 g/L, this electrolyte enables rapid deposition of bright, mirror-like nickel layers. It is suitable for tank, brush, and pen/peg plating and provides good corrosion, chemical, and wear resistance. Note: Due to the high nickel content, this electrolyte is sold only to commercial customers and requires a declaration of end use. Applications The Nickel Industrial Electrolyte is used to: Produce decorative nickel layers with high gloss Create protective and wear-resistant coatings Provide corrosion-resistant surfaces Serve as barrier or adhesion layers for subsequent plating processes such as gold or chrome Operate in tank, brush, or pen/peg plating systems Nickel coatings also offer good solderability and are standard in many industrial applications. How Nickel Plating Works (Simple Explanation) Nickel plating is an electrolytic process, where nickel ions are reduced and deposited onto the workpiece: Preparation: Remove grease, oils, rust, and other contaminants. Immersion: The workpiece acts as the cathode (negative pole) in the electrolyte. Plating: Applying direct current, nickel ions migrate and form a metallic nickel layer on the surface. Finishing: Rinse and dry – the result is a bright, durable nickel finish. Benefits of Nickel Industrial Electrolyte BMG‑223 High deposition rate due to high nickel concentration Bright, mirror-like surface Corrosion- and wear-resistant layers Suitable for tank, brush, and pen/peg plating Versatile for decorative and technical applications Can be used as a base or barrier layer for multi-layer plating Technical Parameters PropertyValue / RangeElectrolyte typeNickel plating solutionNickel contentapprox. 60 g/LOperating temperature15–60 °CVoltage (tank)approx. 2.5–4.5 V (recommended 3–3.5 V)Voltage (brush/pen)approx. 3–6 V (recommended 4.5 V)Current density0.5–4 A/dm² (up to 7 A/dm² with bath movement)pHapprox. 3.5–4.5Deposition rateapprox. 1.3 µm/min at 3 A/dm²Anode materialGraphite or platinum Note: Values serve as practical guidelines; actual results may vary depending on equipment and workpiece. Practical Application Tips Preparation: Thoroughly clean and degrease the workpiece. For stainless steel, a nickel strike or activation step improves adhesion. Plating: Maintain electrolyte within recommended temperature, voltage, and current density. Ensure uniform movement for consistent layer thickness in brush/pen plating. Post-treatment: Rinse parts with clean water after plating. Dry and optionally lightly polish for maximum gloss. Safety Information Nickel plating solutions contain chemical components that must be handled safely: Wear gloves, safety glasses, and protective clothing Avoid contact with skin and eyes Do not inhale fumes or aerosols Rinse immediately with water if contact occurs Work only in well-ventilated areas Do not ingest; keep out of reach of children Dispose of waste according to local chemical regulations Conclusion The Nickel Industrial Electrolyte BMG‑223 is a high-performance nickel plating solution for professional electroplating. It produces bright, durable nickel layers at high deposition rates and is suitable for tank, brush, or pen/peg plating in technical, decorative, and industrial applications. Its high nickel concentration ensures efficient results with uniform finishes, making it ideal for commercial and industrial users.

Nickel Strike / Bonding Nickel SW10031.2 Fast-acting bonding nickel electrolyte for improved adhesion of electroplated layers Short Description The Nickel Strike / Bonding Nickel SW10031.2 is an electroplating solution specially designed to deposit a thin but highly adhesive nickel layer on metal surfaces. This intermediate layer acts as a bonding agent between the base metal and subsequent electroplated layers (e.g., nickel, chrome, gold), ensuring improved adhesion, increased layer stability, and uniform coating quality, even on difficult-to-wet substrates. Applications The bonding nickel is used to: Enhance adhesion between the base metal and subsequent layers Prepare surfaces for electroplating systems (nickel, chrome, gold, etc.) Facilitate plating on challenging metals or surfaces Provide a uniform base for later coatings, especially on oxidized or passivated metals Prevent layer delamination or adhesion problems during plating How Bonding Nickel Works (Simple Explanation) To achieve strong adhesion, subsequent electroplated layers need a reliable interface with the substrate. The Nickel Strike deposits a very thin, active nickel layer before applying further coatings. This layer acts as a bonding intermediary, improving both chemical and metallic adhesion between the base metal and the overlying layers: Preparation: Clean, degrease, and optionally lightly activate the surface Bonding Nickel Plating: Apply a short electroplating cycle to form the thin adhesion layer Subsequent Coating: Immediately plate the next layers over the bonding nickel This method ensures significantly better adhesion, particularly on challenging substrates. Benefits of Nickel Strike / Bonding Nickel SW10031.2 Improves adhesion of subsequent electroplated layers Forms a thin, uniform bonding layer Reduces delamination and peeling Ideal for preparing oxidized or passive metals Suitable for tank plating, brush plating, and pen plating Effective on a wide range of base metals after proper pretreatment Technical Parameters PropertyValue / RangeElectrolyte typeBonding Nickel / Nickel Strike solutionOperating temperatureapprox. 20–30 °CVoltage (tank plating)approx. 1.5–4 VVoltage (brush/pen plating)approx. 3–7 VCurrent densityapprox. 1–3 A/dm²Anode materialNickel or graphiteLayer thicknessvery thin (adhesion layer, not full build-up)Base metalsStainless steel, copper, brass, steel, zinc (after pretreatment) Note: Values serve as practical guidelines and may vary depending on substrate and application. Practical Application Tips Preparation: Clean and degrease the workpiece thoroughly Optionally lightly activate to remove oxides Bonding Nickel Plating: Connect the workpiece as cathode Set voltage and current according to recommended parameters Plate only until the adhesion layer is formed (usually brief) Subsequent Layers: Plate additional layers immediately to avoid oxidation of the bonding nickel Safety Information Wear chemical-resistant gloves, safety glasses, and protective clothing Avoid contact with skin and eyes Rinse thoroughly with water if contact occurs Work in well-ventilated areas only Do not ingest; keep out of reach of children Conclusion The Nickel Strike / Bonding Nickel SW10031.2 is a reliable solution for improving adhesion in electroplating systems. By forming a thin, active nickel layer as an intermediate coating, subsequent layers become more uniform and durable. It is suitable for hobbyists, workshops, and professional electroplating facilities, especially when plating challenging metals or complex coating systems.

  Nickel Anode / Plate Electrode (SW10050M) Short Description The Nickel Anode / Plate Electrode is a high‑purity, flat nickel sacrificial anode designed for electroplating applications. It provides controlled nickel ion supply to the plating bath, ensuring stable processes and uniform nickel deposits — perfect for bath, pen and pad plating setups.  Product Description This nickel plate electrode is made from high‑purity nickel (approx. 99.8 %) and serves as a sacrificial anode in electroplating. Its flat, broad design offers a large contact area in the electrolyte, promoting even current distribution, consistent metal release and reproducible plating results.  Nickel anodes are commonly used to maintain a stable nickel ion concentration in the bath, reduce porosity, and act as a barrier layer before additional coatings like gold or chrome. Typical Applications Electroplating and nickel plating of metal parts Bath electroplating for decorative and protective nickel layers Barrier layers before further plating processes Workshop, laboratory and production electroplating Use in corrosion‑resistant contact applications  Key Benefits High purity (~99.8 %): ensures clean nickel ion release Large surface area: promotes even current distribution in the bath Stable plating conditions: supports reproducible nickel deposits Improved adhesion and quality: suitable for both decorative and functional finishes Easy to use: flat shape fits standard plating tanks  Usage Instructions Preparation: Clean, degrease and activate workpieces before plating. Setup: Place the nickel anode as the positive electrode (anode) in the electrolyte. Power connection: Connect the nickel anode to the positive terminal and the workpiece to the negative terminal (cathode). Plating: Operate within the recommended voltage and temperature ranges for your nickel electrolyte to achieve uniform layers. Maintenance: Periodic cleaning after extended use helps maintain performance. Conclusion The Nickel Anode / Plate Electrode is a robust and versatile accessory for nickel electroplating processes, offering a wide active surface, high purity and stable ion supply — ideal for bath, pen and pad plating across workshop, lab and production environments.