关于合金元素对堆焊效果的影响的外文翻译Microstructure analysis of CP-29 sample 2 and sample 4 is shown in Fig. 2a, b respectively.Also XRD analysis ofsample 2 and sample 4 is shown in Figs. 3 and 4 respectively.As per reference [16]

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关于合金元素对堆焊效果的影响的外文翻译Microstructure analysis of CP-29 sample 2 and sample 4 is shown in Fig. 2a, b respectively.Also XRD analysis ofsample 2 and sample 4 is shown in Figs. 3 and 4 respectively.As per reference [16]
关于合金元素对堆焊效果的影响的外文翻译
Microstructure analysis of CP-29 sample 2 and sample 4 is shown in Fig. 2a, b respectively.
Also XRD analysis ofsample 2 and sample 4 is shown in Figs. 3 and 4 respectively.
As per reference [16] different series of Hadfield manganese
steels with varying silicon contents (0.05, 0.66, 0.99, 2.15, 2.91 and 3.51 %) were cast.
The results indicated that silicon content affects essentially the carbide existence and distribution.
Silicon affects the hardness behavior in which the hardness curve decreases and then
increases to a higher value.
This behavior can be related to Fe3C phase morphology that presents in the matrix,
when Fe3C phase morphology is acicular, hardness value will be decreased (in case of Si content 0.05 %). When the silicon content increases to 0.66 %, hardness decreases due to the precipitation of Fe3C in the matrix as fine precipitates.
This means that large amount of Fe3C is dissolved in the matrix.
Therefore, the volume fraction of Fe3C phase will decrease largely with increasing silicon percentage up to 0.99 % and then hardness begins to increase.
This can be explained on the basis that with increasing silicon content beyond
0.99 %, the volume fraction of Fe3C will increase.
However in our case due to presence of Mo and Mn; Fe3C is not
precipitated and metal carbides are precipitated.
As per reference [17] Si increases yield strength and changes
morphology of carbide precipitate in high C high Mn steel.

关于合金元素对堆焊效果的影响的外文翻译Microstructure analysis of CP-29 sample 2 and sample 4 is shown in Fig. 2a, b respectively.Also XRD analysis ofsample 2 and sample 4 is shown in Figs. 3 and 4 respectively.As per reference [16]
微观结构分析cp-29样品2、样品4在图2a所示,B.
XRD分析样品2和样品也示于图4.3和4分别.
按参考[ 16 ]不同系列的高锰
与不同的硅含量的钢(0.05,0.66,0.99,2.15,2.91和3.51%)投.
结果表明,硅含量的影响基本上是碳化物的存在和分布.
硅影响硬度行为的硬度曲线下降后
提高到一个更高的价值.
这种行为可以是Fe3C相形态的矩阵,给出了相关,
当Fe3C相的形貌为针状,硬度值会下降(在Si含量为0.05%的情况下).当硅含量增加到0.66%,由于Fe3C基体中的析出微细的析出物,降低硬度.
这意味着大量的Fe3C溶解在基质.
因此,Fe3C相的体积分数随硅率高达0.99%,然后开始增加,在很大程度上降低硬度.
这可以解释的基础上,随着硅含量的增加超出
0.99%,Fe3C的体积分数增加.
然而在我们的情况下,由于Mo和Mn的存在物;不
金属碳化物的沉淀析出.
按参考[ 17 ]四屈服强度增加和变化
在高碳高锰钢析出碳化物的形态.