高溫氧化性能的影響
(中南大學(xué) 粉末冶金國家重點實驗室,長沙 410083)
摘 要: 以Mo、W和Si粉為原料,采用自蔓延熱爆合成和熱壓工藝制備不同W含量的(Mo1−x, Wx)Si2復(fù)合材料,研究W含量對(Mo1−x, Wx)Si2復(fù)合材料的力學(xué)性能和高溫抗氧化性能的影響。結(jié)果表明:隨著W含量的增加, (Mo1−x, Wx)Si2復(fù)合材料的力學(xué)性能逐漸增加,氧化激活能逐漸降低;(Mo0.5,W0.5)Si2復(fù)合材料的室溫抗彎強度、 1 200 ℃高溫抗彎強度、硬度和斷裂韌性分別為363 MPa、480 MPa、9.28 GPa和3.82 MPa∙m1/2,與純MoSi2比較,分別增加了40.7%、112.4%、12.1%和27.3%;(Mo1−x, Wx)Si2復(fù)合材料在1 673~1 873 K空氣中能形成致密的氧化層,氧化增量符合拋物線規(guī)律。
關(guān)鍵字: 二硅化鉬;合金化;力學(xué)性能;氧化行為
(State Key Laboratory of Powder Metallurgy, Central South University, Changsha 410083, China)
Abstract:(Mo1−x, Wx)Si2 composites were prepared by the thermal explosion mode of SHS followed by hot pressing using Mo, W and Si powders as raw materials. The effect of W content on the mechanical properties and high temperature oxidation behavior of (Mo1−x, Wx)Si2 composites were studied. The results show that with increasing W content, the mechanical properties of (Mo1−x, Wx)Si2 composites gradually increase, and the activation energies of (Mo1−x, Wx)Si2 composites gradually decrease. The room temperature bending strength, high-temperature flexural strength at 1 200 ℃, hardness and fracture toughness of (Mo0.5, W0.5)Si2 composite are 363 MPa, 480 MPa, 9.28 GPa and 3.82 MPa∙m1/2, respectively, increased by 40.7%, 112.4%, 12.1% and 27.3% when compared with those of the monolithic MoSi2. (Mo1−x, Wx)Si2 composites can form compact oxidation layers in the air at 1673−1 873 K, and oxidation mass gain is accordance with parabolic law.
Key words: molybdenum disilicide; alloying; mechanical properties; oxidation behavior
