ENHANCED REACTIVITY OF MECHANICALLY-ACTIVATED NANO-SCALE GASLESS REACTIVE MATERIALS CONSOLIDATED VIA THE COLD-SPRAY TECHNIQUE

机译：通过冷喷涂技术改变机械活化的纳米尺度无气体反应材料的反应性

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The present study presents a novel method to prepare nano-scale energetic materials with high reactivity, vanishing porosity, structural integrity and arbitrary shape. The experiments have focused on the Ni-Al system. To increase the reactivity, an initial mechanical activation was achieved by the ball milling technique. The consolidation of the materials used the supersonic cold gas spray technique, where the particles are accelerated to high speeds and consolidated via plastic deformation upon impact, forming activated nanocomposites in arbitrary shapes with close to zero porosity. This technique permits to retain the microstructures in the powders and prevents any reactions during the consolidation phase. The material reactivity is addressed through the flame propagation velocity, which showed an increase in the flame speed of the cold sprayed samples by up to one order of magnitude compared to their cold pressed counterparts.

机译：本研究提出了一种新颖的方法，用于制备具有高反应性，消失孔隙度，结构完整性和任意形状的高反应性，消失孔隙度，结构完整性。实验集中在Ni-Al系统上。为了提高反应性，通过球磨技术实现了初始机械激活。材料的固结用来使用超声波冷气体喷射技术，其中颗粒加速到高速并通过塑性变形在撞击时通过塑性变形，以近零孔隙的任意形状形成活性纳米复合材料。该技术允许保留粉末中的微观结构并防止在固结阶段期间的任何反应。通过火焰传播速度解决了材料反应性，与其冷压对应物相比，通过火焰传播速度解决了冷喷涂样品的火焰速度达到一个级的升高量。

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《Conference of the American Physical Society Topical Group on Shock Compression of Condensed Matter》|2012年||共4页
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A. Bacciochini; M. Radulescu; Y. Charron-Tousignant; J. Van Dyke; B. Jodoin; M. Nganbe; M. Yandouzi; J.J. Lee;
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中图分类 TB9-53;
关键词
Nickel aluminide; ball-milling; cold-gas dynamic-spray; flame propagation; reactivity;

机译：镍铝;球磨;冷气动态喷涂;火焰繁殖;反应性;

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专利

1. Enhanced reactivity of mechanically-activated nano-scale gasless reactive materials consolidated by coldspray [J] . Bacciochini A., Radulescu M.I., Charron-Tousignant Y., Surface & Coatings Technology . 2012,第21期

机译：通过冷喷涂固结的机械活化纳米级无气反应性材料的反应活性增强
2. Fabrication of nano-scale phase change materials using nanoimprint lithography and reactive ion etching process [J] . Ki-Yeon Yang, Jong-Woo Kim, Sung-Hoon Hong, Thin Solid Films . 2010,第20期

机译：使用纳米压印光刻和反应离子刻蚀工艺制备纳米级相变材料
3. Reactive structural materials consolidated by cold spray: Al-CuO thermite [J] . Bacciochini A., Radulescu M.I., Yandouzi M., Surface & Coatings Technology . 2013,第Null期

机译：通过冷喷涂加固的反应性结构材料：Al-CuO铝热剂
4. ENHANCED REACTIVITY OF MECHANICALLY-ACTIVATED NANO-SCALE GASLESS REACTIVE MATERIALS CONSOLIDATED VIA THE COLD-SPRAY TECHNIQUE [C] . A. Bacciochini, M. Radulescu, Y. Charron-Tousignant, Conference of the American Physical Society Topical Group on Shock Compression of Condensed Matter . 2012

机译：通过冷喷涂技术改变机械活化的纳米尺度无气体反应材料的反应性
5. Influence of Porosity on the Flame Speed in Gasless Bimetallic Reactive Systems [D] . Akbarnejad, Hesam 2013

机译：无气双金属反应体系中孔隙度对火焰速度的影响
6. Preparation and Reactivity of Gasless Nanostructured Energetic Materials [O] . Khachatur V. Manukyan, Christopher E. Shuck, Alexander S. Rogachev, 2015

机译：无气纳米结构含能材料的制备与反应性
7. Cold-spray technique as efficient alternative process for consolidation of powdered Al-Fe-Cr alloys reinforced by nanoquasicrystalline particles [O] . Byakova A.V., Yurkova A.I., Cherednichenko V.V., 2011

机译：冷喷涂技术是固结纳米准晶颗粒增强的Al-Fe-Cr粉末合金的有效替代方法
8. Characterization Techniques Employed to Determine the Energy Release of Reactive Materials [R] . Ritter, J. J., Brant, A. L., Colburn, J. W., 2010

机译：用于确定反应材料能量释放的表征技术

ENHANCED REACTIVITY OF MECHANICALLY-ACTIVATED NANO-SCALE GASLESS REACTIVE MATERIALS CONSOLIDATED VIA THE COLD-SPRAY TECHNIQUE

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