Spark plasma sintering treatment of cold sprayed materials for synthesis and structural modification: A case study using TiC-Cu composites

IF 2.2 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY Materials Letters: X Pub Date : 2022-06-01 DOI:10.1016/j.mlblux.2022.100140

Tomila M. Vidyuk , Dina V. Dudina , Michail A. Korchagin , Alexander I. Gavrilov , Boris B. Bokhonov , Arina V. Ukhina , Maksim A. Esikov , Vladislav S. Shikalov , Vladimir F. Kosarev

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引用次数: 10

Abstract

Materials obtained by cold spraying (CS) are subjected to post-spray treatment to increase cohesion between the particles. In this work, spark plasma sintering (SPS) was used for reactive processing of cold spray deposits for the first time. A mixture of a Ti-C-3Cu ball-milled powder and copper was used as a feedstock material for the formation of Cu matrix composites by CS. SPS treatment of CS deposits was used for the in-situ synthesis of TiC, formation of a dense structure and elimination of microcracks at the interface between the substrate and the deposit. The mechanism of structural changes in the composite agglomerates upon reaction was discussed. The TiC-Cu composite particles in the microstructure of the SPS-treated material possess a microhardness of 390 ± 40 HV_0.025, which makes them suitable as reinforcing elements of composite nature in the design of Cu matrix materials. This study shows that SPS treatment is a promising solution for post-spray processing of cold spray coatings.

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放电等离子烧结处理冷喷涂材料的合成和结构改性:以TiC-Cu复合材料为例

通过冷喷涂(CS)获得的材料进行后喷涂处理，以增加颗粒之间的凝聚力。本文首次将放电等离子烧结(SPS)用于冷喷涂镀层的反应性加工。以Ti-C-3Cu球磨粉和铜的混合物为原料，CS法制备了Cu基复合材料。采用SPS处理CS沉积层，原位合成TiC，形成致密结构，消除基体与沉积层界面处的微裂纹。讨论了反应过程中复合团块结构变化的机理。经sps处理后，TiC-Cu复合颗粒的显微硬度为390±40 HV0.025，适合作为复合增强元素用于Cu基材料的设计。研究表明，SPS处理是一种很有前途的冷喷涂后处理方案。

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