THE INFLUENCE OF ELEMENTAL POWDER RAW MATERIAL ON THE FORMATION OF THE POROUS FRAME OF TI3ALC2 MAX-PHASE WHEN OBTAINING BY THE SHS METHOD

D. Davydov, E. Umerov, E. I. Latukhin, A. Amosov
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引用次数: 2

Abstract

The ternary carbide compound Ti3AlC2 belongs to the so-called MAX-phases – a new type of ceramic materials with unique properties. A simple energy-saving method of self-propagating high-temperature synthesis (SHS) based on combustion is one of the promising methods for the production of this MAX-phase. The application of the SHS technology is to produce a Ti3AlC2 MAX-phase porous frame with the homogeneous porous structure without such defects as large pores, laminations, and cracks is of great interest. The paper investigates the possibility of producing such a porous frame with the maximum content of the Ti3AlC2 MAX-phase using powders of Ti, Al, and C elements of various grades different in particle sizes and carbon forms (soot or graphite) as initial components. Porous frame samples were produced by the open-air burning of pressed briquettes of charge of the initial powders of the selected grades without applying external pressure. The authors studied the macro- and microstructure of the obtained samples, their density, and phase composition. The study shows that using the finest titanium and carbon powders leads to the excessively active combustion with gas evolution and the synthesis of the defective porous samples with the charge briquette shape distortion, large pores, laminations, and cracks. Besides the titanium carbide by-phase, the highest values for the MAX-phase amount in the SHS-product were obtained using the titanium powder of the largest-size fraction together with the graphite powder, rather than soot. The excess aluminum powder addition to the stoichiometric ratio to the initial charge leads to an increase in the MAX-phase amount in the SHS product, compensating for the loss of aluminum due to evaporation. An increase in the sample volume (scale factor) also leads to an increase in the MAX-phase amount in the SHS product due to the slower cooling of the product after the reaction.
单质粉末原料对SHS法制备ti3alc2 max相多孔框架形成的影响
三元碳化物化合物Ti3AlC2属于所谓的max相,是一种具有独特性能的新型陶瓷材料。一种简单节能的基于燃烧的自传播高温合成(SHS)方法是生产该max相的有前途的方法之一。SHS技术的应用是制备具有均匀多孔结构的Ti3AlC2 max相多孔框架,该框架不存在气孔大、片状、裂纹等缺陷。本文研究了使用不同粒度和碳形式(烟灰或石墨)的不同等级的Ti、Al和C元素粉末作为初始组分,生产Ti3AlC2 max相含量最高的多孔框架的可能性。多孔框架样品是在不施加外部压力的情况下,通过对选定等级的初始粉末的压药型块进行露天燃烧而产生的。作者研究了所得样品的宏观和微观结构、密度和相组成。研究表明,使用最细的钛碳粉会导致燃烧过于活跃,并伴有气体的析出,合成的多孔缺陷样品具有装药型煤形状变形、气孔大、片状和裂纹。除分相碳化钛外,最大粒径钛粉与石墨粉混合时,shs产品的max相量最大,而不是煤烟。过量的铝粉加入到初始电荷的化学计量比中,导致SHS产物中max相量的增加,补偿了由于蒸发导致的铝的损失。样品体积(比例因子)的增加也会导致SHS产物中max相量的增加,因为反应后产物冷却速度较慢。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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