Guzman, J., Riffel, K., McDonnell, M., Repp, O., Rogers, M., Eff, M., & Ramirez, A. (2024, May). Ballistic performance of friction stir welded armor-grade steel. 13th International Symposium.
Guzman J, Riffel K, McDonnell M, et al. "Ballistic performance of friction stir welded armor-grade steel". 13th International Symposium (May.2024).
Guzman, J, Riffel, K, McDonnell, M, et al. "Ballistic performance of friction stir welded armor-grade steel". 13th International Symposium (May.2024).
Guzman J., Riffel K., McDonnell M., Repp O., Rogers M., Eff M., et al. Ballistic performance of friction stir welded armor-grade steel. 13th International Symposium. 2024 May; .
Guzman, et al 2024, 'Ballistic performance of friction stir welded armor-grade steel', 13th International Symposium. Available from: https://www.twi-global.com/technical-knowledge/fsw-symposium-papers/FSWSymposia-202405-3Paper02.pdf.
Guzman J, Riffel K, McDonnell M, et al. Ballistic performance of friction stir welded armor-grade steel. 13th International Symposium. 2024;. https://www.twi-global.com/technical-knowledge/fsw-symposium-papers/FSWSymposia-202405-3Paper02.pdf.
Guzman JJ, Riffel KK, McDonnell MM, Repp OO, Rogers MM, Eff MM, Ramirez AA. Ballistic performance of friction stir welded armor-grade steel. 13th International Symposium. 2024 May;. https://www.twi-global.com/technical-knowledge/fsw-symposium-papers/FSWSymposia-202405-3Paper02.pdf.
Ballistic performance of friction stir welded armor-grade steel
- Guzman J. ,
- Riffel K. ,
- McDonnell M. ,
- et al
- Guzman J. ,
- Riffel K. ,
- McDonnell M. ,
- Repp O. ,
- Rogers M. ,
- Eff M. and
- Ramirez A.
May 2024
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In the realm of armor steels, the relationship between hardness and ballistic performance is crucial. Different hardness levels can lead to various modes of failure upon ballistic impact. However, when armor-grade steel plates undergo welding, the ballistic properties are susceptible to alteration due to the softening of the heat-affected zone (HAZ). In this study, a rolled homogeneous armor-grade (RHA) steel plate, featuring a tempered martensitic structure and a thickness of 6.35 mm, underwent friction stir welding (FSW) bead on plate and was subsequently subjected to ballistic testing.
13th International Symposium, 21-23 May 2024, Session 3: Steel I, Paper 01
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