Novel structural model heals with heat. (Easy Repair).The capacity of biological tissues to heal after being wounded is one of their most enviable traits. In recent years, materials scientists have been trying to emulate this capability by developing synthetic self-healing or easily mendable materials for products ranging from aerospace parts to athletic gear (SN: 2/17/01, p. 101). Now, Mila Boncheva and George Whitesides of Harvard University Harvard University, mainly at Cambridge, Mass., including Harvard College, the oldest American college. Harvard College Harvard College, originally for men, was founded in 1636 with a grant from the General Court of the Massachusetts Bay Colony. are tapping the vertebral ver·te·bral adj. 1. Of, relating to, or of the nature of a vertebra. 2. Having or consisting of vertebrae. 3. Having a spinal column. spine for inspiration. Using millimeter-scale polymer beads for vertebrae Vertebrae Bones in the cervical, thoracic, and lumbar regions of the body that make up the vertebral column. Vertebrae have a central foramen (hole), and their superposition makes up the vertebral canal that encloses the spinal cord. and thin elastic threads for muscles and ligaments, the researchers have created spinelike structures that can deform drastically, even become damaged, yet still return to their original forms. The researchers describe two of these structures in the June 16 Angewandte Chemie International Edition. "I've never seen anything like it," comments Richard Syms of Imperial College in London. To make one of the structures, Boncheva and Whitesides strung 10 hourglass-shape beads on an elastic thread, which they knotted tightly. The thread exerted compressive com·pres·sive adj. Serving to or able to compress. com·pres  sive·ly adv. forces on the beads, which lined up perpendicular to one another, their waists snugly meshing. Each bead had a small patch of low-melting-point solder on each side of its waist, and these patches bonded the beads into a solid structure. When part of the chain of beads was held on a surface, it supported around 250 grams--roughly the weight of two sticks of butter--applied at the other end. With more weight, one of the soldered joints gave out. Gentle shaking in a beaker beaker /beak·er/ (bek´er) a glass cup, usually with a lip for pouring, used by chemists and pharmacists. beaker a round laboratory vessel of various materials, usually with parallel sides and often with a pouring spout. of warm water realigned the chain. After the solder cooled and hardened, the researchers could repeat the breaking and reforming process. To make their second structure, Boncheva and Whitesides strung the beads and knotted the ends of the string, then attached each end to a support 1 centimeter from the end beads. The resulting tensile forces on the beads mimicked those in a traction splint A traction splint is used to treat severe bone fractures by traction along toe broken portion's length. The use of traction splints by pre-hospital care providers may reduce the pain of trauma from such fractures, and traction splints are a near-universal, although a relic, piece , which is sometimes used to hold fractured bones in place. When a solder joint broke, this system required only heating--no shaking--to re-form. "It's a clever system," says Richard Wool of the University of Delaware [3] The student body at the University of Delaware is largely an undergraduate population. Delaware students have a great deal of access to work and internship opportunities. in Newark. It could prove useful for designing vehicle-escape panels, car windshields, or even impact-resistant military-tank parts that could regain their original shape when heated, he speculates. Although they're not yet sure how to do it, the researchers aim to scale down their system using micro- or even nanoscale parts to replace the beads, solder, and elastic thread, says Boncheva. With such miniaturization min·i·a·tur·ize tr.v. min·i·a·tur·ized, min·i·a·tur·iz·ing, min·i·a·tur·iz·es To plan or make on a greatly reduced scale. min , researchers might use this strategy for installing healing properties into materials' internal microstructures. |
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