Javascript must be enabled to continue!

On the Structure of Shape Memory Alloys

The paper presents the obtaining of shape memory alloys, base copper and a diffractometer and microscopic study on some samples. The study was made on CuZnAl samples, obtained by classic casting and educated. The shape memory alloys properties recommend their use for applications in domains as follows electric contacts, robotics, and aeronautics. When choosing the type of alloy used for the manufacture of the component parts of different industrial applications, it must be taken into account fatigue resistance, resistance to shocks and resistance to corrosion. Shape memory alloys are a unique group of alloys with the ability to remember a form even after quite severe plastic deformations. At low temperatures, shape memory alloys can be deformed apparently like other metallic alloys, but this deformation can recover with a relatively modest increase in temperature.

Trans Tech Publications, Ltd.

Dragos Cristian Acitei Andrei Victor Sandhu Mohd Mustafa Al Bakri Abdullah Petrică Vizureanu Alida Abdullah

Key Engineering Materials

2013

Title: On the Structure of Shape Memory Alloys

Description:

The paper presents the obtaining of shape memory alloys, base copper and a diffractometer and microscopic study on some samples.

The study was made on CuZnAl samples, obtained by classic casting and educated.

The shape memory alloys properties recommend their use for applications in domains as follows electric contacts, robotics, and aeronautics.

When choosing the type of alloy used for the manufacture of the component parts of different industrial applications, it must be taken into account fatigue resistance, resistance to shocks and resistance to corrosion.

Shape memory alloys are a unique group of alloys with the ability to remember a form even after quite severe plastic deformations.

At low temperatures, shape memory alloys can be deformed apparently like other metallic alloys, but this deformation can recover with a relatively modest increase in temperature.

Back

Related Results

Copper Alloys

Abstract The article contains sections titled: ...

Diffusion and its Application in NiMnGa Alloys

Heusler NiMnGa alloys are often categorized as ferromagnetic shape memory alloys or magnetocaloric materials, which are important for both practical applications and fundamental re...

Shape Memory Alloys

Numerous metallic alloys are now known to exhibit a shape memory effect through which an article deformed at a lower temperature will regain its original undeformed shape when heat...

Promotion of properties of deformed aluminium alloys in modification with nanocomposites

The objective of the work is to obtain a dispersed structure and increase the mechanical and technological properties of deformed aluminum alloys by treating melts with nanodispers...

Shape‐Memory Alloys

Abstract Shape‐memory alloys are capable of undergoing reversible phase transitions as a result of temperature, pressure, or other stress‐related changes. Th...

Topologically Ordered Corrosion Maps of Nickel Alloys

This study was developed to provide an optimum methodology for designing metal alloys. Information on general and localized (pitting and crevices) corrosion of the most commonly u...

Review of Magnetic Shape Memory Smart Materials

Chapter 13 reviews magnetic shape memory alloys (MSMAs), often also referred to as ferromagnetic shape memory alloys (FSMAs), which have emerged as an interesting extension of the ...

Tin and Tin Alloys

Abstract Tin is a soft, brilliant white, low-melting metal that is most widely known and characterized in the form of coating. This article discusses the primary and...

Email:
Password:

Email: