Wednesday, December 18, 2019
Metal That Remembers Its Shape
Metal That Remembers Its Shape Metal That Remembers Its Shape Metal That Remembers Its ShapeMost mechanical engineers dont know much about nitinol, even though this intriguing nickel-titanium alloy was discovered in 1959 at the Naval Ordnance Laboratory in White Oak, MD. The research team made the discovery while searching for materials that could be used in tools for dismantling explosive mines.Now, more than 50 years later, nitinol is the material of choice for select applications in the medical device and aerospace industries.Nitinol is best known for two unique properties that broaden its appeal as a manufacturing material shape memory and superelasticity. Shape memory is the ability of a part made from nitinol to undergo verbiegung at one temperature and then return to its original shape, undamaged, when heated above its transformation temperature. Superelasticity occurs within a few degrees just above the transformation temperature, at which point nitinol exhibits extreme elast icity, up to 30 times that of ordinary metal.These incredible qualities are caused by the material changing from its low-temperature monoclinic martensitic structure to a high-temperature cubic austenitic structure.When nitinol is its martensitic state, it can be easily deformed into a new shape that it holds. When heated to its transition temperature, the deformed object transforms to an austenitic structure and reverts to its original shape. The transition temperature can be adjusted by making slight changes to the alloy composition and through heat treatment.A schematic illustrating the shape memory effect of NiTi alloys. Image Wikimedia CommonsAbove the transformation temperature, nitinol becomes superelastic. This is caused by martensite that forms in areas of high stress, even though the temperature is in the austenite range. When the stress is released, these martensite zones return to an austenite structure.Nitinol has a high fatigue strength. Above its transformation temper ature, it can handle up to an eight percent strain and still return to its original shape. Other attractive physical properties are thermal and electrical conductivity, biocompatibility, corrosion resistance, and kink resistance.Working with NitinolIn order to have the shape-memory function, the part must be shape set. The part is held in a mold under pressure while it is heat-treated at 500 degrees Celsius and then fast-cooled. Then, if the piece is later twisted or deformed below its transformation temperature, it will return to its remembered shape after it reaches the transformation temperature during reheating.Nitinol also has excellent corrosion resistance, the result of a passive titanium oxide layer that protects the base material from corrosion and nickel release. In fact, writes Confluent Medical Technologies, a medical device manufacturer in Fremont, CA, many researchers report that nitinol is more corrosion-resistant than stainless steel. Surface preparation is also crit ical for good biocompatibility and corrosion performance.A very abrasive material because of its hard titanium-oxide surface, nitinol generates considerable tool wear on milling, turning, and grinding equipment.Carbide tooling is highly recommended, states Confluent. During centerless grinding, ensure adequate cooling lubricant is present. Nitinol can also be electrical discharge machined (EDM), water-jet cut, and laser machined with excellent results.Bear in mind that nitinol is expensive to make, buy, and engineer, so to be commercially successful, these costs must be small relative to the price of the final product, points out Craig Bonsignore, vice president of applied technology for Confluent. This is true for many medical products, where nitinol enables minimally invasive procedures that would otherwise require more costly and/or risky surgery.Applications AboundThe unique combination of shape memory, superelasticity, and biocompatibility makes nitinol an ideal material for me dical and dental applications. Products include orthodontic arch wire, filters, and bone anchors. The superelastic qualities of nitinol especially benefit stents, mesh-like devices that structurally reinforce blood vessels. Nitinol stents (or heart valves) can be compressed into shapes that fit inside a catheter. When the catheter is positioned at the correct location within a blood vessel, the stent is released and returns to its predetermined shape, holding open the wall of the blood vessel.The aerospace industry is quite invested in shape memory applications, most notably in newer commercial jet engines that can morph in shape to optimize for noise and fuel efficiency at different stages of flight, says Bonsignore. Nitinol is also a key component in robotically controlled instruments, flight control panels, aircraftlanding gear, and thermal actuated controls.Researchers have also developed nitinol nanoparticles for electrical and thermal sensors in devices for aerospace, electron ics, optical, biomedical, and petrochemical industries. These particles enable transmission of electrical energy without overheating. Nitinol is also used for manufacturing eyeglass frames, robotics, household appliances, and fire sprinkler systems. In a less serious application, Nitinol enables spoons from the magic shop to bend when placed in hot water.Bonsignore cautions that, although nitinol has some very attractive characteristics, using it comes with significant costs. Dont use nitinol if you dont have to, or if the application cant afford it, he advises. We spend a surprising amount of time trying to talk customers out of using the material.Although industrious engineers can make good progress with some material samples purchased online, simple forming tools, and an air furnace, Bonsignore recommends engaging a manufacturer experienced with the material to avoid common pitfalls and make progress quickly. Many engineers do not appreciate the importance of thermal processing a nd surface processing to the mechanical and fatigue characteristics of the material, so working with an experienced manufacturer can have a significant influence on performance outcomes.Mark Crawford is an independent writer. For Further Discussion
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