Necking mechanism under various sintering process parameters-A review

The process of sintering involves applying pressure and heat to the materials without melting them in order to fuse the particles together into a solid mass. The fusion between the particle are also known as interparticles necking which plays an important role in producing high-density products. Increasing in necking size between particles will allow the formation of smaller pore sizes which help to produce stronger and higher hardness materials. The necking also plays an essential role in producing high porosity products that are commonly used for medical applications which still required high tensile value and hardness. For this, proper process parameters were required to produce larger necking growth. To get a better understanding of this matter, the effect of powder and processing parameters will be reviewed in this article. The parameters for different processes such as conventional sintering, microwave sintering, selective laser melting, and others will be discussed in this paper as well. (c) 2023 The Author(s). Published by Elsevier B.V. This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/).

Automated summary

The process of sintering involves applying pressure and heat to fuse particles together into a solid mass without melting them. Interparticles necking, or fusion between particles, is important for producing high-density and high-porosity products. Increasing necking size between particles leads to smaller pore sizes and stronger, harder materials. Proper process parameters are required to achieve larger necking growth. This article reviews the effect of powder and processing parameters and discusses different processes such as conventional sintering, microwave sintering, and selective laser melting.