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科学家做出了在强度密度比上优于钻石的物质

  Scientists have found a new way to structure carbon at the nanoscale,making a material that's superior to diamond on the strength-to-density ratio.

  科学家发现了一种新的方法构造纳米级碳,做出了一种在强度密度比上优于钻石的物质。

  微碳晶格

  While the tiny carbon lattice has been fabricated and tested in the lab,it's a very long way off practical use.But this new approach could help us build stronger and lighter materials in the future-which is something that's of great interest to industries such as aerospace and aviation.

  虽然做出了这种微碳晶格,在实验室中进行了测试,但还不能用于实际应用。但这种新的方法能帮我们在未来构造出更坚固更轻的物质,航空航天等行业对此会非常感兴趣。

  What we're talking about here is something known as a nanolattices-porous structures like the one in the image above that's made up of three-dimensional carbon struts and braces.Due to their unique structure,they're incredibly strong and lightweight.<纽约时报中英文网 http://www.qqenglish.com/>

  我们讨论的是纳米晶格,这种多孔结构如上图所示,是由三维碳素支柱和支撑构成的。由于其结构独特,所以异常坚固轻便。

  Usually these nanolattices are based around a cylindrical framework(they're called beam-nanolattices).But the team has now created plate-nanolattices,structures based around tiny plates.

  通常这种纳米晶格是以圆柱形框架为基础的(我们称之为束纳米晶格)。但这个团队现在创造出了平板纳米晶格,是基于微型平板的结构。

  科学家做出了在强度密度比上优于钻石的物质

纽约时报中英文网 http://www.qqenglish.com



  This subtle shift may not sound like much,but the researchers say it can make a big difference when it comes to strength.

  这种微妙的变化可能听起来没什么,但研究人员说这对强度有很大影响。

  Based on early experiments and calculations,the plate approach promises a 639 percent increase in strength and a 522 percent increase in rigidity over the beam nanolattice approach.

  基于早期的实验和计算,这种平板结构与束纳米晶格相比,强度会提高639%,硬度会提高522%。

  "Scientists have predicted that nanolattices arranged in a plate-based design would be incredibly strong,"says materials scientist Cameron Crook,from the University of California,Irvine(UCI).

  加利福尼亚大学尔湾分校材料科学家Cameron Crook说:“科学家预测平板设计的纳米晶格会异常坚固。”

  "But the difficulty in manufacturing structures this way meant that the theory was never proven,until we succeeded in doing it."

  “但以这种方式制造结构的困难程度说明这一理论从未被证实过,我们得成功做出来才行。”
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