Brian R. Scott scite author profile

The goal of this work was to present results of mechanical characterization and ballistic investigation of 3-D printed alumina (Al 2 O 3 )-based armor plates, manufactured using two additive manufacturing-based methods: pressurized spray deposition (PSD) and direct ink write (DIW), to determine the maturity of these additive-based processes against the industry standard process. The DIW plates exhibited superior hardness, flexural strength, and density compared to the PSD plates, and in many respects, even eclipsed some of the properties of the commercial isopressed (IP) material. Plates (90 mm × 90 mm × 8 mm) of these composition were manufactured for ballistic analysis in accordance with established ballistic characterization procedures, using a 50.8-mm-thick Aluminum 6061 plate as backing and witness plates in the case of penetration or deformation. Six alumina plates were examined ballisitically (one shot per plate) against the 12.7 mm APM2 projectile (45.9 g) at an impact velocity of 840 m/second. The plates that were manufactured using the DIW method provided a higher impact resistance than the PSD method, however, both did not perform as well as the traditionally processed IP material, due to the presence of defects introduced due to the printing processes. K E Y W O R D S additive manufacturing, alumina, applications, armor, ceramic engineering | 425 JONES Et al. How to cite this article: Jones TL, Vargas-Gonzalez LR, Scott B, Goodman B, Becker B. Ballistic evaluation and damage characterization of 3-D printed, alumina-based ceramics for light armor applications. Int J Appl Ceram Technol. 2020;17:424-437. https ://doi.

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New ballistic products and technologies

Scott

2006

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The crater radial growth rate under ballistic impact conditions

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Scott²

1985

Computers & Structures

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Brian R. Scott

A ballistic material model for cross-plied unidirectional ultra-high molecular-weight polyethylene fiber-reinforced armor-grade composites

High strain rate effects on two graphite fiber K3B polyimide matrix composites

Ballistic evaluation and damage characterization of 3‐D printed, alumina‐based ceramics for light armor applications

New ballistic products and technologies

The crater radial growth rate under ballistic impact conditions

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