NOVEL ENVIRONMENT FRIENDLY METHOD OF PREPARING NANOREINFORCED COMPOSITES BASED ON METALLIC, CERAMIC AND POLYMER MATRIXES — SUPERDEEP PENETRATION

机译：基于金属，陶瓷和聚合物基质的纳米因子复合材料制备新的环保方法 - 超级渗透

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At superdeep penetration (SDP) process of penetration of discrete micro-particles and stitching of metals, ceramics and polymers by the synthesized filaments, on depths in tens and hundreds millimeters is realized. Contrary to the basic models at SDP intensive energy release is observed: local melting, synthesis, radiation and forming of massive composite materials. Process of SDP occurs in the boundaries of the closed system. Products of interaction for example, carbon and silicon are saved in volume of preform and don't organize harmful waste at manufacture. The massive composite material is formed in a pulse regime and modified in volume by nano and micro structural elements. Manufacture of a durable material does not demand traditional process of sintering.

机译：在Superdeep渗透（SDP）渗透过程中离散微粒的渗透和金属的缝合，由合成的长丝的陶瓷和聚合物，在数十和数百毫米中实现了深度。与SDP强化能量释放的基本模型相反：局部熔化，合成，辐射和大规模复合材料的形成。 SDP的过程发生在封闭系统的边界中。例如，碳和硅的相互作用产品储存在预制件的体积中，并不会在制造中组织有害废物。大量复合材料形成在脉冲调节中并通过纳米和微结构元件在体积中进行改性。耐用材料的制造不需要传统的烧结过程。

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《NATO Advanced Research Workshop on Environmental and Biological Risks of Hybrid Organic-Silicon Nanodevices》|2009年||共24页
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S. USHERENKO; O. FIGOVSKY;
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中图分类 TB3-532;
关键词
stitching; SDP; chemical compounds; structure reorganization;

机译：缝合;SDP;化合物;结构重组;

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NOVEL ENVIRONMENT FRIENDLY METHOD OF PREPARING NANOREINFORCED COMPOSITES BASED ON METALLIC, CERAMIC AND POLYMER MATRIXES — SUPERDEEP PENETRATION

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