New and Old Alloy Codes Comparison Table in China (GB/T 3190-1996)
Alloy code-compliances tables are a theoretical reference for users to understand materials. In order to better understand the materials used in various fields by engineers and designers, we have collected a new and old alloy code comparison table in China from GB/T 3190-1996. The materials table lists out designations for commonly used alloy materials includng aluminum alloy, beryllium alloy, copper alloy, magnesium alloy, titanium alloy, zirconium alloy, etc., so that users can quickly determine the materials of the corresponding old and new alloy codes.
Table 1: New and Old Alloy Codes Comparison Table in China
Old Alloy Code | New Alloy Code
Aluminum Alloy | Al–Mg-Si Alloy, Al-Zn Alloy, etc.
Beryllium Alloy | Be-Ni-Co Alloy
Copper Alloy | Cu-Ni-Mn-Cr Alloy, etc.
Magnesium Alloy | Mg-Li Alloy, Mg-Si Alloy, etc.
Titanium Alloy | Ti-Ni-Cr Alloy, Ti-Zr-Ni Alloy, etc.
Zirconium Alloy | Zn-Zr-Ni Alloy, etc.
By understanding the table of New and Old Alloy Codes Comparison Table in China from GB/T 3190-1996, engineers, designers and technicians can make quick and accurate choices for the materials used in various projects. This table is intended to be a reference for users to easily determine the material of the corresponding old and new alloy codes. Although this table has a wealth of knowledge, it is not exhaustive and can change from time to time. Therefore, users should also refer to other sources of information when selecting and using materials in engineering projects.
Modern engineering projects, such as aerospace, chemical and medical industries, are increasingly dependent on advanced materials. Without the knowledge of materials, engineers, designers and technicians may fail to fully seize the potential of these materials. Alloys are materials with grain microstructures that affect their mechanical and physical properties. The different components and chemical compositions of alloys can also be used to obtain better performance. The New and Old Alloy Codes Comparison Table in China from GB/T 3190-1996 can help users understand the difference of alloy material from the code, so that they can make the best choice when choosing materials for engineering projects.
Apart from the engineers, designers and technicians, the table of New and Old Alloy Codes Comparison Table in China from GB/T 3190-1996 can also be used by manufacturers, suppliers and service providers to effectively utilize the materials. The table enables manufacturers, suppliers and service providers to identify the materials accurately, which guarantees the accuracy and reliability of corresponding products.
In order to produce the best products, manufacturers, suppliers and service providers must be familiar with the New and Old Alloy Codes Comparison Table in China from GB/T 3190-1996. This table contains useful information such as alloy designation, materials type, etc., that enable users to select materials without any confusion.
In conclusion, the New and Old Alloy Codes Comparison Table in China from GB/T 3190-1996 provides users with important information related to materials. This table is not only useful for engineers, designers and technicians, but also greatly benefits manufacturers, suppliers and service providers in terms of utilizing the materials accurately. The table contains designations for commonly used alloy materials which help users to quickly access to the data of corresponding old and new alloy codes. This table is intended to be a reference for users to easily determine the materials used in various projects.
