Kobalt

Graphite Electrode Ø 6 mm (BMG‑010) Short Description The Graphite Electrode Ø 6 mm (BMG‑010) is a durable, chemically inert electrode rod made from high‑density fine‑grain graphite. Designed for use as an anode or electrode in electroplating processes, it is ideal for bath, pen, and pad plating applications where a clean, metal‑free current supply is essential.  Product Description This graphite electrode is manufactured from highly compressed fine‑grain graphite, which dissolves only slowly in electrolytes. Unlike metallic anodes, graphite does not shed contaminating metal particles, ensuring cleaner coatings and higher deposit quality.  The 6 mm diameter rod, with an approximate length of 95 mm, fits standard plating fixtures, holders, and pen plating tools, making it easy to integrate into various electroplating setups Typical Applications Electroplating processes (e.g., silver, gold, copper, black nickel, chrome, white bronze) Pen, bath, and pad plating Activation and pre‑treatment steps Counter‑electrode or anode use in a wide range of electrolytes Situations where metal contamination must be avoided Key Benefits Chemically inert: prevents unwanted metal ion contamination in the plating bath. Versatile: compatible with most electroplating chemistries and techniques.  Slow wear: dissolves gradually, extending service life. Affordable: cost‑effective solution for frequent use.  Easy to use: fits common plating holders and pen plating tools. Material & Dimensions Material: High‑density fine‑grain graphite Diameter: 6 mm Length: approx. 95 mm (other lengths may be available)  Practical Tips Ensure electrodes are clean and free of oils before use.  Replace electrodes periodically as they slowly dissolve during electroplating. Graphite’s mild warming effect can help stabilize bath temperature during plating. Conclusion The Graphite Electrode Ø 6 mm is an effective and reliable anode/electrode for a wide range of electroplating applications. Its inert behavior, broad compatibility, and metal‑free current delivery make it a solid choice for hobbyists, workshops, labs, and professional plating operations.

Graphite Plate Electrode 50 × 80 mm (SW10028) Short Description The Graphite Plate Electrode 50 × 80 mm is a robust, high‑density fine‑grain graphite electrode designed for bath electroplating and electrolysis applications. It offers excellent electrical conductivity, chemical resistance and mechanical stability, making it ideal for use as a working surface or shielding plate in a variety of electroplating setups.  Product Description This graphite plate is made from isostatically pressed, high‑density graphite, known for its superior conductivity and resistance to chemical corrosion and heat. With a thickness of 4 mm, it is suitable for bath plating, electrolytic cleaning, degreasing, gold, silver and chrome plating. Its flat and wide design makes it especially useful as a counter or shielding surface in plating baths — even under elevated temperatures.  Graphite electrodes are widely used because, unlike some metal anodes, they do not release contaminant metal ions into the electrolyte, which can otherwise disturb coating quality.  Typical Applications Bath electroplating for chrome, copper, bronze, gold or silver coatings Electrolytic cleaning and surface preparation Degreasing and activation prior to plating Shield or working surface in electroplating setups High temperature processes where stability is required Key Benefits Large active surface area: perfect for bath and electrolytic applications High electrical conductivity: ensures even current distribution Chemical resistance: suitable for a wide range of electroplating baths Mechanically durable: resistant to wear and tear Versatile: can serve as anode, counter or shield plate Usage Instructions Place the plate directly into the electrolyte or use it as a counter/shield surface. Ensure the graphite is clean and dry before use to maximize conductivity. Remove buildup after extended operation to maintain performance. Due to the material dissolving slowly in electrolytes, periodic replacement may be required.  Conclusion The Graphite Plate Electrode 50 × 80 mm is a versatile and reliable component for electroplating processes, offering a large conductive area, chemical resilience and stable performance that enhances efficiency and consistency in a wide range of plating applications.

Cobalt Electrolyte SW10035M – Hardness, Protection & Premium Metal Finish The Cobalt Electrolyte SW10035M is a high-performance plating solution designed for depositing hard, wear-resistant and visually appealing cobalt coatings using bath plating, pen plating and tampon plating techniques. The deposited layers are characterized by high hardness, excellent corrosion resistance and an elegant, slightly darker metallic appearance, making this electrolyte ideal for both technical applications and decorative finishes. Key Benefits at a Glance Highly wear-resistant and durable coatings Excellent corrosion resistance Elegant, slightly darker metallic finish Strong adhesion on suitable substrates Suitable for: Bath electroplating Pen plating Tampon plating Ideal for technical and decorative applications Uniform and controlled deposition Applications Tool coating & wear protection Jewelry and design surfaces Precision engineering & fine mechanics Repair and selective plating Technical surface finishing Technical ParametersPropertyValue / RangeElectrolyte typeCobalt electroplating solutionpHSlightly acidic to neutral (optimized for plating)Operating temperature20–35 °CVoltage (tank plating)1.5–4.0 VVoltage (brush/pen plating)3–7 VCurrent density0.5–3 A/dm²Anode materialGraphite or cobalt-alloy anodesTypical layer thickness2–8 µm (depending on application)Surface appearanceBright metallicLayer hardnessMedium to highConductivityGoodApplicationsDecorative, electronics, technical partsNote: Values are practical guidelines; actual results may vary depending on equipment, workpiece geometry, and process conditions. Application Guide (Beginner to Professional) 1. Surface Preparation (critical for adhesion & durability) Thoroughly degrease the workpiece Activate/pickle depending on base material Rinse with distilled water Do not touch the surface afterwards 2. Bath Plating (uniform protective coating) Fully immerse the workpiece Apply DC current within recommended range Plate according to desired thickness Agitation improves uniformity 👉 Ideal for consistent, durable coatings 3. Pen Plating (precise application) Apply electrolyte via felt or sponge tip Move evenly across the surface Gradually increase voltage  Perfect for repairs and detailed areas 4. Brush  Plating (flexible & controlled) Soak tampon with electrolyte Apply evenly to the surface Maintain consistent pressure and movement Ideal for selective applications Pro Tips for Best Results Clean surface = maximum adhesion Lower current density → finer layers Higher current density → faster build-up (use carefully) Consistent movement prevents uneven deposits Maintain stable temperature Conclusion The Cobalt Electrolyte SW10035M is the ideal choice for achieving hard, durable and visually refined cobalt coatings. Whether for technical performance or decorative finishing, it delivers consistent, professional-grade results. Practical Application Tips Surface Preparation: Clean and degrease workpieces thoroughly. Activate surfaces if needed to remove passive oxides. Cobalt Plating: Operate the electrolyte according to recommended parameters. Ensure even movement in brush/pen plating for uniform layers. Maintain proper distance between anode and workpiece for consistent deposition. Post-treatment: Rinse with clean water after plating. Dry and, if desired, gently polish to enhance shine. Safety Information Cobalt electroplating solutions contain chemical components and must be handled carefully: Wear gloves, safety glasses, and protective clothing Avoid contact with skin and eyes Rinse immediately with water if contact occurs Work in well-ventilated areas Do not ingest; keep out of reach of children Dispose of waste according to local chemical regulations Proper safety measures and protective equipment are essential for safe handling.

 Nickel Plate Electrode (Nickel Anode) – High Purity Nickel for Precision Electroplating Consistent Nickel Plating Starts with the Right Anode The nickel plate electrode is a high-quality pure nickel anode (~99.8%) designed for reliable and efficient electroplating processes. It ensures a stable supply of nickel ions in the plating bath, enabling uniform, dense, and high-adhesion nickel coatings for professional applications. Key Benefits at a Glance ✔ High purity (~99.8% nickel) for consistent performance ✔ Uniform nickel ion release for stable plating conditions ✔ Improves coating quality and adhesion ✔ Reduces defects and uneven deposition ✔ Suitable for bath plating and brush plating ✔ Professional-grade electroplating material Why a Nickel Anode is Essential During electroplating, the nickel anode plays a critical role: dissolves into the electrolyte releases nickel ions into the solution enables continuous metal deposition on the workpiece → Result: smooth, uniform, and durable nickel coatings Typical Applications  Electroplating and surface finishing  Jewelry manufacturing and gold plating preparation  Industrial metal coating and protection  Restoration and repair work Nickel coatings are widely used for: corrosion protection barrier layers before gold or chrome plating decorative and functional finishes Technical Specifications Material: pure nickel Purity: approx. 99.8% Ni Form: plate electrode Thickness: approx. 0.5 mm Application: electroplating anode How to Use (Step-by-Step Guide) 1. Preparation Clean and degrease the workpiece thoroughly Activate surface if required 2. Installation Connect nickel plate as anode (positive pole) Connect workpiece as cathode (negative pole) 3. Electroplating Process Immerse in nickel electrolyte Apply current according to plating system Ensure even positioning and movement 4. Post-Treatment Rinse the plated part Proceed with further coatings if needed Pro Tips for Best Results ✔ Use sufficient anode surface area for uniform deposition ✔ Maintain proper anode positioning ✔ Clean anode regularly for consistent performance ✔ Use compatible nickel electrolyte Common Issues & Solutions Uneven coating → incorrect anode placement Slow deposition → insufficient nickel ion supply Rough surface → poor current distribution Unstable process → low-quality anode Why Choose This Nickel Plate Electrode? Compared to lower-quality alternatives, this electrode offers: high chemical purity consistent nickel dissolution reliable and reproducible plating results professional-grade performance

Product description "Graphite plate electrode". Graphite plate electrode for bath electroplating   highly compressed ("isostatically pressed"), wear-resistant fine-grain graphite excellent conductivity and chemical resistance plate thickness 4 mm available in sizes 50 x 80 mm, 100 x 150 mm and 170 x 200 mm for bath electroplating and electrolysis, use: electrolytic cleaning, gold plating, silver plating, chrome plating, degreasing as working or shielding surface for high temperature applications   Graphite electrodes are generally used in plating with chrome, copper, white bronze, rose gold, green gold, black chrome, black ruthenium, black rhodium, activation.   Actually, the graphite electrode is ultimate for all coatings.   The advantage is that in some coatings with stainless steel electrodes, the dislodged metal parts disturb the coating. This does not happen with graphite electrodes, because graphite   also filters out contaminated liquids.  They also need to be replaced occasionally as they slowly dissolve during coating.      Features Used for Doesn’t contaminate Cleaner Activating and electro-cleaning  Its resistive properties help to heat the solution you’re plating with Chromium plating, which needs to be plated at 25 degrees celsius; its natural heating action helps to maintain the solution’s optimal temperature Low cost Can be used for all plating processes but carbon electrodes deteriorate over a period of time and discolour swabs (discolouration does not affect the plating quality)  

Product description "Graphite plate electrode". Graphite plate electrode for bath electroplating   highly compressed ("isostatically pressed"), wear-resistant fine-grain graphite excellent conductivity and chemical resistance plate thickness 4 mm available in sizes 50 x 80 mm, 100 x 150 mm and 170 x 200 mm for bath electroplating and electrolysis, use: electrolytic cleaning, gold plating, silver plating, chrome plating, degreasing as working or shielding surface for high temperature applications   Graphite electrodes are generally used in plating with chrome, copper, white bronze, rose gold, green gold, black chrome, black ruthenium, black rhodium, activation.   Actually, the graphite electrode is ultimate for all coatings.   The advantage is that in some coatings with stainless steel electrodes, the dislodged metal parts disturb the coating. This does not happen with graphite electrodes, because graphite   also filters out contaminated liquids.  They also need to be replaced occasionally as they slowly dissolve during coating.      Features Used for Doesn’t contaminate Cleaner Activating and electro-cleaning  Its resistive properties help to heat the solution you’re plating with Chromium plating, which needs to be plated at 25 degrees celsius; its natural heating action helps to maintain the solution’s optimal temperature Low cost Can be used for all plating processes but carbon electrodes deteriorate over a period of time and discolour swabs (discolouration does not affect the plating quality)