In this interview, AZoM speaks to Acoustica’s Managing Director, Philippe Doneux (PD) about their products and technology and why they are so important.
MAX phases exhibit a unique combination of characteristics of both ceramics and metals with unusual mechanical, electrical and thermal properties making them suitable for numerous applications.
By Professor Jim Low
4 Sep 2012
In this interview, AZoM speaks with Erik Berndt (EB), Medical Industry Manager for Zwick/Roell, to discuss material testing trends in the medical plastics industry.
Carbon steels are steels that have carbon as the chief alloying element. They have up to 0.4% silicon and 1.2% manganese. In addition, the residual elements such as nickel, chromium, aluminum, molybdenum and copper are present in these steels.
Carbon steels have carbon as the main alloying element within their chemical composition. They also contain up to 0.4% silicon and 1.2% manganese. In addition, residual elements such as copper, molybdenum, aluminum, chromium and nickel are present in these steels.
Stainless Steel 304 is regarded the world over as one of the most suitable materials for the manufacture of medical devices for all sorts of applications.
Steels containing carbon as the major alloying element are referred as carbon steels. The following datasheet gives an overview of the AISI 1046 carbon steel and covers mechanical and thermal properties as well as chemical composition.
The copper alloy UNS C90800 is a copper, tin phosphorus alloy. This data sheet provided the chemical composition and mechanical properties of this alloy.
The UNS C92700 alloy is a leaded tin bronze, copper casting alloy. The datasheet provided herein provides an overview of the UNS C92700 alloy. It covers chemical composition, mechanical properties and fabrication date for UNS C92700.
The UNS C92600 alloy is a leaded tin bronze copper casting alloy. The datasheet given below provides an overview of the UNS C92600 alloy including chemical composition, mechanical properties and fabrication information.