To szczegółowe porównanie podkreśla kluczowe aspekty, mocne strony i potencjalne zastosowania stopów brązu aluminiowego C63000 i C63200, zapewniając jasne wskazówki dotyczące wyboru w oparciu o konkretne potrzeby. Skład chemiczny (w %): Pierwiastek C63000 C63200 Cu Pozostałość Pozostałość Fe 2,00-4,00 3,5-4,3 Ni 4,00-5,50 4,0-4,8 Al 9,00-11,00 8,7-9,5 Mn 1,50 max 1,2-2,0 Si 0,25 max 0,10...
Charakterystyczny aluminium Brąz Cyna Brąz Skład Główny pierwiastek stopowy Aluminium (5-12%) Cyna (5-25%) Inne typowe pierwiastki Żelazo, nikiel, mangan, krzem Fosfor, ołów, cynk Typowe gatunki C95200 (Cu-9Al-2Fe)C95400 ( Cu-11Al-4Fe)C95500 (Cu-11Al-4Ni-4Fe) C90700 (Cu-10Sn)C93200 (Cu-7Sn-7Pb-2Zn)C52100 (Cu-8Sn-0,3P) Właściwości fizyczne Kolor Złoty do czerwono-złotego Czerwonawy do bladożółtego Gęstość 7,7-8,1 g/cm3 8,7-8,9 g/cm3 Temperatura topnienia 1030-1080°C (1886-1976°F) 830-1000°C (1526-1832°F) Termiczna...
Wprowadzenie do brązu aluminiowego Brąz aluminiowy to rodzina stopów na bazie miedzi, która składa się głównie z miedzi stopionej z aluminium, często zawierającej dodatkowe pierwiastki, takie jak żelazo, nikiel, mangan i krzem. Ten wszechstronny stop łączy w sobie doskonałą odporność na korozję brązu z wytrzymałością i lekkością aluminium, tworząc materiał, który oferuje...
This document provides a comprehensive comparison between the UNS C95500 and UNS C95400 copper alloys, detailing their chemical composition, mechanical properties, temperature performance, industry applications, shapes and sizes, production standards, processing techniques, advantages and disadvantages, and similar products, all presented in table formats. Chemical Composition Element UNS C95500 Content (%) UNS C95400 Content (%) Copper,...
This document provides a comprehensive comparison between the UNS C95800 and UNS C95500 copper alloys. The comparison includes details on chemical composition, mechanical properties, temperature performance, industry applications, shapes and sizes, production standards, processing techniques, advantages and disadvantages, and similar products, all presented in table format. Chemical Composition C95800 VS C95500 Element UNS C95800 Content...
This article compares the characteristics of UNS C63200 and UNS C95800 copper alloys, detailing their chemical compositions, mechanical properties, performance at different temperatures, industry applications, shape, size, production standards, and additional relevant factors. Chemical Composition Element C63200 (%) C95800 (%) Aluminum (Al) 8.7 – 9.5 8.5 – 9.5 Nickel (Ni) 4.0 – 4.8 4.0 –...
Here’s a detailed comparison between UNS C62300 and UNS C62400 copper alloys, structured into sections and tables for ease of understanding. This comparative analysis includes essential properties, performance metrics, industry applications, processing methods, and more. Comparison of UNS C62300 and UNS C62400 Copper Alloys Introduction UNS C62300 and UNS C62400 are both aluminium bronze alloys...
C63000 is a nickel-aluminum-bronze alloy known for its excellent mechanical properties, corrosion resistance, and versatility in various applications. It is widely used in marine, aerospace, and industrial sectors due to its durability and performance. Chemical Composition Based on the provided image, the correct chemical composition of C63000 is as follows: Element Composition (%) Cu Rem....
Tin bronze and aluminum bronze are both types of copper alloys, but they differ in their composition and properties: Composition: Properties: Applications: In summary, the main differences lie in their alloying elements and resulting mechanical and corrosion-resistant properties, which dictate their respective applications.
Why Bushings are Made of Bronze Common Grades of Bronze bushings Applications of Bronze Bushings Conclusion Bronze bushings are a reliable choice for various applications due to their excellent wear resistance, low friction, and durability. The choice of bronze grades allows for tailored solutions to meet specific operational needs, ensuring optimal performance in demanding environments.