![]() Substances may have impurities and additives that lead to different classifications.Other relevant information includes the following: ![]() in case of consumer and professional uses). It does not represent a new labelling, classification or hazard statement, neither reflect other factors that affect the susceptibility of the effects described, such as duration of exposure or substance concentration (e.g. The purpose of the information provided under this section is to highlight the substance hazardousness in a readable format. When information is available in all sources, the first two are displayed as a priority. The source of the information is mentioned in the introductory sentence of the hazard statements. This section is based on three sources for information (harmonised classification and labelling (CLH), REACH registrations and CLP notifications). The CLP Regulation uses the UN Global Harmonised System (GHS) and European Union Specific Hazard Statements (EUH). The CLP Regulation makes sure that the hazards presented by chemicals are clearly communicated to workers and consumers in the European Union. ![]() The ‘Hazard classification and labelling’ section shows the hazards of a substance based on the standardised system of statements and pictograms established under the CLP (Classification Labelling and Packaging) Regulation. This information is only displayed if the substance is well-defined, its identity is not claimed confidential and there is sufficient information available in ECHA’s databases for ECHA’s algorithms to generate a molecular structure. If generated, an InChI string will also be generated and made available for searching. The molecular structure is based on structures generated from information available in ECHA’s databases. ![]() This information is only displayed if the substance is well–defined, its identity is not claimed confidential and there is sufficient information available in ECHA’s databases for ECHA’s algorithms to generate a molecular structure. The molecular formula identifies each type of element by its chemical symbol and identifies the number of atoms of each element found in one discrete molecule of the substance. More information about CAS and the CAS registry can be found here. A substance identified primarily by an EC or list number may be linked with more than one CAS number, or with CAS numbers that have been deleted. The CAS number is the substance numerical identifier assigned by the Chemical Abstracts Service, a division of the American Chemical Society, to substances registered in the CAS registry database. CAS (Chemical Abstract Service) registry number The EC or list number is the primary substance identifier used by ECHA. If the substance was not covered by the EC Inventory, ECHA attributes a list number in the same format, starting with the numbers 6, 7, 8 or 9. More information about the EC Inventory can be found here. The EC Inventory is a combination of three independent European lists of substances from the previous EU chemicals regulatory frameworks (EINECS, ELINCS and the NLP-list). The EC Number is the numerical identifier for substances in the EC Inventory. Some substance identifiers may have been claimed confidential, or may not have been provided, and therefore not be displayed. ![]() The substance identifiers displayed in the InfoCard are the best available substance name, EC number, CAS number and/or the molecular and structural formulas. Use of dichromium tris (chromate) in a post-treatment step of the autodeposition coating process of shock absorbers for automotive vehicles.The ‘Substance identity’ section is calculated from substance identification information from all ECHA databases. Maschinenfabrik Kaspar Walter GmbH & Co KGĬhromium trioxide-based functional chrome plating of cylinders used in the rotogravure printing and embossing industry.įormulation of chromium trioxide-based electrolyte for electroplating process. Use of chromium trioxide for decorative / functional application in the furniture, sanitary and automotive sector.Ĭhromium trioxide-based functional chrome plating of components with diverse geometries and dimensions, requiring specialized equipment and process knowledge, for applications in demanding industry sectors such as mechanical engineering, metalworking and processing, aerospace, automotive, and medical technology. Kesseboehmer Beschlagsysteme GmbH & Co.KG The use of chromic acid in the functional electroplating of brass-made sanitary articles with the specific purpose of obtaining a final Cr (0) coating that provides a surface with high durability and chemical resistance. ![]()
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