Affiliation:
1. School of Mechanical and Electrical Engineering, China University of Mining and Technology (Beijing), Beijing 100083, China
2. State Key Laboratory of Tribology, Tsinghua University, Beijing 100084, China
Abstract
In order to improve the performance of 17-4PH under wear conditions (e.g., gears, etc.) and reduce the cost of metal additive manufacturing, TiC needs to be added to 17-4PH to improve its wear resistance. Micron-sized TiC-reinforced 17-4PH stainless steel composites with different contents (0–15 wt%) have been prepared by fused filament fabrication 3D printing for the first time. The effects of TiC content on the structure and properties of composites were studied by XRD, SEM, and sliding wear. The obtained results show that the microstructure of TiC-reinforced 17-4PH stainless steel composites mainly consists of austenite. With the increase in TiC content, the grain size is obviously refined, and the average grain size decreases from 65.58 μm to 19.41 μm. The relative densities of the composites are maintained above 95% with the addition of TiC. The interfaces between TiC particles and the 17-4PH matrix are metallurgical bonds. The hardness of the composites increases and then decreases with increasing TiC content, and the maximum hardness (434 HV) is obtained after adding 10 wt.% of TiC content. The wear rate of the composites was reduced from 2.191 × 10−5 mm3 /(N‧m) to 0.509 × 10−5 mm3 /(N‧m), which is a 3.3-fold increase in wear resistance. The COF value declines with the addition of TiC. The reasons for the significant improvement in the composites’ performance are fine grain strengthening, solid solution strengthening, and second phase strengthening. The wear mechanisms are mainly abrasive and adhesive wear. Compared to the 10 wt% TiC composites, the 15 wt% TiC composites show limited improvement in wear resistance due to more microcracks and TiC agglomeration.
Funder
National Science and Technology Major Project
Fundamental Research Funds for the Central Universities
Subject
General Materials Science
Reference49 articles.
1. Abe, Y., Kurose, T., Santos, M.V.A., Kanaya, Y., Ishigami, A., Tanaka, S., and Ito, H. (2021). Effect of Layer Directions on Internal Structures and Tensile Properties of 17-4PH Stainless Steel Parts Fabricated by Fused Deposition of Metals. Materials, 14.
2. Fused filament fabrication of stainless steel structures-from binder development to sintered properties;Wagner;Addit. Manuf.,2022
3. Anisotropy in tensile properties and fracture behaviour of 316L stainless steel parts manufactured by fused deposition modelling and sintering;Wen;Adv. Manuf.,2022
4. Investigation of metal-polymer composites manufactured by fused deposition modeling with regard to process parameters;Moritzer;Polym. Compos.,2021
5. On the build orientation effect in as-printed and as-sintered bending properties of 17-4PH alloy fabricated by metal fused filament fabrication;Suwanpreecha;Rapid Prototyp. J.,2022