Experimental Study on the Surface Densification of Fe-2Cu-0.6C Powder Metallurgy Material

Liu Xiao; Xiao Zhi-Yu; Guan Hang-Jian; Zhang Wen

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Experimental Study on the Surface Densification of Fe-2Cu-0.6C Powder Metallurgy Material

机译：Fe-2Cu-0.6C粉末冶金材料表面致密化的实验研究

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The present work investigated the effects of rolling force (longitudinal feed) and spindle speed on surface performance of Fe-2Cu-0.6C powder metallurgy material. A newly self-designed rolling tool was used to densify the material's surface, and then the surface properties were measured. Results indicated that rolling force was the main effective parameter, and spindle speed was the secondary one. A densified depth and a surface hardness of 335 mu m and 320 HV0.1 were obtained by using a rolling force of 2800 N and a spindle speed of 360 r/min. The tensile strength was improved by 75%. The tensile fracture had mixed-rupture characteristics of dimples and tear ridge. In the surface layer, the ferrite was stretched and refined. The pearlite was deformed and oriented along the rolling direction. The lamellar spacing close to the surface was reduced. It played a significant role in enhancing the strength of material.

机译：本工作研究了轧制力（纵向进给）和主轴转速对Fe-2Cu-0.6C粉末冶金材料的表面性能的影响。使用一种新的自行设计的轧制工具来致密材料的表面，然后测量其表面性能。结果表明，轧制力是主要有效参数，主轴转速是次要参数。通过使用2800 N的轧制力和360 r / min的主轴转速，可以获得335μm的致密深度和320 HV0.1的表面硬度。拉伸强度提高了75％。拉伸断裂具有酒窝和撕裂脊的混合断裂特性。在表面层中，铁素体被拉伸和细化。珠光体变形并沿轧制方向取向。靠近表面的层状间距减小。它在增强材料强度方面发挥了重要作用。

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《Materials and Manufacturing Processes》 |2016年第12期|共7页
作者
Liu Xiao; Xiao Zhi-Yu; Guan Hang-Jian; Zhang Wen;
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正文语种 eng
中图分类工程材料学;
关键词
Densification; Force; Fracture; Metallurgy; Microhardness; Powder; Rolling; Strength; Surface;

机译：致密化;力;断裂;冶金学;显微硬度;粉末;轧制;强度;表面;

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1. Experimental Study on the Surface Densification of Fe-2Cu-0.6C Powder Metallurgy Material [J] . Liu Xiao, Xiao Zhi-Yu, Guan Hang-Jian, Materials and Manufacturing Processes . 2016,第9a12期

机译：Fe-2Cu-0.6C粉末冶金材料表面致密化的实验研究
2. Friction and wear behaviours of surface densified powder metallurgy Fe-2Cu-0.6C material [J] . Liu X., Xiao Z. -y., Guan H. -j., Powder Metallurgy . 2016,第5期

机译：表面致密化粉末冶金Fe-2CU-0.6C材料的摩擦和磨损行为
3. Experimental study on the plastic deformation and densification characteristics of some sintered and heat treated low alloy powder metallurgy steels [J] . T.K. Kandavel, R. Chandramouli, M. Ravichandran Materials & design . 2010,第1期

机译：几种烧结热处理低合金粉末冶金钢塑性变形和致密化特性的实验研究
4. Surface Densification and Tribological Behavior of a PM Fe-2Cu-0.6C Material [C] . Zhiyu Xiao, Xiao Liu, Hang-jian Guan, World PM2016 Congress;European Powder Metallurgy Association . 2016

机译：Fe Fe-2Cu-0.6C材料的表面致密化和摩擦学行为
5. Micromechanical modeling of the interaction of diffusion mechanisms and surface energy with nonlinear material deformation: Applications to powder densification and void growth. [D] . Subramanian, Sankara Jayaraman. 2001

机译：扩散机制和表面能与非线性材料变形相互作用的微机械建模：在粉末致密化和空隙增长中的应用。
6. Effect of Surface Densification on the Microstructure and Mechanical Properties of Powder Metallurgical Gears by Using a Surface Rolling Process [O] . Jingguang Peng, Yan Zhao, Di Chen, 2016

机译：表面致密化对粉末冶金齿轮表面轧制组织和力学性能的影响
7. Densification Technology of Al2O3/Fe Metallic Ceramic Materials Prepared via Powder Metallurgy Method [O] . Jie-Guang Song, Yu-Jun Zhou, Rui-Hua Wang, 2016

机译：通过粉末冶金方法制备的Al2O3 / Fe金属陶瓷材料的致密化技术

Experimental Study on the Surface Densification of Fe-2Cu-0.6C Powder Metallurgy Material

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