Fabrication and oxidation resistance of the non-stoichiometric tantalum-hafnium carbonitride

V. S. Suvorova, A. Nepapushev, D. Moskovskikh, K. Kuskov
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Abstract

This research was conducted to obtain non-stoichiometric tantalum-hafnium carbonitride powder of the Fm3m (225) structural type using a combination of mechanical activation (MA) and self-propagating high-temperature synthesis (SHS) methods. Mechanical activation for 60 min in a low-energy mode (347 rpm) forms Ta/Hf/C composite particles 1 to 20 μm in size with a layered structure and contributes to a uniform distribution of elements. SHS of a mechanically activated Ta + Hf + C mixture in a nitrogen atmosphere (0.8 MPa) leads to the formation of a single-phase tantalum-hafnium carbonitride powder with the Ta0.25Hf0.75C0.5N0.3 composition where particles feature by a ≪spongy≫ morphology with pores and caverns and consist of submicron grains. Spark plasma sintering (SPS) was used to obtain a bulk sample of tantalum-hafnium carbonitride with a grain size of 3 to 5 μm, relative density of 98.2 Ѓ} 0.3 %, hardness of 19.8 Ѓ} 0.2 GPa, and crack resistance of 5.4 Ѓ} 0.4 MPa・m1/2. The kinetics of (Ta,Hf)CN oxidation at 1200 °C in air is described by a parabolic law suggesting the formation of an Hf6Ta2O17 + mHfO2 oxide layer with a low oxygen diffusion rate where the oxidation rate is 0.006 mg/(cm2・s). A (Ta,Hf)CN oxidation mechanism is proposed, which states that Ta2O5 and HfO2 are formed on the surface of grains at the first stage that react with each other at the second stage to form a Hf6Ta2O17 homologous superstructure and monoclinic HfO2. CO, CO2, NO and NO2 gaseous oxidation products are released with the formation of pores and cracks.
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非化学计量碳氮化钽铪的制备及其抗氧化性能
本研究采用机械活化(MA)和自传播高温合成(SHS)相结合的方法制备了Fm3m(225)结构型的非化学计量碳氮化钽铪粉末。在低能模式下(347 rpm)机械活化60 min,形成尺寸为1 ~ 20 μm的Ta/Hf/C复合颗粒,具有层状结构,有助于元素均匀分布。机械活化的Ta + Hf + C混合物在氮气气氛(0.8 MPa)中SHS可形成ta0.25 hf0.75 5c0.5 n0.3成分的单相钽-铪碳氮化物粉末,其中颗粒具有“海绵状”形态,有孔隙和洞穴,由亚微米颗粒组成。采用火花等离子烧结(SPS)法制备了晶粒尺寸为3 ~ 5 μm、相对密度为98.2% Ѓ} 0.3%、硬度为19.8 Ѓ} 0.2 GPa、抗裂性为5.4 Ѓ} 0.4 MPa·m1/2的钽铪碳氮化体样品。1200℃时(Ta,Hf)CN在空气中的氧化动力学符合抛物线规律,表明形成氧扩散速率低的Hf6Ta2O17 + mHfO2氧化层,氧化速率为0.006 mg/(cm2·s)。提出了A (Ta,Hf)CN氧化机理,即第一阶段在晶粒表面形成Ta2O5和HfO2,第二阶段相互反应形成Hf6Ta2O17同源上层结构和单斜HfO2。CO、CO2、NO、NO2等气态氧化产物随气孔和裂纹的形成而释放。
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