Phosphorised Copper Balls

Phosphorised Copper Balls
Price : INR 520.00 / Kilogram
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Business Type Manufacturer, Exporter, Supplier, Retailer, Wholesaler, Distributor, Importer
Country of Origin India
Type Copper Balls
Material Copper
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Preferred Buyer From

Location Worldwide

Product Details

Shape
Round
Color
Red, Dark Brown
Feature
Perfect Shape, Good Quality, Fine Finishing, Eco Friendly, Durable, Superior Finish
Pattern
Plain
Condition
New
Size
As Per Requirement
Brand Name
Jams Copper
Application
Electronic Components Connecting, Electroplating
Purity
99.99 %
Payment Terms
L/C, D/A, D/P, T/T

Product Description:Phosphorous Copper Balls (Cu-DHP) finds usage in the plating of Printed Circuit Boards. These balls are available in Copper Ingots, Copper Cathodes and Electrolytic Copper options with all copper forms containing in it least 99.9% copper. Free from impurities, these provide the safeguard from contamination of electroplating solutions as well as a Co deposit on the cathode. Further, these are also available in suitable metallurgical condition to dissolve uniformly.General Specifications: Size - Oval - 80mm x 30mm; Ball minuscule 25mm, minuscule 38mm, minuscule 50mm or as per customer requirement Material Standard- ASTM B265, Grade 5, Grade 9 Shape- Oval, Ball Weight - per foot Application Areas: Electroplating Applications Rotogravure Electroforming Decorative Printed Circuitry Electrical Ground Rod Electro-forming Other functional plating applications.   Jans Copper Pvt Ltd is one of the leading Copper Ballss, Copper Balls & Copper Nuggets manufacturer and supplier in India. Jans Copper Pvt Ltd's Copper Ballss, Copper Balls & Copper Nuggets are manufactured in accordance with the defined international standards. The raw material that is used to manufacture SIMCO copper products are LME grade ‘A’ cathodes of purity greater than 99.99% copper resulting in higher conductivity, crack free extrusion, excellent finish and longer life.   Available Sizes As per customer’s requirement Available Grades ETP, OFC, Phosphorised Copper Plating / Coating Bare Additional Specifications / Details Available in all forms i.e. Oval, Slabs, Balls, Rods, Nuggets, etc. Applications / Uses Printed circuit boards, Rotogravure, Electroforming, etc. Application Areas: Electroplating Applications Rotogravure Electroforming Decorative Printed Circuitry Electrical Ground Rod Electro-forming Other functional plating applications Product Description:Phosphorous Copper Balls (Cu-DHP) finds usage in the plating of Printed Circuit Boards. These ballss are available in Copper Ingots, Copper Cathodes and Electrolytic Copper options with all copper forms containing in it least 99.9% copper. Free from impurities, these provide the safeguard from contamination of electroplating solutions as well as a Co deposit on the cathode. Further, these are also available in suitable metallurgical condition to dissolve uniformly.General Specifications: Size - Oval - 80mm x 30mm; Ball minuscule 25mm, minuscule 38mm, minuscule 50mm or as per customer requirement Material Standard- ASTM B265, Grade 5, Grade 9 Shape- Oval, Ball Weight - per foot Application Areas: Electroplating Applications Rotogravure Electroforming Decorative Printed Circuitry Electrical Ground Rod Electro-forming Other functional plating applications   Substance resulting from metallurgic processing of primary sources (copper matte obtained from copper ore/concentrate) and/or secondary sources (copper scrap and/or black copper) and including recycled intermediates (i.e. spent balls and removal cathodes).  Composed primarily of copper metal and copper oxides (> 80%) and containing other residual metals and their compounds. The raw material for a copper balls comes from one of two places; the copper is either refined or scrap material. Refined copper comes in the form of a copper cathode, named so because copper is electrolytically refined (plated out of solution). In this process, blister copper (approximately 95% copper) is dissolved anodically and high purity copper metal is plated slowly on a cathode with the impurities falling to the bottom of the plating tank as sludge. The impurities in the sludge include iron, sulfur, tellurium, selenium, gold, silver, zinc, arsenic, and others. The resulting cathode is 99.95% pure copper and can now be melted to form ballss. Scrap copper is generated daily around the world from such sources as utility wires, telephone wires, transformers, water tubes, buss bars, and other sources. This material is usually grouped and sorted by a scrap dealer. The disadvantage of scrap metal is its potential for contamination. All of the previously mentioned sources contain steel, tin, silver, and/or lead. The metals can also be mixed when sorting, and copper alloys can be mistaken for pure copper. Some metallic impurities in copper ballss can be dissolved and plated. These dissolved impurities will increase in concentration over time, resulting in a bath saturated with metallic contaminants. Plated impurities can cause stress and roughness on the plated part, which, in turn, cause difficulties in plating and process control, higher additive consumption (brightener) and scrap parts. These impurities usually go undetected until production problems appear because they are not normally examined in routine analysis. Grain Structure. The grain structure is the most important characteristic of copper ballss; this structure is completely determined by the process used to manufacture the ballss, which we will now explore. Casting of copper ballss is the simplest and least costly method; however, cast copper ballss do not exhibit the fine, uniform grain structures necessary for superior plating. Higher casting speeds will increase production and reduce costs, but will also result in larger grain size, and, therefore, inferior grain structure. Treatment is required subsequent to casting in order to produce copper ballss with a fine grain structure. This usually involves hot rolling, hot extruding, or hot forging. When the copper is formed under high temperature and pressure the grain structure is reformed and becomes fine and uniform. It should be noted that copper used for a variety of functions, other than ballss, require fine grain structures (wire, buss bars, copper foil and sheets). Overall, copper ballss containing higher impurities and without a fine grain structure will dissolve unevenly, have a higher sludge yield, result in lost copper dropping into solution, and have the potential to increase the roughness of plated parts. The results below show the sludge weight left in solution after 30 minutes of plating at 15ASF with four different types of copper balls balls. Filtered Solution (Weight of Sludge).      Phosphorus content. Phosphorus content for acid copper plating is ideally maintained between 0.040 and 0.065%. Metallurgically, impurities are located at grain boundaries. Therefore, phosphorus (required for acid copper plating) is most evenly distributed in fine grain ballss. Typically, a black film develops as a result of the phosphorus in the balls. This film keeps fine pieces of copper from falling off of the balls as sludge and also retards corrosion of the balls. Ballss with large grain structures will develop a black film, but this film will not be adherent and quickly turn into sludge. The sludge now contains usable copper (lost metal) that can plug up balls bags and fall into solution causing roughness on plated parts. Cleanliness. Manufacturing oils, oxidation, and burrs must be removed from copper ballss. Copper oxidizes when it freezes from the molten state or when heated for rolling, forging, or extruding. This oxidation must be removed either by mechanical abrasion or acid pickling followed by neutralization. Mechanical methods are preferred because there is no residue. In the manufacture of bar ballss sawing, drilling, and tapping oils are used to lubricate the tooling. The oils are applied to the copper as well as the tooling. Proper washing and rinsing removes these residual oils or coolants (organic compounds) which would contaminate the plating bath. Balls nuggets are typically made by cutting copper rod into various lengths. This shearing process creates burrs and sharp edges that can drop into tanks or cause the nuggets to bridge or nest in titanium mesh baskets, causing voids of balls, uneven plating distribution, and balls polarization. In addition, burrs and sharp edges are hazards to the operators handling the material. Ballss should be inspected carefully to determine that the material has come from the manufacturer ready for use with no pretreatment necessary.   Copper balls are formed by either cold forging (heading) or hot roll forging copper rod of various thickness. Copper wire being headed should preferably already have a fine grain structure. Normally copper balls that are hot roll forged will have a post-treatment procedure to ensure they will have a fine grain structure.       Overall, there are several characteristics that determine the quality of the copper anodes manufacturing process. These include: purity of copper, fine grain structure, uniform phosphorus content and distribution, and properly cleaned and anodes packaged and ready for use. Therefore, the quality of copper anodes should be very important to electroplaters because properly manufactured anodes will: extend bath life; have less metallic contamination; produce parts without roughness; have less sludge; and require less maintenance.

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