The microstructure of rods sintered in vacuum and by sinter-HIP was investigated by metallographic microscope, SEM and TEM.
用会相显微镜、SEM和TEM观察了真空烧结、低压烧结试样的显微结构。
Results showed that sinter-HIP treatment can enhance the transverse rupture strength of WC-Co cemented carbides effectively.
结果表明:低压烧结工艺可以有效提高硬质合金的抗弯强度;
Transverse rupture strength, Rockwell a hardness, magnetic saturation induction and magnetic coercivity of samples sintered in vacuum or by sinter-HIP were measured.
测试了真空烧结和低压烧结试样的抗弯强度、洛氏硬度、磁饱和度和矫顽磁力。
A three dimensional unsteady numerical model of cemented carbide sinter-HIP furnace was established. The temperature field was simulated and optimized with this model.
建立了硬质合金烧结-热等静压炉内传热的三维非稳态数值仿真模型,对炉内的温度场进行仿真与优化。
The results showed that cemented carbide manufactured by sinter-HIP is free of porosity and transverse-rupture strength, bending fatigue life are also greatly increased.
结果表明,烧结-热等静压制作的硬质合金孔洞消除了,并且硬质合金的抗弯强度和弯曲疲劳寿命也大幅度提高。
Then, at the base of analysis of the technics process, designed the autocontrol technics flow chart of HIP-Sinter stove.
然后,在工艺过程分析基础上设计了低压真空烧结炉自动控制工艺流程。
Then, at the base of analysis of the technics process, designed the autocontrol technics flow chart of HIP-Sinter stove.
然后,在工艺过程分析基础上设计了低压真空烧结炉自动控制工艺流程。
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