雪是最有趣的固体之一。分析雪的结构,你就会发现,它的结晶构造使得它的密度非常低而吸音和隔热非常好,是一种高强度的结构形式。从理论上讲,任何固态物质,只要在其气态状态时混入一定量的空气和惰性气体,然后速冷至凝固温度以下,都能形成雪,这种过饱和的气态物质并不经过液态而瞬时凝结,形成气体悬浮状的结晶,这种结晶很难释放由于凝结而积聚在内部的热能,因此就膨胀成为稀疏的羽毛形树枝晶状的雪花结构。代达罗斯正在试图用这种方法来处理金属。瞬冷时最易产生膨胀压力,也最容易雪化的金属是铥。DREADCO的金属专家们在一个热凝试验罐里冷却了铥蒸气和氩气的混合物,并在显微镜下研究了铥雪的结构,他们准备在进一步弄清这一结构后将此方法应用到其他传统的工程金属上去。 Snow is one of the most interesting solids. Analysis of the structure of the snow, you will find that its crystal structure makes it very low density and sound absorption and insulation is very good, is a high-strength structure. Theoretically, any solid material can form snow as long as it is mixed with a certain amount of air and inert gas in its gaseous state and then rapidly cooled below the solidification temperature, and this supersaturated gaseous material does not go through the liquid state but instantaneously Condenses to form gas-suspended crystals which hardly release the heat energy accumulated inside due to the condensation and therefore expands into a sparse feather-shaped dendritic snowflake structure. Daedalus is trying to handle the metal in this way. When the cold is most likely to produce expansion pressure, it is also the most easily snowed metal. DREADCO’s metal experts cools the mixture of steam and argon in a thermocoagulation test chamber and studies the structure of snow under a microscope and is prepared to apply the method to other traditions after further clarification of the structure Engineering metal up.