深拉伸用钢:第一部分
非铁合金的热机械处理(TMT):第一部分
DataPLUS 模块提供上万种金属材料和非金属材料的腐蚀数据、焊接性能、尺寸与公差信息以及涂层信息。 点击这里了解更多。
Overview of Total Materia database 2022 年 1月 12日
Overview of Total Materia database 2022 年 1月 13日
在使用Total Materia几个月之后,以及深刻体验过所有潜在功能之后,我非常感谢你们的卓越工作和持续稳定的升级服务。 Total Materia始终是用来达成这一目的唯一工具。
M. Manfredini Bonfiglioli Industrial Gearmotors 博洛尼亚, 意大利
我们的目标很简单,就是让 Total Materia成为全球工程师在材料领域的首选一站式解决方案
Prof. Dr. Viktor Pocajt, CEOKey to Metals AG
The creation of the EEC (European Economic Community) has made it necessary to establish common standards named "European Norms" (EN), therefore standardizing the common language across Europe. Since 1988 a new series of 'mandatory' European standards (EN) has been created, to replace national standards, such as BS, DIN, SS and NF, throughout 18 countries of Western Europe.
The main reason for Steel standardization is to ensure a common language between producers and customers of steel products. Since the beginning of the 20th century, countries have developed their own standards defining and classifying steel products. The creation of the EEC (European Economic Community) has made it necessary to establish common standards named "European Norms" (EN), therefore standardizing the common language across Europe. The official definition of a Standard is recorded as :
‘a document, established by consensus and approved by a recognized body, that provides, for common and repeated use, rules, guidelines or characteristics for activities of their results, aimed at the achievement of the optimum degree of order in given context’
Steel standards are used worldwide in many projects to determine steel type, strength, and properties. The European Committee for Standardization (CEN) is officially recognized as a European standards body by the European Union.
Since 1988 a new series of 'mandatory' European standards (EN) has been created, to replace national standards, such as BS, DIN, SS and NF, throughout 18 countries of Western Europe. Although it is accepted and effectively used in all European countries, “obsolete” national systems, such as the German DIN, British BS, French AFNOR and Italian UNI can steel often be found in many documents.
Another key fact is that European standards are commonly becoming international standards. Due to the close relationship between The CEN and the International Standards Organization (ISO), CEN standards are being fast-tracked as ISO standards and increasingly used worldwide. Included in the EN standards are the details concerning the delivery conditions, quality, dimensions and definitions of all products, raw materials, and processes of the iron and steel industry. Furthermore, the standards include product-specific test standards (as long as they are not excluded because of specific agreements with other standardization committees), and information for the determination of the chemical composition of iron and steel.
The EN standards cover a wide range of materials including hot and cold rolled carbon and alloy steels, plates, sheets and strips, spring steels, heat treatable steels, castings, stainless and heat resisting steels, electrical steels etc.
The EN is concerned with the standardization of the manufacture, chemical composition and mechanical characteristics of steel products. In the below tables you can find some examples of standards according to the different types of steels available.
German steel standards and specifications are represented by the letters EN or DIN and followed by an alphanumeric or a numeric code. Examples:
DIN 40NiCrMo66 or 1.6565 is a Ni-Cr-Mo steel that contains 0.35-0.45%C, 0.9-1.4%Cr, 0.5-0.7%Mn, 0.2-0.3%Mo, 1.4-1.7%Ni, 0.035%S;
DIN 17200 1.1149 or DIN 17200 Cm22 is a non-resulfurized carbon steel containing 0.17-0.245C, 0.3-0.6%Mn, 0.02-0.035% S and 0.4% max Si.
Below you can find further information about EN codes according to their chemical composition:
Also within the EN code, is the specific information regarding the steel quality and is categorized as follows:
Example: EN 10 025 S355
Some of the Classification of steels in accordance with their designated use are shown in table 1.
Table 1: The Classification of steels in accordance with their designated use
Click on the below links to see lists of Euronorm standards covering the following material categories:
Structural and Constructional Steels: Part One
Structural and Constructional Steels: Part Two
Stainless Steels / Welding & Filler Materials
Electrical Steels / Coated Steels / Castings / Forgings
Introduction to Aluminium EN Materials
Aerospace Aluminium
Wrought, Castings, Ingots and Remelting
Copper Materials
Date Published: Apr-2011
输入搜索词:
搜索项
全文 关键字
标题 摘要
With Total Materia finding information about a metal standard specification, its current status and the materials it defines is one click away.
Within seconds it is also possible for you to find related detailed material property data or search equivalent materials starting from the Total Materia standard list.
To get started, click on the standard list button in the menu bar.
By simply selecting a Standard Development Organization (SDO) and/or typing the standard number, you receive immediate results from the multi-lingual database containing over 30,000 standards.
For example, you can review all metal standards from EN by selecting this SDO from the popup.
The result list consists of over 1000 EN metal standards. Information includes: standard description, year of last issue, current status (valid, replaced, etc.) and a hot link to the materials defined by this standard.
By simply clicking the materials hot link, you can see a list of metal materials defined by the selected standard.
From the list of materials, you can review detailed properties and equivalents of each material.
For you’re a chance to take a test drive of the Total Materia database, we invite you to join a community of over 150,000 registered users through the Total Materia Free Demo.