The Chemical Analysis of Electroplating Solutions: A Theoretical ApproachA unique text/reference which gives the procedures for all analysis needed to control any phase of electroplating. All theories behind these analyses are explained in detail. Better analytical technique and therefore better product, will result from the thorough understanding of the chemistry involved. PARTIAL CONTENTS: Analytical Techniques; VI-B Group-Chromium Solutions; VII-B Group; VIII Group-Iron; Rhodium; Nickel; Palladium; Platinum Solutions; I-B Group-Copper; Silver; Gold Solutions; II-B Group-Zinc; Cadmium Solutions III-A Group-Indium Solutions; IV-A Group-Tin Lead Solutions; V-A Group-Arsenic; Antimony Solutions; Alloy Plating Baths; Analytical Instrumentation. These titles may also pair well with these books: M.H. Gabb, A Handbook of Laboratory Solutions: ISBN 0-8206-0365-1; Andrew Poss, Library Handbook for Organic Chemists: ISBN 0-8206-0361-9. Visit us at www.chemical-publishing.com |
Common terms and phrases
250 ml Erlenmeyer acetate Add about 100 added meq AgNO3 alkaline ammonium Analysis for Metallic Analytical Procedure approximately Arsenic barium bath beaker boiling cadmium carbonate chemical chloride chromium clean 250 ml color complex copper crucible determined dichromate dilute dissolving distilled water EDTA endpoint equivalence point Erlenmeyer flask ferric filter fluoborate grams of reagent H₂O H₂SO hydrochloric acid indicator solution indium insoluble iodine iron Mathematical Solution meq wt method mg/meq mg/ml ml AgNO ml beaker ml Erlenmeyer flask ml Fe(CN ml HCl ml NaOH ml of concentrated ml of distilled ml sample NaOH nickel oxidation oz/gal Pipet plating solution potassium iodide precipitate prepared present ml reagent grade Required Solutions rhodium salt silver nitrate sodium cyanide sodium hydroxide sodium sulfide soluble SOLUTIONS Introduction standard sulfate sulfuric acid swirling temperature Th+4 thiocyanate thiosulfate titration Understanding the Process volumetric flask weight X N AgNO Zinc Cyanide