A new iron based superelastic alloy capable of withstanding ...

Researchers have discovered a novel iron-based superelastic alloy (SEA) capable of withstanding extreme temperatures--both high and low.

A superelastic alloy with a nearly limitless temperature window

A new iron based superelastic alloy capable of withstanding extreme temperatures. The temperature range of the new iron-based SEA compared to ...

A New Iron Based Superelastic Alloy Capable of Withstanding ...

Caption. A comparison of the stress-strain curves of the new iron-based SEA in comparison to Nickel-Titanium alloy. Credit. Tohoku University ...

A New Iron Based Superelastic [IMAGE] - EurekAlert!

A New Iron Based Superelastic Alloy Capable of Withstanding Extreme Temperatures (IMAGE) ; Caption. The temperature range of the new iron-based SEA compared to ...

A new iron based superelastic alloy capable of withstanding ...

Title, A new iron based superelastic alloy capable of withstanding extreme temperatures. Media name/outlet, EurekAlert! Country/Territory, United States.

A New Iron Based Superelastic Alloy Capable of Withstanding ...

Researchers from Tohoku University's Graduate School of Engineering have discovered a novel iron-based superelastic alloy (SEA) capable of withstandin....

This alloy is kinky | ScienceDaily

20, 2020 — Researchers have discovered a novel iron-based superelastic alloy (SEA) capable of withstanding extreme temperatures--both high and .

Iron-based superelastic alloy can operate in extreme temperatures

Scientists in Japan working to stretch the limits of super-elastic materials have made a significant breakthrough, demonstrating a new ...

Recent Research Results | News - Tohoku University

A New Iron Based Superelastic Alloy Capable of Withstanding Extreme Temperatures. 2020.7.29, Spin, spin, spin: Researchers enhance electron spin longevity.

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https://ift.tt/3b0GlsA new iron based superelastic alloy capable of withstanding extreme temperatures https: //ift.tt/2FCxRxq Researchers have discovered a ...

Research2020 | Tohoku University Global Site

A New Iron Based Superelastic Alloy Capable of Withstanding Extreme Temperatures. 2020-08-18. Further Details Revealed About a Highly-efficient Anticancer ...

Experimental behavior of iron-based shape memory alloys under ...

Markedly, Fe-SMAs exhibit a lower level of superelasticity compared to NiTi-SMAs, however, they still show an appreciable shape memory effect [ ...

Cyclic Superelastic Behavior of Iron-Based Fe-Ni-Co-Al-Ti-Nb ...

In the present work, the superelastic properties of a recently introduced Fe-Ni-Co-Al-Ti-Nb shape memory alloy are investigated.

High-Strength Superelastic Compounds | T2 Portal

NASA's new Ni-based superalloy uses a powder metallurgy (PM) composition ... These shape memory alloys are capable of undergoing significant reversible ...

This superelastic alloy retains its shape under extreme conditions

The iron-based SEA can withstand temperatures past traditional points of critical stress and it a cost-effective alternative to conventional ...

Manufacturing, processing, applications, and advancements of Fe ...

... new iron-based FeNiCoAlTiNb shape memory alloys. Crystals (Basel) ... Alloy design for Fe-Ni-Co-Al-based superelastic alloys. Mater Today ...

Advances in Shape Memory Alloy-Based Reinforcement in Steel ...

Superelastic SMA Belleville washers for seismic resisting ... Vibration Reduction Performance of a New Tuned Mass Damper with Pre-Strained Superelastic SMA ...

Superelastic Nickel–Titanium (NiTi)-Based Smart Alloys for ...

This paper sheds light on the latest progress made in the applications of SMA in reinforced concrete structures during the last two decades.

deVeloPMent oF A new Iron-BAsed sHAPe MeMory Alloy - Neliti

capable of replace expensive alloys in this category and significantly ... base shape memory and superelastic alloys [Text] / S. Miyazaki,. H. Y. Kim, H ...

based shape memory alloys and their potential in structural - IJSCER

Similarly, good superelastic properties have been observed at room temperature in Fe–36Mn–8Al–8.6Ni (mass %) alloy (Janke et al., 2005), showing a recovery.