直接激光合成 Fe2O3 改性二氧化钛

V. V. Lennikov, A. Gómez-Herrero, L. A. Angurel, German Francisco de la Fuente, L. C. Otero-Díaz
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摘要

本文介绍了一种非常快速的选择性 CO2 激光线扫描直接合成方法,并将其作为原理验证,用于研究粉末氧化物辐照混合物中相和缺陷的形成。本文报告的 TiO2+xFe2O3 系统的标称成分区间为 0<x<0.03。X 射线衍射分析用于确定主要晶相组成。因此,对于 3% mol.Fe2O3,假勃罗克石晶体与具有扩展缺陷的金红石型 MO2-δ(M=Ti、Fe)共存。这些晶体主要由 (121)r 和 (132)r 晶体剪切面(CSP`s)组成,其中 r 子索引指的是金红石子晶胞。对于 Fe2O3 含量较低(2、1、0.5% mol)的样品,只观察到掺铁的金红石相,由于存在多孪晶 (011)r 和 (110)r 晶体以及短长度尺度上孤立和/或有序的 CSP`s,因此微观结构复杂。在二氧化碳激光生产的样品中观察到的多种微观结构与激光处理过程中施加的条件有关,其中包括固有的高凝固速率和陡峭的温度梯度。
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Direct Laser Synthesis of Fe2O3 modified TiO2
A very fast, selective CO2 laser line scan direct synthesis method is presented and has been applied here to study phase and defect formation within an irradiated mixture of powdered oxides, as a proof‐of‐principle. A nominal composition interval of 0<x<0.03 was conveniently chosen for the TiO2+xFe2O3 system herein reported. X‐ray diffraction analyses were used to determine the main crystalline phase composition. Thus, for 3% mol. Fe2O3, pseudobrookite crystals were found to coexist with rutile‐type MO2‐δ (M=Ti, Fe) with extended defects. These are composed mainly of (121)r and (132)r crystallographic shear planes (CSP`s), where the r sub‐index refers to the rutile subcell. For samples with a lower Fe2O3 content (2, 1, 0.5% mol) only iron‐doped rutile phases were observed, with complex microstructure arising from the presence of multi‐twinned (011)r and (110)r crystals and isolated and/or ordered CSP`s at short length scale. The diverse microstructures observed in the CO2 laser produced samples correlate with the conditions imposed during the laser treatment, which include intrinsically high solidification rates and steep temperature gradients.
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