Where is the pulverization test going? Baijian.com can provide powder testing services. As a CMA qualification certification agency and high-tech enterprise, it is engaged in providing you with salt spray testing, fatigue testing, non-standard testing, unknown object detection and identification, composition testing, large-scale instrument testing, performance testing, national standard testing, qualitative and quantitative testing, leakage testing, scientific research testing, corrosion testing and other fields. It is a third-party, with complete testing instruments and a strong scientific research team, Test reports can be issued within 7-15 working days, with support for scanning codes to check authenticity, and nationwide on-site sampling and sample testing services. The testing cycle is short, the testing cost is low, and the testing data is scientific and accurate

Test cycle: 7-15 working days

Test cost: The engineer formulates an experimental plan and provides a quotation based on the customer's testing needs and the complexity of the experiment.

Powdering test scope

Sintered ore, wax film, steel slag, iron ore, metal, aluminum silicate plate, paint film, building coatings, blast furnace slag, corundum, rare earth, ruthenium powder, osmium powder, etc Test items: low-temperature pulverization test, pulverization reduction test, pulverization chemistry test, pulverization grade test, etc What are the functions of the BAIJIAN test report? What problems can I help you solve< p> 1. Sales use. (Selling one's own products and issuing third-party testing reports to make customers more confident in the quality of their products)

2. Research and development for use. During the research and development process, when encountering some challenging problems, we can solve them by testing report data, thereby shortening the research and development cycle and reducing research and development costs. 3. Improve product quality. (By comparing the testing data, identify the problems with one's own product, improve product quality, and reduce production costs)

4. Use of research paper data 5. Bidding, Bidding use (BAIJIAN has a relatively short testing cycle, low testing costs, and high recognition, making it particularly suitable for bidding use)

Powdering Test Standards

GB/T 9489-2008 Chemical Analysis Methods for Corundum Powder

GB/T 13242-2017 Low Temperature Powdering Test for Iron Ores Using a Cold Drum after Static Reduction

GB/T 20166.1-2012 Chemical Analysis Methods for Rare Earth Polishing Powder Part 1: Determination of Cerium Oxide Content Titration Method

GB/T 20166.2-2012 Chemical Analysis Methods for Rare Earth Polishing Powder Part 2: Determination of Fluorine Content Ion Selective Electrode Method

GB/T 23275-2009 Chemical analysis methods for ruthenium powder Determination of lead, iron, nickel, aluminum, copper, silver, gold, platinum, iridium, palladium, rhodium, and silicon content Glow discharge mass spectrometry

GB/T 23613-2009 Chemical analysis methods for osmium powder Magnesium, iron, nickel, aluminum, copper, silver, gold, platinum, iridium, palladium, rhodium Determination of Silicon Content Inductively Coupled Plasma Atomic Emission Spectroscopy

GB/T 24204-2009 Determination of Low Temperature Reduction Powdering Rate of Iron Ore for Blast Furnace Charge Dynamic Test Method

GB/T 24235-2009 Determination of Low Temperature Reduction Powdering Rate and Metallization Rate of Iron Ore for Direct Reduction Charge Gas Direct Reduction Method

GB/T 30789.6-2015 Evaluation of Aging of Paints and Varnishes Coatings Quantity and Size of Defects and Degree of Uniform Change in Appearance Part 6: Evaluation of Powdering Grade by Tape Method

GB/T 30789.7-2015 Evaluation of Aging of Paints and Varnishes Coatings - Identification of the Number and Size of Defects and the Degree of Uniform Change in Appearance - Part 7: Evaluation of Powdering Grade by Velvet Cloth Method

GB/T 31923.1-2015 Static Test for Low Temperature Reduction Powdering of Iron Ore for Blast Furnace Charge - Part 1: Static Test with CO, CO2 Reaction of H2 and N2

GB/T 31923.2-2015 Static Test for Low Temperature Reduction Powdering of Iron Ore for Blast Furnace Charging Part 2: Reaction with CO and N2

GB/T 36592-2018 Chemical Analysis Methods for Rhodium Powder Platinum, Ruthenium, Iridium, Palladium, Gold, Silver, Copper, Iron, Nickel, Aluminum, Lead, Manganese, Magnesium, Tin, Zinc, and Silicon Inductively Coupled Plasma Mass Spectrometry

GB/T 36593-2018 Chemical Analysis Methods for Iridium Powder Silver, Gold, Palladium, Rhodium, Ruthenium, Lead Platinum, nickel, copper, iron, tin, zinc, magnesium, manganese Determination of Aluminum Content Inductively Coupled Plasma Atomic Emission Spectroscopy Method for Chemical Analysis of Silver Powder for Electrical Contact Materials JB/T 6237.1-2008 Part 1: Silver Chloride Precipitation p-Dimethylenebenzylidene Rhodanine Photometric Method for Determination of Silver Content JB/T 6237.2-2008 Chemical Analysis of Silver Powder for Electrical Contact Materials Part 2: Determination of Copper Content by Dicyclohexanone Oxydrazone Photometric Method JB/T 6237.3-2008 Chemical analysis methods for powders Part 3: Determination of iron content by ortho phenanthroline spectrophotometric method

JB/T 6237.4-2008 Chemical analysis methods for silver powder used in electrical contact materials Part 4: Determination of nickel content by flame atomic absorption spectroscopy

JB/T 6237.5-2008 Chemical analysis methods for silver powder used in electrical contact materials Part 5: Determination of sodium content by flame atomic absorption spectroscopy

XB/T 620.1-2015 Chemical analysis methods for waste rare earth fluorescent powders Part 1: Rare earth oxygen Determination of Total Chemical Content

XB/T 620.2-2015 Chemical Analysis Methods for Waste Rare Earth Fluorescent Powders Part 2: Determination of Lead, Cadmium, and Mercury Content Inductively Coupled Plasma Emission Spectroscopy

XB/T 620.3-2015 Chemical Analysis Methods for Waste Rare Earth Fluorescent Powders Part 3: Yttrium Oxide, Lanthanum Oxide, Cerium Oxide, Europium Oxide, Gadolinium Oxide, and Terbium Oxide Determination of dysprosium oxide content - Inductively coupled plasma atomic emission spectrometry

YS/T 539.1-2009 Chemical analysis methods for nickel based alloy powders - Part 1: Determination of boron content - Acid-base titration method

YS/T 539.2-2009 Chemical analysis methods for nickel based alloy powders - Part 2: Determination of aluminum content - Chromazurol S spectrophotometric method

YS/T 539.4-2009 Chemical analysis methods for nickel based alloy powders - Part 4: Determination of chromium content - Ammonium persulfate oxidation titration method

YS/T 539.6-2009 Chemical analysis methods for nickel based alloy powder Part 6: Determination of iron content Titanium trichloride potassium dichromate titration method, Start the experiment

5. Complete the experiment within 7-15 working days

6. Issue a testing report and provide post service The above is an introduction to the pulverization test. For more testing needs, please feel free to call our testing engineers at any time.