ISO 11844-1:2006 – Corrosion of metals and alloys — Classification of low corrosivity of indoor atmospheres — Part 1: Determination and estimation of indoor corrosivity
This document reached stage 90.92 on 2017-01-25 , TC/SC: ISO/TC 156, ICS: 77.060
ISO 11844-3:2006 – Corrosion of metals and alloys — Classification of low corrosivity of indoor atmospheres — Part 3: Measurement of environmental parameters affecting indoor corrosivity
This document reached stage 90.92 on 2017-01-25 , TC/SC: ISO/TC 156, ICS: 77.060
ISO/CD 11844-2 – Corrosion of metals and alloys — Classification of low corrosivity of indoor atmospheres — Part 2: Determination of corrosion attack in indoor atmospheres
This document reached stage 30.99 on 2017-01-25 , TC/SC: ISO/TC 156, ICS: 77.060
ISO/CD 11844-1 – Corrosion of metals and alloys — Classification of low corrosivity of indoor atmospheres — Part 1: Determination and estimation of indoor corrosivity
This document reached stage 30.99 on 2017-01-25 , TC/SC: ISO/TC 156, ICS: 77.060
ISO/CD 11844-3 – Corrosion of metals and alloys — Classification of low corrosivity of indoor atmospheres — Part 3: Measurement of environmental parameters affecting indoor corrosivity
This document reached stage 30.99 on 2017-01-25 , TC/SC: ISO/TC 156, ICS: 77.060
ISO 11844-2:2005 – Corrosion of metals and alloys — Classification of low corrosivity of indoor atmospheres — Part 2: Determination of corrosion attack in indoor atmospheres
This document reached stage 90.92 on 2017-01-25 , TC/SC: ISO/TC 156, ICS: 77.060
ISO 15257 – Cathodic protection — Competence levels of cathodic protection persons — Basis for a certification scheme
This document reached stage 60.00 on 2017-01-25 , TC/SC: ISO/TC 156, ICS: 77.060
ISO/DIS 4490 – Metallic powders — Determination of flow rate by means of a calibrated funnel (Hall flowmeter)
This document reached stage 40.00 on 2017-01-20 , TC/SC: ISO/TC 119/SC 2, ICS: 77.160
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Nitinol for Medical Applications: A Brief Introduction to the Properties and Processing of Nickel Titanium Shape Memory Alloys and their Use in Stents
Shape memory alloys are remarkable materials that open up a wide range of uses. Nitinol, an alloy of nickel and titanium, is one of the most important of these materials. Some of its major applications are in medical devices where its unique properties allow minimally invasive surgery and implants to improve quality of life for millions of people. With the growing global population and increasing numbers of people able to access quality healthcare, the availability of advanced materials such as Nitinol is essential to allow continued progress in improving lives across the world. This article will review the discovery, material properties, processing methods and medical applications of Nitinol, with a special focus on stents for the treatment of arterial diseases, which constitute one of Nitinol’s major uses.
The post Nitinol for Medical Applications: A Brief Introduction to the Properties and Processing of Nickel Titanium Shape Memory Alloys and their Use in Stents appeared first on Johnson Matthey Technology Review.