• Study Resource
  • Explore
    • Arts & Humanities
    • Business
    • Engineering & Technology
    • Foreign Language
    • History
    • Math
    • Science
    • Social Science

    Top subcategories

    • Advanced Math
    • Algebra
    • Basic Math
    • Calculus
    • Geometry
    • Linear Algebra
    • Pre-Algebra
    • Pre-Calculus
    • Statistics And Probability
    • Trigonometry
    • other →

    Top subcategories

    • Astronomy
    • Astrophysics
    • Biology
    • Chemistry
    • Earth Science
    • Environmental Science
    • Health Science
    • Physics
    • other →

    Top subcategories

    • Anthropology
    • Law
    • Political Science
    • Psychology
    • Sociology
    • other →

    Top subcategories

    • Accounting
    • Economics
    • Finance
    • Management
    • other →

    Top subcategories

    • Aerospace Engineering
    • Bioengineering
    • Chemical Engineering
    • Civil Engineering
    • Computer Science
    • Electrical Engineering
    • Industrial Engineering
    • Mechanical Engineering
    • Web Design
    • other →

    Top subcategories

    • Architecture
    • Communications
    • English
    • Gender Studies
    • Music
    • Performing Arts
    • Philosophy
    • Religious Studies
    • Writing
    • other →

    Top subcategories

    • Ancient History
    • European History
    • US History
    • World History
    • other →

    Top subcategories

    • Croatian
    • Czech
    • Finnish
    • Greek
    • Hindi
    • Japanese
    • Korean
    • Persian
    • Swedish
    • Turkish
    • other →
 
Profile Documents Logout
Upload
smart_materials_1 - Aldercar High School
smart_materials_1 - Aldercar High School

A review on shape memory alloys with applications to morphing
A review on shape memory alloys with applications to morphing

2.1.2 Alloys
2.1.2 Alloys

... This is pretty much an empirical law, it does not pay to justify it theoretically. Again, it is not possible to produce an alloy with a resistivity smaller than one of its components. If you have intermetallic compounds in your phase diagram, use Nordheim's rule with the intermetallic phases as XA a ...
2.2.2 Alloys
2.2.2 Alloys

... This is pretty much an empirical law, it does not pay to justify it theoretically. Again, it is not possible to produce an alloy with a resistivity smaller than one of its components. If you have intermetallic compounds in your phase diagram, use Nordheim's rule with the intermetallic phases as XA a ...
Use of Copper-Base Shape Memory Alloys in Seismic Energy
Use of Copper-Base Shape Memory Alloys in Seismic Energy

Heat Treating of Non Ferous Alloys
Heat Treating of Non Ferous Alloys

... In the surface modification process, hard-facing is a commonly employed method to improve surface properties. An alloy is homogeneously deposited onto the surface of a soft material usually by welding, with the purpose of increasing hardness and wear resistance without significant loss in ductility ...
Ch 1: Engineering materials
Ch 1: Engineering materials

Inweld Nibral, Aluminum Bronze 46
Inweld Nibral, Aluminum Bronze 46

... metal is used for MIG and TIG welding of cast and wrought nickel-aluminum-bronze parts where there is a requirement for high resistance to corrosion, erosion and cavitation in salt or brackish water. The most popular application of Inweld Nibral is for repair and maintenance of ship propellers. It i ...
Microwave Oven
Microwave Oven

... can be deformed and revert back to their original (undeformed) shapes when heated above their transformation temperatures, just look like a memory. The first developed SMA was an alloy of nickel and titanium called Nitinol, which was discovered by scientists at the U.S. Naval Ordnance Laboratory in ...
Electronic structure and phase stability of MgTe, ZnTe, CdTe, and
Electronic structure and phase stability of MgTe, ZnTe, CdTe, and

Section3a - Lyle School of Engineering
Section3a - Lyle School of Engineering

1.5 Modern and smart materials
1.5 Modern and smart materials

Biocompatibility evaluation of nickel
Biocompatibility evaluation of nickel

... In NiTi, the relative symmetries between the two phases lead to a highly ordered transformation, where the displacements of individual atoms can be accurately predicted and eventually lead to a shape change on a macroscopic scale. The crystal structure of martensite is relatively less symmetric comp ...
Document
Document

... which is the linear defect called a dislocation) and the internal stresses which they cause. Recovery phase covers all annealing phenomena that occur before the appearance of new strainfree grains. The second phase is re-crystallization, where new strain-free grains nucleate and grow to replace thos ...
Syllabus High Temperature Structural Materials
Syllabus High Temperature Structural Materials

... High Temperature Materials Unit, NIMS High temperature materials are used under large stress and severe environment such as ...
3.2 student presentation on smart materials
3.2 student presentation on smart materials

... and the shape memory effect. Psuedo-elasticity is where a metal has an almost rubber like flexibility, and its uses include bra underwiring, glasses frames and old mobile phone antennae. The shape memory effect is a unique ability of shape memory alloys to be severely deformed and then returned to t ...
Nickel-Titanium Memory Metal
Nickel-Titanium Memory Metal

application of shape memory alloys in civil engineering
application of shape memory alloys in civil engineering

Smart materials - 123SeminarsOnly.com
Smart materials - 123SeminarsOnly.com

... HISTORY OF SHAPE MEMORY ALLOYS: The first reported step towards discovery of shape memory effect were taken in 1930’s according to Otsuka and Wayman In a silver-cadmium alloy. Shape memory polymers have also been developed and become commercially available in late 1990’s. ...
Shape-Memory Alloy
Shape-Memory Alloy

... "remembers" its original shape and that when deformed returns to its predeformed shape when heated. This material is a lightweight, The two main types of shape-memory alloys are copper-aluminium-nickel, and nickel-titanium (NiTi) alloys. Many metals have several different crystal structures at the s ...
< 1 ... 11 12 13 14 15

Shape-memory alloy



A shape-memory alloy (SMA, smart metal, memory metal, memory alloy, muscle wire, smart alloy) is an alloy that ""remembers"" its original shape and that when deformed returns to its pre-deformed shape when heated. This material is a lightweight, solid-state alternative to conventional actuators such as hydraulic, pneumatic, and motor-based systems. Shape-memory alloys have applications in industries including automotive, aerospace, biomedical and robotics.
  • studyres.com © 2025
  • DMCA
  • Privacy
  • Terms
  • Report