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Regelation is the phenomenon of melting under pressure and freezing again when the pressure is reduced. Many sources state that ''regelation can be demonstrated by looping a fine wire around a block of ice, with a heavy weight attached to it. The pressure exerted on the ice slowly melts it locally, permitting the wire to pass through the entire block. The wire's track will refill as soon as pressure is relieved, so the ice block will remain solid even after wire passes completely through.'' This experiment is possible for ice at −10 °C or cooler, and while essentially valid, the details of the process by which the wire passes through the ice are complex. The phenomenon works best with high thermal conductivity materials such as copper, since latent heat of fusion from the top side needs to be transferred to the lower side to supply latent heat of melting.〔Hanne, E and Grigull, U. (Some experiments on regelation of ice ). Reprinted from ''Physics of Ice'', Plenum Press, 1969.〕 If 1 mm diameter wire is used, over an ice cube 50 mm wide, the area the force is exerted on is 50 mm2. This is 50×10−6 m2. Force (in newtons) equals pressure (in pascals) multiplied by area (in square metres). If at least 500 atm (50 MPa) is required to melt the ice, a force of (50×106 Pa)(50×10−6 m2) = 2500 N is required, a force roughly equal to the weight of 250 kg on Earth. Regelation was discovered by Michael Faraday. Regelation occurs only for substances, such as ice, that have the property of expanding upon freezing, for the melting points of those substances decrease with increasing external pressure. The melting point of ice falls by 0.0072 °C for each additional atm of pressure applied. For example, a pressure of 500 atmospheres is needed for ice to melt at −4 °C.〔(Glossary of Meteorology: Regelation ), American Meteorological Society, 2000〕 ==Surface Melting== For a normal crystalline ice far below its melting point, there will be some relaxation of the atoms near the surface. Simulations of ice near to its melting point show that there is significant melting of the surface layers rather than a symmetric relaxation of atom positions. Nuclear magnetic resonance provided evidence for a liquid layer on the surface of ice. In 1998, using atomic force microscopy, Astrid Doppenschmidt and Hans Jurgen Butt, measured the thickness of the liquid-like layer on ice to be between 12 nm at −24 °C and 70 nm at −0.7 °C. Surface melting was found to begin at temperatures as low as −33 °C.〔Physics Today, December 2005, pp. 50–55.〕 The surface melting can account for the following: *Low coefficient of friction of ice, as experienced by skaters. *Ease of compaction of ice *High adhesion of ice surfaces 抄文引用元・出典: フリー百科事典『 ウィキペディア(Wikipedia)』 ■ウィキペディアで「Regelation」の詳細全文を読む スポンサード リンク
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