Effect of Particle Size of a Powder upon the Properties and Microstructure of Boron-modified Fe-Ni-Mo-Cu Sinters

M. Perek-Nowak, Magdalena Majchrowska, J. Karwan-Baczewska, M. Rosso
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Abstract

The article discusses the effect of different particle fractions of prealloyed iron powder on the microstructure, density and hardness of sintered material. Each particle fraction (apart from 160–200 µm, which is a trace fraction) was modified with boron, its contents being, respectively, 0.2 wt.%, 0.4 wt.% and 0.6 wt.%. Next, the powder mixtures were pressed under a pressure of 600 MPa, and the final compacts were subject to sintering at 1200°C for 60 min in a hydrogen atmosphere. It was observed that the higher values of density and hardness were found in samples made from finer fractions of powder. A higher homogeneity of the microstructure and the highest degree of compactness was obtained in sinters from powder of 40–56 µm particle size, with 0.4 wt.% boron. Due to the use of small particle fractions of prealloyed powder, a higher degree of compactness in sinters was obtained with lower boron content. Also indicated was which particle fraction of Fe-Ni-Mo-Cu powder should be applied to obtain density in sinters with boron addition equal to almost 100% of the relative density of the analyzed alloy. The presented studies have both scientific and technological aspects.  
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粉末粒度对硼改性Fe-Ni-Mo-Cu烧结矿性能和微观结构的影响
本文讨论了预合金铁粉不同粒度对烧结材料显微组织、密度和硬度的影响。除160 ~ 200µm为微量组分外,各颗粒组分均用硼改性,其含量分别为0.2 wt.%、0.4 wt.%和0.6 wt.%。接下来,将粉末混合物在600 MPa的压力下进行压制,并在氢气气氛中在1200℃下烧结60 min。我们观察到,在由细粉制成的样品中,密度和硬度值较高。在40-56 μ m的粉末中,硼含量为0.4 wt.%,烧结体的微观结构均匀性较高,致密度最高。由于使用了小颗粒的预合金化粉末,在硼含量较低的情况下,烧结矿的致密程度较高。还指出了在烧结矿中加入硼后,应采用Fe-Ni-Mo-Cu粉末的哪个颗粒分数来获得几乎等于所分析合金相对密度100%的密度。提出的研究既有科学方面的,也有技术方面的。
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