Self-Consolidation Mechanism of Ti5Si3 Compact Obtained by Electro-Discharge-Sintering Directly from Physically Blended Ti-37.5 at.% Si Powder Mixture

S.Y. Chang; Y.W. Cheon; Y.H. Yoon; Y.H. Kim; J.Y. Kim; Y.K. Lee; W.H. Lee

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Self-Consolidation Mechanism of Ti5Si3 Compact Obtained by Electro-Discharge-Sintering Directly from Physically Blended Ti-37.5 at.% Si Powder Mixture

机译：通过物理混合的Ti-37.5 at。％Si粉混合物直接电放电烧结获得Ti5Si3压块的自固结机理

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Characteristics of electro-discharge-sintering of the Ti-37.5at.% Si powder mixture was investigated as a function of the input energy, capacitance, and discharge time without applying any external pressure. A solid bulk of Ti5Si3 was obtained only after in less than 129 μsec by the EDS process. During a discharge, the heat is generated to liquefy and alloy the particles, and which enhances the pinch pressure can condensate them without allowing a formation of pores. Three step processes for the self-consolidation mechanism during EDS are proposed; (a) a physical breakdown of oxide film on elemental as-received powder particles, (b) alloying and densifying the consolidation of powder particles by the pinch pressure, and (c) diffusion of impurities into the consolidated surface.

机译：在不施加任何外部压力的情况下，研究了Ti-37.5at。％Si粉末混合物的放电烧结特性与输入能量，电容和放电时间的关系。仅在不到129μs的时间内通过EDS工艺获得了固体Ti5Si3。在放电过程中，会产生热量以使颗粒液化和合金化，而增加的收缩压力会使颗粒冷凝而不会形成孔。提出了EDS过程中自整合机制的三步过程。（a）按原样接收的粉末颗粒上的氧化膜的物理击穿;（b）通过夹压使粉末颗粒的固结合金化和致密化;以及（c）杂质扩散到固结的表面中。

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《Archives of Metallurgy and Materials》 |2017年第2期|共4页
作者
S.Y. Chang; Y.W. Cheon; Y.H. Yoon; Y.H. Kim; J.Y. Kim; Y.K. Lee; W.H. Lee;
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中图分类冶金工业;
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Industrial ChemistrySubstances and ProductsMaterials SciencesMaterials Processing;

机译：工业化学物质和产品材料科学材料加工;

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1. Self-Consolidation Mechanism of Ti5Si3 Compact Obtained by Electro-Discharge-Sintering Directly from Physically Blended Ti-37.5 at.% Si Powder Mixture [J] . S.Y. Chang, Y.W. Cheon, Y.H. Yoon, Archives of Metallurgy and Materials . 2017,第2期

机译：通过物理混合的Ti-37.5 at。％Si粉混合物直接电放电烧结获得Ti5Si3压块的自固结机理
2. SELF-CONSOLIDATION MECHANISM OF Ti5Si3 COMPACT OBTAINED BY ELECTRO-DISCHARGE-SINTERING DIRECTLY FROM PHYSICALLY BLENDED Ti-37.5 AT.% Si POWDER MIXTURE [J] . Chang S. Y., Cheon Y. W., Yoon Y. H., Archives of Metallurgy and Materials . 2017,第2期

机译：通过直接从物理混合的Ti-37.5直接从物理混合烧结获得的Ti5Si3紧凑的自合并机理。％Si粉末混合物
3. SELF-CONSOLIDATION MECHANISM OF Ti5Si3 COMPACT OBTAINED BY ELECTRO-DISCHARGE-SINTERING DIRECTLY FROM PHYSICALLY BLENDED Ti-37.5 AT.% Si POWDER MIXTURE [J] . Chang S. Y., Cheon Y. W., Yoon Y. H., Archives of Metallurgy and Materials . 2017,第2B期

机译：通过直接从物理混合的Ti-37.5直接从物理混合烧结获得的Ti5Si3紧凑的自合并机理。％Si粉末混合物
4. Processing, Microstructure and High Strain Rate Behaviour of Ti-6Al-4V Alloy Produced From a Blended Mixture Using Powder Compact Extrusion [C] . Ajit Pal Singh, Brian Gabbitas, Fei Yang Conference on Powder Processing, Consolidation and Metallurgy of Titanium . 2016

机译：使用粉末紧凑型挤压从混合混合物生产的Ti-6Al-4V合金的加工，微观结构和高应变率行为
5. Investigation of compaction, Young's modulus and tensile strength of binary powder mixtures using the multi-particle finite element method (MPFEM). [D] . Sinha, Tuhin. 2011

机译：使用多颗粒有限元方法（MPFEM）研究二元粉末混合物的压实度，杨氏模量和拉伸强度。
6. Self-Consolidation Mechanism of Nanostructured Ti5Si3 Compact Induced by Electrical Discharge [O] . W. H. Lee, Y. W. Cheon, Y. H. Jo, 2015

机译：放电诱导的纳米结构Ti5Si3复合材料的自固结机理
7. Self-Consolidation Mechanism of Ti5Si3 Compact Obtained by Electro-Discharge-Sintering Directly from Physically Blended Ti-37.5 at.% Si Powder Mixture [O] . Chang S.Y., Cheon Y.W., Yoon Y.H., 2017

机译：直接从物理共混Ti-37.5 at。％si粉末混合物进行电火花烧结Ti5si3的自固结机理

Self-Consolidation Mechanism of Ti5Si3 Compact Obtained by Electro-Discharge-Sintering Directly from Physically Blended Ti-37.5 at.% Si Powder Mixture

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