Study on the Preparation of Network Ti-N/Ti Composites by Nitridation of Ti Powders

• Published in: Materials Vol. 16; no. 15; p. 5259
• Main Authors: Xiu, Ziyang, Ju, Boyu, Zhan, Junhai, Chen, Weidi, Yin, Aiping, Zhu, Xiaolin, Wang, Pengjun, Wu, Ping, Yang, Wenshu
• Format: Journal Article
• Language: English
• Published: Switzerland MDPI AG 26.07.2023; MDPI
• Subjects: Alloys; Ball milling; Composite materials; Composite structures; Compressive strength; Graphene; Hardness; Material properties; Mechanical properties; Metal matrix composites; network composite; Nitriding; Particulate composites; Plasma sintering; Powder metallurgy; Powders; Reinforcement; Sintering; Sintering (powder metallurgy); Structural design; Ti matrix composite; TiN; Titanium; Titanium nitride; China; TiN; Ti matrix composite; network composite; mechanical properties
• ISSN: 1996-1944; 1996-1944
• DOI: 10.3390/ma16155259

Composite structure design is an important way to improve reinforcement strengthening efficiency. The dispersion of the external reinforcement is often not uniform enough, however, and it is agglomerated in the matrix, which cannot uniformly and effectively bear the load. The interconnected reinforcement network prepared by the in-situ self-growth method is expected to obtain higher material properties. In this paper, the TiN shell was formed on the surface of Ti powder by the in-situ nitriding method, and then the network TiN/Ti composites were prepared by sintering. In the control group, TiN was dispersed by mechanical ball milling, and it was found that TiN powder was coated on the surface of Ti particles, and the sintered TiN/Ti composites formed a discontinuous structure with a great deal of TiN agglomeration. A uniform TiN nitride layer of 5~7 μm was formed on the surface of Ti powder by the in-situ nitriding method, and a connected TiN network was formed in the sintered Ti-N/Ti composites. The composites prepared by nitriding have higher compressive strength, hardness, and plasticity. The hardness of the Ti-N/Ti composite is 685.7 HV and the compressive strength is 1468.5 MPa. On this basis, the influence of the connected TiN structure on the material properties was analyzed, which provided theoretical guidance for the structural design of the network structure-reinforced titanium matrix composites.