Non-destructive testing of precious metals implementation of the latest standards

Non-destructive testing of precious metals implementation of the latest standards

The precious metal non-destructive testing standard GB/T 18043-2013 "Measurement of jewelry precious metal content X-ray fluorescence spectrometry" was formally implemented on March 1, 2014.

There are many ways to test gold. However, the accuracy of any test method will be affected by many factors such as the condition of the test sample itself, the test environment, equipment, etc. In other words, no test method is absolutely accurate and omnipotent.

At present, there are two most commonly used methods for testing gold content:

One is non-destructive testing. The biggest advantage of non-destructive testing is that it does not destroy the inspection samples. Gold jewelry is used for sale. Imagine that if every piece of gold jewellery used for sale is destructively tested, then there is no point in the inspection itself. There are many methods for non-destructive testing. At present, the most widely used test method in the production field and inspection organization is the GB/T 18043-2013 "Determination of jewelry precious metal content by X-ray fluorescence spectrometry".

The other is the method of chemical analysis, the destructive test. Such as fire assay method, ICP analysis, potentiometric titration, ammonium chloroplatinum precipitation method, and so on. These methods are based on the premise of damage to the sample, and the sample cannot be reduced after the analysis. However, the biggest advantage of these methods is that the test results are very accurate. For example, the fire test method is the final arbitration method for gold jewelry.

The newly implemented GB/T 18043-2013 "Determination of Precious Metals Content in Jewelry X-Ray Fluorescence Spectrometry" provides a series of strict regulations and restrictions on the inspection process to achieve more precise control of inspection results.

The new version of the standard stipulates that "the measurement result of a sample shall be expressed in thousands of fractions and be retained in one place", that is to say, the highest gold level measured by this method is only 1,000 gold. For higher levels of gold jewelry, 9999, 99999, and even more 9 are not available unless they are tested in the factory using destructive testing methods. Therefore, the gold jewelry on the market that is confirmed through non-destructive testing by third-party inspection agencies and sold on the counter, the common content labeling is mainly "full gold" and "thousands of gold", and the samples with solder joints are more likely to be labeled as "gold ".

For consumers who have testing needs, it is recommended that they first clarify the purpose of their own inspections, and then consult an inspection agency, according to the sample situation to choose their own, effective testing methods.

Vertical Lathe

A lathe is used to fashion a rotating piece of raw metal, wood, or composite into a precise configuration using movable cutting tools, or bits set to varying depths. The process, known as turning, or machining, is most often accomplished with a horizontal lathe. Often, however, space or material constraints, sometimes even personal preferences, necessitate the use of a vertical lathe.
Essentially a horizontal lathe turned on end, a vertical lathe, also called a boring tool, is composed of basically the same parts as a horizontal lathe. As implied, the functions of vertical lathes are performed up and down, rather than side to side, as is the case with horizontal lathes. This vertical alignment allows short, heavy, bulky materials to be machined more efficiently than with a horizontal lathe.
All lathes, vertical or horizontal, are comprised of the same basic parts. The headstock encloses the spindle and chuck, the parts that actually turn the material. The bed catches the shavings, and also serves as a brace for the horizontal lathe. The feedscrew and leadscrew, mounted on the lathe carriage, adjust the speed and distance traveled by the cutters along the stock. The cross slide and compound rest position the toolbox, which, in turn, mounts the bits.
The tailpost, at the opposite end of the lathe spindle, clutches the stock and braces it, thus eliminating wobble and vibration. The headstock and tailpost may be at the upper or lower end of a vertical lathe, or to the right or left end of a horizontal lathe. Either way, the headstock is one end of the lathe, the tailstock, the other.
Vertical lathes may be vertical turret lathes (VTL), where a turret holds various toolboxes, allowing little wasted time resetting bits during the machining process. There are also computer numerical control (CNC) vertical lathes in which the entire machining process is computer operated.
The top of the lathe pyramid are the CNC vertical turret lathe machines, most often used to turn stainless steel into precision parts for engines, turbines, transmissions, etc. These machines, though expensive to purchase and operate, are perfectly suited to the task, saving space, as well as over-stressed equipment. A CNC VTL can also be used on alloys to efficiently turn precision bearings and gears.
A vertical lathe can used on rough wood in a home workshop, mainly for its space-saving attribute. Many home hobbyists, however, simply feel more comfortable turning wood up and down, rather than side to side. Altogether, the vertical lathe is a very capable and versatile tool.

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Jiangsu Hoston Machine Tools Co., Ltd. , https://www.hosdunmachinetools.com