本文選題：應(yīng)用物理研究 + 實(shí)驗(yàn)需求�。� 參考：《塑料工業(yè)》2017年11期

【摘要】：正3D打印的應(yīng)用以令人暈眩的速度增長(zhǎng)。近來(lái),一項(xiàng)新策略將塑料、3D打印和電鍍結(jié)合,可輕松生成復(fù)雜的研發(fā)儀器,用于操控每個(gè)分子。研究人員Andeas Osterwalder采用3D打印,用塑料創(chuàng)建出了分子束分裂器,然后再電鍍上鎳,使儀器看起來(lái)細(xì)密精致,機(jī)械強(qiáng)度和導(dǎo)電性都能滿(mǎn)足實(shí)驗(yàn)需求。Osterwalder和他的同事在最近一期《應(yīng)用物理研究》雜
[Abstract]:The use of positive 3 D printing is growing at a dizzying rate. Recently, a new strategy combines plastic 3D printing with electroplating to easily generate sophisticated R & D instruments for manipulating each molecule. The researchers, Andeas Osterwalder, used 3D printing, using plastic to create molecular beam splitters and then electroplating nickel to make the instrument look fine and delicate. Both mechanical strength and electrical conductivity meet the experimental requirements. Osterwalder and his colleagues in the latest issue of Applied Physics Research
【分類(lèi)號(hào)】：TQ153;TQ320.79
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本文編號(hào)：1870519