Detection system for chemical analysis of zinc phosphate coating solutions
First Claim
1. A detection system for quantitative analysis of chemical components of an aqueous phosphate conversion-coating bath, which detection system comprises:
- means for purifying a sample of said aqueous Phosphate conversion-coating bath to form a test fluid consisting essentially of an aqueous solution of ionic species;
means for determining the concentration of zinc ions present in said test fluid;
means for determining the concentration of phosphate ions present in said test fluid;
means for determining the pH of the test fluid;
means for determining the concentration of nitrite ions present in said test fluid;
optionally,means for determining the concentration of fluoride ions present in said test fluid; and
, optionally,means for determining the concentration of nickel ions present in said test fluid.
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Accused Products
Abstract
This invention is directed to a detection system for the quantitative analysis of chemical components of an aqueous phosphate conversion-coating bath, in particular, to a system for determining the concentration of zinc ions, phosphate ions, nitrite ions, and the pH of a purified sample of the bath. Optionally, the concentrations of other ions which might be present such as fluoride ions and nickel ions also can be determined. This detection system is preferably an automated on-line detection system employing X-ray fluorescence analysis, and flow injection analysis comprising specific ion electrodes and a flow through colorimeter or spectrophotometer. The automated, on-line detection system comprises computer means for automating said detection system and the computer means may be adapted for recording the resultant determinations and maintaining the chemical components at chosen concentrations in the bath.
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Citations
23 Claims
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1. A detection system for quantitative analysis of chemical components of an aqueous phosphate conversion-coating bath, which detection system comprises:
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means for purifying a sample of said aqueous Phosphate conversion-coating bath to form a test fluid consisting essentially of an aqueous solution of ionic species; means for determining the concentration of zinc ions present in said test fluid; means for determining the concentration of phosphate ions present in said test fluid; means for determining the pH of the test fluid; means for determining the concentration of nitrite ions present in said test fluid;
optionally,means for determining the concentration of fluoride ions present in said test fluid; and
, optionally,means for determining the concentration of nickel ions present in said test fluid. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. An automated on-line detection system for quantitative analysis of chemical components of an aqueous phosphate conversion-coating bath, which automated on-line detection system comprises:
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conduit means for providing a sample of said aqueous phosphate conversion-coating bath to an automated means for purifying said sample to form a test fluid consisting essentially of an aqueous solution of ionic species; and other conduit means for providing said test fluid to; automated means for determining the concentration of zinc ions present in said test fluid; automated means for determining the concentration of phosphate ions present in said test fluid; automated means for determining the PH of the test fluid; automated means for determining the concentration of nitrite ions present in said test fluid;
optionally,automated means for determining the concentration of nickel ions present in said test fluid;
optionally,automated means for determining the concentration of fluoride ions present in said test fluid; and computer means for automating said detection system. - View Dependent Claims (10, 11, 12, 13, 14, 15, 16, 17)
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18. A method for the quantitative analysis of chemical components of an aqueous phosphate conversion-coating bath, which method comprises:
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purifying a sample of said aqueous phosphate conversion-coating bath to form a test fluid consisting essentially of an aqueous solution of ionic species; determining the concentration of zinc ions present in said test fluid; determining the concentration of phosphate ions present in said test fluid; determining the pH of the test fluid; determining the concentration of nitrite ions present in said test fluid;
optionally,determining the concentration of fluoride ions present in said test fluid; and
, optionally,determining the concentration of nickel ions present in said test fluid.
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19. A method for the automatic, on-line quantitative analysis of chemical components of an aqueous phosphate conversion-coating bath, which method comprises the steps of:
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automatically providing a sample of said aqueous phosphate conversion-coating bath to a purifying means by a conduit means, automatically purifying said sample to form a test fluid consisting essentially of an aqueous solution of ionic species; and automatically providing said test fluid by other conduit means to various determining means, and; automatically determining the concentration of zinc ions present in said test fluid; automatically determining the concentration of phosphate ions present in said test fluid; automatically determining the pH of the test fluid; automatically determining the concentration of nitrite ions present in said test fluid; automatically carrying out said steps of said method by means of a computer;
optionally,automatically determining the concentration of fluoride ions Present in said test fluid; and
, optionally,automatically determining the concentration of nickel ions present in said test fluid.
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20. An automated on-line detection system for quantitative analysis of chemical components of an aqueous phosphate conversion-coating bath, which automated on-line detection system comprises:
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conduit means for providing a sample of said aqueous phosphate conversion-coating bath to an automated means for purifying said sample to form a test fluid consisting essentially of an aqueous solution of ionic species; and conduit means for providing said test fluid to; automated means for determining the concentration of zinc ions present in said test fluid; automated means for determining the concentration of phosphate ions present in said test fluid; automated means for determining the pH of the test fluid; automated means for determining the concentration of nitrite ions present in said test fluid;
optionally,automated means for determining the concentration of nickel ions present in said test fluid;
optionally,automated means for determining the concentration of fluoride ions present in said test fluid; and computer means for automating said detection system; wherein (1) said automated means for determining said concentration of said zinc ions, (2) said automated means for determining said concentration of said nickel ions, and (3) said automated means for determining said concentration of said phosphate ions comprises X-ray fluorescence analysis. - View Dependent Claims (21, 22)
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23. An automated on-line detection system for quantitative analysis of chemical components of an aqueous phosphate conversion-coating bath, which automated on-line detection system comprises:
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conduit means for providing a sample of said aqueous phosphate conversion-coating bath to an automated means for purifying said sample to form a test fluid consisting essentially of an aqueous solution of ionic species; and conduit means for providing said test fluid to; automated means for determining the concentration of zinc ions present in said test fluid; automated means for determining the concentration of phosphate ions present in said test fluid; automated means for determining the pH of the test fluid; automated means for determining the concentration of nitrite ions present in said test fluid; automated means for determining the concentration of nickel ions present in said test fluid; automated means for determining the concentration of nitrite ions present in said test fluid; and computer means for automating said detection system, wherein (1) said automated means for determining said concentration of said zinc ions, (2) said automated means for determining said concentration of said nickel ions, and (3) said automated means for determining said concentration of said phosphate ions comprises X-ray fluorescence analysis;
wherein (1) said automated means for determining said pH, and said automated means for measuring said concentration of said fluoride ions comprises flow injection analysis employing specific ion electrodes, and (2) said automated means for determining said concentration of said nitrite ions comprises flow injection analysis employing colorimetric analysis techniques; and
wherein said means for purifying said sample comprises an ultrafilter system.
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Specification