摘要:
An aqueous acid bath for the galvanic deposition of bright, ductile and smooth copper coats which is suitable for decorative purposes as well as for strengthening the conductors of printed circuits. The bath is characterized by a content of polyalkylene glycol ether. When combined with thio compounds containing water-soluble groups, these additions produce an electrolyte with excellent stability. Polymeric phenazonium compounds, polymeric nitrogen compounds and/or thio compounds containing nitrogen may also be successfully combined, in addition, depending on the desired properties.
摘要:
An aqueous acid bath for galvanic precipitation of copper is disclosed. The copper plating composition comprises at least one polymer phenazonium compound and .beta.-naphtholalkoxylate. A method for using such a bath for deposition of copper coatings is also disclosed. The resultant copper coatings are smooth and bright with substantially no fine roughness or pitting.
摘要:
For the uniform electrolytic deposition of copper coatings, especially on printed circuit boards, an aqueous deposition bath is used which contains as constituents at least one source of copper ions, at least one compound increasing the electrical conductivity of the deposition bath as well as at least one additive, at least one transformation product, formed from epihalohydrins, dihalohydrins or respectively 1-halogen-2,3-propanediols and polyamidoamines being contained as the additive. The polyamidoamines are formed by the condensation reaction of dicarboxylic acids with polyalkylene polyamines. When copper coatings are deposited from this bath, copper layers of uniform layer thickness can be deposited.
摘要:
The plating bath for the deposition of satin nickel deposits according to the present invention contains at least one quarternary ammonium compound and at least one polyether, the at least one polyether having at least one strongly hydrophobic side chain. As compared to prior art plating baths, this acid plating bath has the advantage that it enables a long period of operation or heating and cooling cycles or filtration cycles, makes it possible to perform the filtration needed for continually operating the bath without using active carbon, requires a lower concentration of nickel than prior art baths to produce the satin gloss finish and has a reduced sensitivity to wetting agents that have been dragged in.
摘要:
In a method for an automatic control of the galvanic deposition of copper coatings in acid copper bath by measuring a maximal current density and a continual dosing of gloss additives to the bath, the maximal current density is measured by cyclically measuring an actual voltage in the bath and compensating for eventual deviations of the actual voltage from the nominal value by an automatic dosing of the additives by means of dosing devices.
摘要:
For manufacturing particularly uniform and mirror bright copper coatings that are leveled and ductile as well using a relatively high current density, halogenated or pseudohalogenated monomeric pheanzinium compounds or a purity at least 85 mole-% and having the general chemical formula (I) are utilized in which R1, R2, R3, R4, R7′, R7″, R8, R9, X and A have the significations denoted in the claims. The compounds are prepared by diazotizing a suited starting compound prior to halogenating or pseudohalogenating it in the presence of mineral acid, diazotization means and halide or pseudohalide, with the reaction steps being run in one single vessel.
摘要:
In a method for galvanic deposition of smooth and ductile copper from acid copper baths, the metal content of the bath is kept constant by using inert anodes together with soluble anodes. The inert anodes are made of precious metal, precious metal alloys or their compounds. The ratio of the geometric surface of inert to soluble anode should amount to from 1:1 to 1:200, preferably from 1:5 to 1:20. The inert anode may be provided with additional potential, and the acid bath may contain organic thio compounds. The method is useful for building up conductor paths of printed circuits.
摘要:
For manufacturing particularly uniform and mirror bright copper coatings that are leveled and ductile as well using a relatively high current density, halogenated or pseudohalogenated monomeric pheanzinium compounds or a purity at least 85 mole-% and having the general chemical formula (I) are utilized in which R1, R2, R3, R4, R7′, R7″, R8, R9, X and A have the significations denoted in the claims. The compounds are prepared by diazotizing a suited starting compound prior to halogenating or pseudohalogenating it in the presence of mineral acid, diazotization means and halide or pseudohalide, with the reaction steps being run in one single vessel.
摘要:
In order to achieve an even satin-finished nickel or nickel alloy coating an acid nickel or nickel alloy electroplating bath is proposed which contains a sulfosuccinic acid compound of the general formula I additional to at least one quaternary ammonium compound, wherein R1, R2=hydrogen ion, alkali ion, alkaline earth ion, ammonium ion and/or C1-C18 hydrocarbon moiety, wherein R1 and R2 are identical or different with the proviso that at the most one of the groups R1 and R2=hydrogen ion, alkali ion and alkaline earth ion, and wherein K+=hydrogen ion, alkaline ion, alkaline earth ion, ammonium ion
摘要:
A process with the following process steps is used to electrolytically deposit copper layers, especially on printed circuit boards. An electrically-conductive substrate and anodes that decompose upon electrolytic deposition are brought into contact with a deposition bath. The deposition bath contains copper ions, compounds that increase the electrical conductivity of the deposition bath, additives to influence the material properties of the copper layers, additional compounds of an electrochemically reversible redox system, and solvents or solvent mixtures. The substrate and the electrodes are connected to a power supply. The copper layers are deposited on the substrate using a pulsed current or a pulsed voltage process. When this process is used, metal layers with favorable visual and mechanical material properties are deposited after a brief bath preparation time.