Abstract
High degree Abrasive Jet (AJ) is applied in Abrasive Jet Machining (AJM) as a process that is based of Machine-driven Energy (MDE). The abrasives are applied in the removal of resources from work surfaces based on impact erosion. AJ is generated through the acceleration of very fine abrasive particles in considerably gas that has been pressurizes i.e. carrier gas. In this case, jets are utilized to transform this pressurized energy into kinetic energy, which is also directs jets to the work surfaces at an impingement angle. During the impact, rigid abrasive particles are used to slowly remove resources through erosion and with the assistance of brittle fracture. This paper evaluates and recommends a design for AJM. The various components have also been chosen after the relevant design assessment procedures have been done. The AJM model has been design with reference to the present components.
Highlights
Unconventional processes of manufacturing represent the processes that are used in the removal of excess resources [1]
This paper evaluates and recommends a design for Abrasive Jet Machining (AJM)
This paper recommends a design for AJM
Summary
Unconventional processes of manufacturing represent the processes that are used in the removal of excess resources [1]. In the process of AJM, it is viewed that rigid abrasive particles are used in the elimination action whereas the carrier gas helps in blowing the eroded resources from the machining region. The essential AJM constraints incorporates work resources’ stress concentration and mechanical features; jets’ interior diameter and profile; AJ’s stand-off distance, impingement angle, striking speed and mixing ratio; carrier gas temperature, stress, flow rate, composition and nature; and abrasive particles flow rate, strength, material, size and shape. The performance of AJM is typically assessed based on the analysis of three output responses: roughness of the surface and accuracy of machined characteristics; MRR, and rate of jets wear.
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