Development of Empirical Prediction Formula for Penetration of Ogive Nose Hard Missile into Concrete Targets

Zaidi,

doi:10.3844/ajassp.2010.711.716

Cited by 5 publications
(2 citation statements)

References 7 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…failure of a pressurized vessel, failure of a turbine blade or other high speed rotating machines, and aircraft crashes, fragments generated by accidental explosions); terrorist attack and etc. Critical impact energy is the dominant cause of damage in dynamic of local impact phenomena [1,2,8,11]. When hard projectile impacts with concrete target, critical impact energy of the projectile is a main reason that makes the concrete target deform.…”

Section: Introductionmentioning
confidence: 99%

Using ceramic plates as shielding for concrete blocks against projectile penetration
Tawadrous
¹
,
Attia
²
,
Laissy³
2016
HBRC Journal
7
0
2
0
View full text Add to dashboard Cite

Numerical simulation of the response of concrete structures to impact loading is an important tool in both the design of hardened protective structures and in the planning for effective attacks against such structures. This paper presents the development of an accurate numerical model using AUTODYN to study the response of concrete structures shielded by ceramic (Al 2 O 3 -99.7%) plates exposed to 23 mm projectile. Concrete and ceramic are modeled using a combined mesh and meshfree numerical technique. The used meshfree Lagrangian technique (SPH) is to overcome problems of mesh tangling and remove the requirement for the use of erosion algorithms. The technique also allows an explicit representation of ceramic through (SPH) element formulation. In such a model, the concrete region local to the penetrator, which experiences large deformation, is represented using the SPH solver. The modeled penetrator and the concrete further away from the impact observed to undergo little or no deformation by using the Lagrange solver.The aim of this paper was to study numerically the penetration resistance of concrete structures shielded by ceramic (Al 2 O 3 -99.7%) plates. The main findings show an enhancement in the penetration resistance of about 66% while using ceramic plates. Here, we used ceramic because of its electric, magnetic, and thermal insulation. Hence, we can use concrete structures shielded by ceramic in many types of medical, nuclear, power generating and electronic applications.

show abstract

Section: Introductionmentioning
confidence: 99%

Using ceramic plates as shielding for concrete blocks against projectile penetration
Tawadrous
¹
,
Attia
²
,
Laissy³
2016
HBRC Journal
7
0
2
0
View full text Add to dashboard Cite

show abstract

“…This can be achieved by dimensional analysis (Chongcharoen, 2011;Zaidi et al, 2010). Buckingham pi theorem is used herein to perform dimensional analysis, from which six variables (F, V, H, L, ν, ρ) and three fundamental dimensions ([M], [L], [T]) exist.…”

Section: Modeling and Simulationmentioning
confidence: 99%

Wind Load Effects on Manufactured Home Foundations
Qimin¹
2011
American Journal of Engineering and Applied Sciences
0
0
0
0
View full text Add to dashboard Cite

Problem statement: Manufactured homes are susceptible to hurricane damage. Each year, significant losses, in terms of fatalities and property damage, are reported. There is always a prevalent concern about lateral load resistance capacity of tie-down system of manufactured homes when subjected to windstorms. This study is performed to determine the effects of hurricane wind on manufactured homes' foundations. Approach: A 1:120th scale model of single wide manufactured home of size 14 ft by 80 ft was designed for the wind tunnel test. Proper instrumentations and simulations were considered to measure wind forces applied on the model. Sting balance and Pitot static tube were used to measure forces and air velocity during the wind tunnel test. Displacements of anchors were observed during the test. Results: The ultimate forces as well as the displacements of the anchors were determined at different angles of wind direction ranging from 30-180°. Wind speed inside the tunnel was increased at the rate of 5 miles h −1. Conclusion/Recommendations: Test result showed that auger anchors used to support lateral load are incapable to resist hurricane wind loads. It was found that anchors displaced 2 in. vertically and 4 in. horizontally at loads less than 4725lb. Tested manufactured homes anchors experienced maximum force of 4087 lb when 45 miles h −1 wind acted in transverse direction to the wall. The manufactured home anchors displaced more than 2 inches in vertical direction and 4 inches in horizontal direction due to this wind load. This research indicated that manufactured homes ground anchors can sustain wind velocity of 95 miles h −1 when the wind is acting at longitudinal direction.

show abstract

Critical impact energy for spalling, tunnelling and penetration of concrete slab impacted with hard projectile
Latif
¹
,
Rahman
²
,
Zaidi
³

et al. 2014
KSCE J Civ Eng
5
0
0
0
View full text Add to dashboard Cite

Development of Empirical Prediction Formula for Penetration of Ogive Nose Hard Missile into Concrete Targets

Cited by 5 publications

References 7 publications

Using ceramic plates as shielding for concrete blocks against projectile penetration

Using ceramic plates as shielding for concrete blocks against projectile penetration

Wind Load Effects on Manufactured Home Foundations

Critical impact energy for spalling, tunnelling and penetration of concrete slab impacted with hard projectile

Contact Info

Product

Resources

About