| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 205790000 | For composition of metal or metal alloy | 7 |
| 20080264802 | Testing Method for Precious Metals - A precious metal assay method which includes the steps of forming an electrolytic cell comprising an anode specimen and a reference cathode, driving a ramp input into the electrolytic cell, measuring a resulting current through the electrolytic cell over a period of the ramp input. The assay value may be determined by comparing the locality, slope and peak or area of a current response of the resulting current against the localities, slopes and peaks or areas of a list of current responses of known precious metal compositions from an empirical look-up table and displaying the assay value on an electronics display. | 10-30-2008 |
| 20090159464 | Electrode preconditioning - An electrochemical sensing method comprising: (a) providing an electrochemical cell having a working electrode and a pseudo reference electrode; (b) providing a sample comprising a metal, the sample being in contact with the working electrode and the metal being capable of being oxidised or reduced at the working electrode when the metal is bound to the working electrode; (c) preconditioning the working electrode by (i) applying a time varying preconditioning potential between the working and pseudo reference electrodes; and/or (ii) baking the working electrode; and/or (iii) air-ageing the working electrode; and (d) applying a measuring potential between the working and pseudo reference electrodes and, during application of said measuring potential, measuring the current generated by oxidation/reduction of the metal at the working electrode. | 06-25-2009 |
| 20090288962 | Electrochemical Sensor and Methods for Making and Using Same - A mercury-free, electrochemical sensor is described that includes a self-assembled monolayer on a mesoporous support (SAMMS) composite and a fluoropolymer component that is deposited on a measurement surface. The SAMMS component provides outstanding metal preconcentration. The fluoropolymer component acts as an antifouling binder. The sensor can detect various metals at a low detection level in the presence of fouling agents and without sample pretreatment. The sensor is also able to detect mixtures of metals simultaneously with excellent single and inter-electrode reproducibility. Service lifetimes are excellent. | 11-26-2009 |
| 20110042240 | APPARATUS AND METHODS FOR TESTING IMPURITY CONTENT IN A PRECIOUS METAL - A precious metal testing apparatus and methods adapted to analyze impurities in a precious metal test sample is described. The testing apparatus contains a test probe that has a replaceable portion and that is connected to a meter to measure resistance. The replaceable portion contains or forms a reservoir that includes at least one electrolyte component, a conductive member, and a fibrous tip. The electrolyte component is fluidly associated with a fiber tip and the conductive member contacts an electrical contact located outside the reservoir. Methods of testing and instructions regarding such methods are also included. | 02-24-2011 |
| 20130319879 | Silver Testing Apparatus - A precious metal testing apparatus determines the percentage content of precious metal in a specimen being tested by detecting the change in the rate of current flow through a resistive layer formed on the specimen by an application of a corrosive electrolyte on the specimen. The electrical circuit forms a fixed resistance circuit and a variable resistance circuit due to the formation of a growing resistive layer on the specimen such that the flow of current through the variable resistance circuit decreases as the flow of current through the fixed resistance circuit increase. The detection of the rate of change in current flow as a result of the increasing growth of the resistive layer can be compared to a look-up table that provides a corresponding percentage of precious metal in the specimen. Calibration of the testing apparatus can be accomplished with a specimen of known purity of the precious metal. | 12-05-2013 |
| 20150021206 | ELECTRODE CONFIGURATION FOR LIMCA - Disclosed is a method and apparatus for reducing electromagnetic noise pick up in a Liquid Metal Cleanliness Analyzer (LiMCA), used to detect and measure particles in molten metal. A first electrode inserted in the molten metal is electrically insulated from second and third electrodes, also inserted in the molten metal. Molten metal and particles pass between the first electrode and the second and third electrodes through a passage in the electrical insulation. The second and third electrodes have a configuration with respect to the first electrode sufficient to establish symmetrical current loops between the first electrode and the second and third electrodes when a current is supplied to the second and third electrodes. The current is supplied from an ultra-capacitor. Electromagnetic noise in the symmetrical current loops is detected and is added in opposition to reduce the amplitude of the electromagnetic noise. | 01-22-2015 |
| 20160178563 | ELECTROCHEMICAL METAL AND ALLOY DETECTOR AND METHOD | 06-23-2016 |
