![A study on the effectiveness of explosive reactive armour against the penetration of long-rod projectiles - Samuel Yeap, Konstantinos P Baxevanakis, Anish Roy, 2022 A study on the effectiveness of explosive reactive armour against the penetration of long-rod projectiles - Samuel Yeap, Konstantinos P Baxevanakis, Anish Roy, 2022](https://journals.sagepub.com/cms/10.1177/09544062221081402/asset/images/large/10.1177_09544062221081402-fig2.jpeg)
A study on the effectiveness of explosive reactive armour against the penetration of long-rod projectiles - Samuel Yeap, Konstantinos P Baxevanakis, Anish Roy, 2022
How effective is NERA? I know it's non-explosive/energetic reactive armor but is it like ERA where it's more effective against shaped charges? - Quora
Experimental and Numerical Study on a Non-Explosive Reactive Armour with the Rubber Interlayer Applied against Kinetic-Energy Pe
![A numerical study on the disturbance of explosive reactive armors to jet penetration - ScienceDirect A numerical study on the disturbance of explosive reactive armors to jet penetration - ScienceDirect](https://ars.els-cdn.com/content/image/1-s2.0-S2214914714000178-gr6.jpg)
A numerical study on the disturbance of explosive reactive armors to jet penetration - ScienceDirect
Tanks. Being tanks. - The Stillbrew Add-on armor package is a Non-Explosive Reactive Armor created for the Chieftain main battle tank and is designed to defeat APFSDS kinetic energy penetrators. The Stillbrew
![Materials | Free Full-Text | Experimental and Numerical Study on a Non-Explosive Reactive Armour with the Rubber Interlayer Applied against Kinetic-Energy Penetrators—The 'Bulging Effect' Analysis Materials | Free Full-Text | Experimental and Numerical Study on a Non-Explosive Reactive Armour with the Rubber Interlayer Applied against Kinetic-Energy Penetrators—The 'Bulging Effect' Analysis](https://www.mdpi.com/materials/materials-14-03334/article_deploy/html/images/materials-14-03334-g007.png)
Materials | Free Full-Text | Experimental and Numerical Study on a Non-Explosive Reactive Armour with the Rubber Interlayer Applied against Kinetic-Energy Penetrators—The 'Bulging Effect' Analysis
Experimental and Numerical Study on a Non-Explosive Reactive Armour with the Rubber Interlayer Applied against Kinetic-Energy Pe
![Predicted results of demonstrated penetration process (impact angle of... | Download Scientific Diagram Predicted results of demonstrated penetration process (impact angle of... | Download Scientific Diagram](https://www.researchgate.net/publication/267455439/figure/fig6/AS:267956210892805@1440897147741/Predicted-results-of-demonstrated-penetration-process-impact-angle-of-68.png)
Predicted results of demonstrated penetration process (impact angle of... | Download Scientific Diagram
![Jon Hawkes on Twitter: "When a threat projectile penetrates the box and the first steel plate it rapidly compresses the explosive layer. This rapid compression leads to detonation, propelling the plates apart Jon Hawkes on Twitter: "When a threat projectile penetrates the box and the first steel plate it rapidly compresses the explosive layer. This rapid compression leads to detonation, propelling the plates apart](https://pbs.twimg.com/media/Ewq4km9W8AQrqCa.png)
Jon Hawkes on Twitter: "When a threat projectile penetrates the box and the first steel plate it rapidly compresses the explosive layer. This rapid compression leads to detonation, propelling the plates apart
![Materials | Free Full-Text | Experimental and Numerical Study on a Non-Explosive Reactive Armour with the Rubber Interlayer Applied against Kinetic-Energy Penetrators—The 'Bulging Effect' Analysis Materials | Free Full-Text | Experimental and Numerical Study on a Non-Explosive Reactive Armour with the Rubber Interlayer Applied against Kinetic-Energy Penetrators—The 'Bulging Effect' Analysis](https://www.mdpi.com/materials/materials-14-03334/article_deploy/html/images/materials-14-03334-g008.png)