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聚晶金刚石作为超硬材料具有很广泛的应用,常用于油气钻探、切削刀具、耐磨零件等领域。目前,工业上合成聚晶金刚石的内部晶粒尺寸一般都在微米量级以上,而合成微米级以下的聚晶金刚石则要面临很多困难。本工作使用熔渗法在高温高压的条件下合成了亚微米级聚晶金刚石,并对合成的样品进行了X射线衍射、扫描电子显微镜、电子背散射衍射、能谱、硬度等分析测试,结果表明:在5.5GPa、1 500℃、保温15min的情况下成功合成了维氏硬度高达57.0GPa的亚微米级聚晶金刚石;分层组装的方法可以使Co均匀地分散在聚晶金刚石样品中,呈现出圆孔状,从而保证样品具备均匀、优异的性能。同时,通过对烧结工艺的探索发现,温度和保温时间在亚微米级聚晶金刚石的合成过程中起着非常重要的作用。 相似文献
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The compressibility and pressure-induced phase transition of β-Si_3N_4 were investigated by using an angle dispersive x-ray diffraction technique in a diamond anvil cell at room temperature. Rietveld refinements of the x-ray powder diffraction data verified that the hexagonal structure(with space group P63/m, Z = 2 formulas per unit cell) β-Si_3N_4 remained stable under high pressure up to 37 GPa. Upon increasing pressure, β-Si3 N4 transformed to δ-Si_3N_4 at about 41 GPa. The initial β-Si_3N_4 was recovered as the pressure was released to ambient pressure, implying that the observed pressureinduced phase transformation was reversible. The pressure–volume data of β-Si_3N_4 was fitted by the third-order Birch–Murnaghan equation of state, which yielded a bulk modulus K_0= 273(2) GPa with its pressure derivative K_0= 4(fixed)and K0= 278(2) GPa with K 0= 5. Furthermore, the compressibility of the unit cell axes(a and c-axes) for the β-Si_3N_4 demonstrated an anisotropic property with increasing pressure. 相似文献
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Polycrystalline cubic boron nitride prepared with cubic-hexagonal boron nitride under high pressure and high temperature 下载免费PDF全文
Polycrystalline cubic boron nitride(Pc BN) compacts, using the mixture of submicron cubic boron nitride(c BN) powder and hexagonal BN(h BN) powder as starting materials, were sintered at pressures of 6.5–10.0 GPa and temperature of1750℃ without additives. In this paper, the sintering behavior and mechanical properties of samples were investigated.The XRD patterns of samples reveal that single cubic phase was observed when the sintering pressure exceeded 7.5 GPa and h BN contents ranged from 20 vol.% to 24 vol.%, which is ascribed to like-internal pressure generated at grain-to-grain contact under high pressure. Transmission electron microscopy(TEM) analysis shows that after high pressure and high temperature(HPHT) treatments, the submicron c BN grains abounded with high-density nanotwins and stacking faults, and this contributed to the outstanding mechanical properties of Pc BN. The pure bulk Pc BN that was obtained at 7.7 GPa/1750℃ possessed the outstanding properties, including a high Vickers hardness(~ 61.5 GPa), thermal stability(~ 1290℃ in air),and high density(~ 3.46 g/cm~3). 相似文献
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