Elemental content analysis

Where to go for elemental content analysis testing? BAIJIAN Materials Testing Agency can provide elemental content analysis services. It is a CMA qualification certification agency, a high-tech enterprise, and a third-party materials laboratory. It has complete instruments and a strong scientific research team. 7-15 jobs Analysis reports can be issued on a daily basis, and the authenticity can be checked by scanning the QR code. Door-to-door sampling and sample testing services are provided nationwide. The testing cycle is short, the testing cost is low, and the testing data is scientific and accurate!

Analysis cycle: 7-15 working days

Analysis cost: Engineers will pay according to customer According to the testing requirements and the complexity of the experiment, an experimental plan will be developed and quoted.

Element content analysis range

Metal, stainless steel, aluminum alloy, alloy steel, I-beam, ferroalloy, ternary material, zinc alloy, ferrochromium, carbon material, rail, Rebar, aluminum powder, copper, hydraulic oil, cold-formed steel, metallurgical products, pipeline steel, solder, austenitic steel, ferrotungsten, etc.

Element content analysis project

XPS analysis, chemical element content analysis, PMI element content analysis, boron element content analysis, spectral element content analysis, etc.

Elemental content analysis is a basic work in chemical analysis and is used to study the content and distribution of different elements in samples. The elemental content analysis projects of different laboratories and industries may be slightly different. Some common projects are listed below

Total elemental analysis: analysis of all elements in the sample, often used in mineral research or environmental samples Analysis of medium and heavy metals and other elements.

Organic element analysis: Analysis of organic elements in samples, often used to analyze the content of organic matter in environmental samples.

Inorganic element analysis: Analysis of inorganic elements in samples, often used to analyze element content in soil, rocks and other samples.

Metal element analysis: Analysis of metal elements (such as iron, copper, aluminum, etc.) in the sample, often used for metal material analysis or metal element content analysis in industrial wastewater.

Analysis of non-metallic elements: Analysis of non-metallic elements (such as sulfur, nitrogen, oxygen, etc.) in samples, often used for the analysis of acidity, conductivity and other indicators in environmental samples.

Trace element analysis: Analysis of trace elements in samples, commonly used in geochemistry, environmental science, chemical analysis and other fields.

There are various methods for elemental content analysis. Commonly used methods include atomic absorption spectroscopy, inductively coupled plasma emission spectroscopy, X-ray fluorescence spectroscopy and mass spectrometry. (For more needs, please consult the laboratory engineer who will answer you one-on-one.)

What are the functions of BAIJIAN analysis reports? What problems can it help you solve?

1. Sales use. (Sell your own products and issue third-party testing reports to make customers more confident in the quality of your products)

2. R&D and use. (During the research and development process, some difficult problems are encountered, and the problems are solved through test report data, thereby shortening the research and development cycle and reducing research and development costs)

3. Improve product quality. (By comparing test data, we can discover the problems of our own products, improve product quality, and reduce production costs)

4. Use of scientific research paper data.

5. Bidding and bidding (BAIJIAN has a relatively short testing cycle, low testing costs, and high recognition, and is especially suitable for bidding)

Elemental content analysis standards

GB/T 223.79-2007 Determination of multi-element content in iron and steel by X-ray fluorescence spectrometry (conventional method)

GB/ T 4336-2016 Determination of multi-element content of carbon steel and medium and low alloy steel Spark discharge atomic emission spectrometry (conventional method)

GB/T 6609.1-2018 Methods for chemical analysis and physical properties of alumina Part 1: Determination of trace element content by inductively coupled plasma atomic emission spectrometry

GB/T 6609.30-2009 Methods for chemical analysis and physical properties of alumina Part 30: Determination by X-ray fluorescence spectrometry Trace element content

GB/T 6730.81-2020 Determination of the content of various trace elements in iron ore by inductively coupled plasma mass spectrometry

GB/T 11170-2008 Determination of the content of various trace elements in stainless steel Determination of spark discharge atomic emission spectrometry (conventional method)

GB/T 13748.20-2009 Methods for chemical analysis of magnesium and magnesium alloys Part 20: Determination of element content by ICP-AES

GB/ T 13748.21-2009 Methods for chemical analysis of magnesium and magnesium alloys Part 21: Determination of element content by photoelectric direct-reading atomic emission spectrometry

GB/T 14849.4-2014 Methods for chemical analysis of industrial silicon Part 4: Impurity elements Determination of content by inductively coupled plasma atomic emission spectrometry

GB/T 14849.5-2014 Methods for chemical analysis of industrial silicon Part 5: Determination of impurity element content by X-ray fluorescence spectrometry

GB/T 20975.25-2020 Methods for chemical analysis of aluminum and aluminum alloys Part 25: Determination of element content by inductively coupled plasma atomic emission spectrometry

GB/T 22368-2008 Low alloy steelDetermination of multi-element content Glow discharge atomic emission spectrometry (conventional method)

GB/T 23991-2009 Determination of soluble harmful element content in coatings

GB/T 24234-2009 Determination of multi-element content in cast iron by spark discharge atomic emission spectrometry (conventional method)

GB/T 24916-2010 Determination of metal element content in surface treatment solutions by inductively coupled plasma atomic emission spectrometry

GB/T 26050-2010 Melting method for determination of metal element content by X-ray fluorescence of cemented carbide

GB/T 26310.2-2010 Detection method for calcined petroleum coke used in primary aluminum production Part 2: Trace element content Determination of flame atomic absorption spectrometry

GB/T 30905-2014 Determination of element content of inorganic chemical products X-ray fluorescence spectrometry

GB/T 33042-2016 Wooden floor finishing layer Determination of heavy metal element content of lead, cadmium, chromium and mercury

What are the advantages of BAIJIAN testing? Why choose BAIJIAN?

1. BAIJIAN is a collectively owned testing institution.

2. Initial inspection samples.

3. Multiple laboratory branches across the country support door-to-door sampling/send sample testing.

4. The testing cycle is short, the testing cost is low, and the experimental plan is complete.

5. Complete qualifications, complete laboratory equipment, and a strong scientific research team.

6. Support MSDS writing service in 36 languages

BAIJIAN sample sending and testing process

1. Sample sending

2. Initial inspection Sample

3. Quotation

4. Both parties confirm, sign a confidentiality agreement, and start the experiment

5. Complete the experiment in 7-15 working days

6. Issue test reports and provide follow-up services.

The above is the relevant introduction to elemental content analysis. If you have other testing needs, you can consult the laboratory engineer to help you answer it.