The Influence of Surface Extrusion Densification on the Microstructure and Mechanical Properties of Iron-Based Powder Metallurgy Gears

IF 0.9 4区 材料科学 Q3 MATERIALS SCIENCE, CERAMICS
Qile Shi, Di Chen, Ziqi Liu, Jingguang Peng, Qingqing Pan
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Abstract

In this study, the surface extrusion densification process is used to improve the surface density, hardness, and mechanical strength of powder metallurgy gears. A mixture of pre-alloyed powders, 0.3 wt.% graphite, and 0.4 wt.% Lube HD lubricant was used as experimental raw materials. These powders were compacted into experimental gears at a pressure of 1,600 MPa and then sintered at 1,120°C for 30 minutes. The sintered gears achieved surface densification by passing through extrusion dies under pressure at a 1 mm/sec speed. The influence of different extrusion amounts (∆W = 0, 0.046, 0.116, 0.186, and 0.246 mm) on the microstructure and mechanical properties of iron-based powder metallurgy gears was investigated (∆W is defined as the reduction in the cross- bar distance between two teeth in the extrusion die plate). The results show that surface densification by extrusion can simultaneously apply normal stress and shear stress, resulting in a reduction of porosity on the gear surface, which in turn forms a densified layer on the surface. The thickness of the densified layer increases with the amount of extrusion. In addition, the surface densification by extrusion improves the surface microhardness and crushing strength of the gears. In particular, the gears with ∆W = 0.246 mm have the highest surface microhardness and fracture toughness. The porous model in DEFORM was used to simulate the surface extrusion densification process. The simulation results showed trends in the relative density distribution consistent with the experimental results, with a higher relative density at the gear surface, followed by a decrease as the distance from the surface increased and the densified region expanded with increasing extrusion amounts. In addition, there was a high degree of correlation between the simulated and experimental results in terms of densification layer thickness.

Abstract Image

Abstract Image

表面挤压致密化对铁基粉末冶金齿轮微观结构和机械性能的影响
本研究采用表面挤压致密化工艺来提高粉末冶金齿轮的表面密度、硬度和机械强度。实验使用预合金粉末、0.3 重量% 的石墨和 0.4 重量% 的 Lube HD 润滑剂的混合物作为原材料。这些粉末在 1,600 兆帕的压力下压制成实验齿轮,然后在 1,120°C 的温度下烧结 30 分钟。烧结后的齿轮在压力作用下以 1 毫米/秒的速度通过挤压模具,实现表面致密化。研究了不同挤压量(∆W = 0、0.046、0.116、0.186 和 0.246 毫米)对铁基粉末冶金齿轮微观结构和机械性能的影响(∆W 定义为挤压模板上两个齿之间横杆距离的减小)。结果表明,通过挤压进行表面致密化可以同时施加法向应力和剪切应力,从而减少齿轮表面的孔隙率,进而在表面形成致密层。致密层的厚度随着挤压量的增加而增加。此外,挤压的表面致密化还能提高齿轮的表面微硬度和抗压强度。特别是 ∆W = 0.246 mm 的齿轮具有最高的表面显微硬度和断裂韧性。DEFORM 中的多孔模型用于模拟表面挤压致密化过程。模拟结果显示,相对密度分布的趋势与实验结果一致,齿轮表面的相对密度较高,随后随着与表面距离的增加而降低,并且随着挤压量的增加,致密化区域也在扩大。此外,在致密化层厚度方面,模拟结果与实验结果高度相关。
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来源期刊
Powder Metallurgy and Metal Ceramics
Powder Metallurgy and Metal Ceramics 工程技术-材料科学:硅酸盐
CiteScore
1.90
自引率
20.00%
发文量
43
审稿时长
6-12 weeks
期刊介绍: Powder Metallurgy and Metal Ceramics covers topics of the theory, manufacturing technology, and properties of powder; technology of forming processes; the technology of sintering, heat treatment, and thermo-chemical treatment; properties of sintered materials; and testing methods.
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