【摘 要】
:
The effects of Si content,graphite volume fraction and pearlite volume fraction on the thermal conductivity of ductile iron were studied based on theoretical model analysis.Calculated results showed that the thermal conductivity of ductile iron was more s
【机 构】
:
School of Materials Science and Engineering,Tsinghua University,Beijing 100084,China;School of Mater
论文部分内容阅读
The effects of Si content,graphite volume fraction and pearlite volume fraction on the thermal conductivity of ductile iron were studied based on theoretical model analysis.Calculated results showed that the thermal conductivity of ductile iron was more sensitive to Si content compared with the volume fractions of pearlite and graphite.The key method to design and develop high thermal conductivity ductile iron was to control the Si content.Within 0.9-2.2 wt.%Si content,experimental results showed that with the increase in Si content,the thermal conductivity of ductile iron decreased dramatically,and the yield strength and tensile strength of ductile iron almost linearly increased,but the elongation remained almost unchanged.The dependence of thermal conductivity of ductile iron on temperature changed from monotonic decreasing to increasing first and then decreasing.Finally,we broke the common composition range of ductile iron and designed a new high C(≥3.9 wt.%)and low Si(1.0-1.4 wt.%)ductile iron with super-high thermal conductivity and elongation.Its thermal conductivity exceeded 40 W/(m K)within 27-300℃,and maintained at 35-40 W/(m K)at 500℃.The elongation was over 25%,and the tensile strength was more than 300 MPa.
其他文献
Optimization of mathematical model of flow field in slab continuous casting mold was performed by means of industrial measurement and mathematical modeling.The rod deflection method was used to quantitatively measure the velocities near the mold surface a
In order to improve the production efficiency of electroslag remelting process and the solidification quality of electroslag ingot,a novel electroslag furnace with electromagnetic stirring was designed and the effects of external magnetic field and differ
Based on the free volume theory,lattice model,the Scatchard-Hildebrand theory,novel expressions of configuration partition function and excessive Gibbs free energy and component activity coefficients of solid solutions were developed using configuration p
To reduce internal residual stress and homogenize micro-property of hot-rolled ferrite steel,the cold compression deformation method with small reduction rate has been performed in the hot-rolled samples,and X-ray diffraction and nanoindentation test have
The reactions between CO2 gas and liquid Fe-C alloy with different initial carbon concentrations at 1873 K were investigated using experimental results,thermodynamic equilibrium,and kinetic analysis.The average CO2 conversion is greater than 80%when the c
The sliding wear property of high-carbon nanostructured bainitic bearing steel with the equal initial hardness and different microstructures was investigated,and the reasons for the difference of wear resistance between the cementite-bearing(CB)and cement
采用高通量场发射扫描电镜结合图像批处理技术以及全自动显微维氏硬度分析技术对2种不同成分(W1和W2)的火车车轮轮辋踏面附近较大范围内的显微组织和硬度进行了原位统计分布表征,探究了轮辋靠近踏面的关键区域铁素体面积分数和珠光体片层间距的分布规律.通过大尺度原位统计分布表征结果可以发现,2种车轮铁素体面积分数自踏面往里均呈现逐渐增加的趋势,但固溶强化元素Si和沉淀强化元素V的含量差异以及W2车轮所采用更为精细的阶梯式淬火工艺对车轮的微观组织和硬度的定量分布有较大影响.固溶强化和沉淀强化元素含量较少的W1车轮的铁
Iron ore containing BaSO4 may have a senes of effects on the quality of the sinter and performance of the blast furnace.Thus,the effect mechanism of BaSO4(0-6.0 mass%)on the compressive strength,mineral composition,and microstructure of the sinter was inv
Effect of titanium microalloying on the microstructure and mechanical properties of vanadium microalloyed steels for hot forging was studied.Titanium microalloying improves the mechanical properties mainly through refining the austenite grains.When the he