Determination of Carbon Steel Bar Diameter by Nondestructive Magnetic Testing

Abstract Test results show an increase in axial strain, average true stress, and maximum true stress at the minimum section of the neck of a round tension bar at fracture when the size of the bar is decreased. An explanation is given for this size effect on the axial strain. It suggests that the restraint on the flowing material at the heart of the neck, created by lateral stresses induced by the adjacent stagnant material, is dependent upon the diameter of the stagnant material; hence the bar diameter. Some metallurgical variations in the data are analyzed and discussed.

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Determination of the Magnetic Viscosity for Cold‐Rolled Carbon‐Steel 55‐Gallon Drums in the Earths Magnetic Field

10.4133/1.3176739 ◽

2009 ◽

Author(s):

Chad H. Freed ◽

Edward L. Doheny ◽

Timothy D. Bechtel

Keyword(s):

Magnetic Field ◽

Carbon Steel ◽

Magnetic Viscosity ◽

Cold Rolled

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Numerical Analysis of Anti-Impact Performances of the Reinforced Concrete Slab

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.249-250.1063 ◽

2012 ◽

Vol 249-250 ◽

pp. 1063-1068

Author(s):

Qian Ma ◽

Dan Wu ◽

Xu Dong Shi ◽

Xiu Gen Jiang

Keyword(s):

Reinforced Concrete ◽

Concrete Slab ◽

Concrete Strength ◽

Impact Resistance ◽

Reinforced Concrete Slab ◽

Reinforced Concrete Slabs ◽

Steel Bar ◽

Parameterized Modeling ◽

Element Theory ◽

Bar Diameter

The influence of the structure parameters on the anti-impact performances of the reinforced concrete slab is studied in the article. The reinforced concrete model is established by using ANSYS 13.0/LS-DYNA and nonlinear finite element theory and the parameterized modeling is achieved. The results show that the increase of the thickness of the slab and the steel bar diameter result in the enhancement of impact resistant capability of the slab; a appropriate quantity of reinforcement is significant; Increasing the concrete strength has a distinct impact on the slab’s impact resistance when using relatively low strength concrete. However the influence becomes weak after the concrete strength comes to C60 and higher. The fruits are useful to the designing of reinforced concrete slabs.

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Failure Modes and Resistance of Perforated Steel Rib Shear Connectors under Uplift Forces

Advances in Civil Engineering ◽

10.1155/2019/9041376 ◽

2019 ◽

Vol 2019 ◽

pp. 1-16 ◽

Cited By ~ 1

Author(s):

Xiaoqing Xu ◽

Yuqing Liu

Keyword(s):

Composite Structures ◽

Failure Modes ◽

Analytical Models ◽

Shear Connectors ◽

Steel Bar ◽

Concrete Damage ◽

Uplift Resistance ◽

Transverse Steel ◽

Uplift Forces

In recent years, there is a rapid increase in the application of perforated steel rib shear connectors in steel and concrete composite structures. The connectors must not only ensure shear transfer but also sufficient uplift resistance. The shear behavior of connectors has been extensively investigated. However, studies on uplift resistance are lacking so far. Therefore, three push-out test specimens were tested to investigate the shear and tension behavior of perforated L-shaped and plain steel rib shear connectors. The failure modes of connectors were analyzed, and analytical models for the determination of uplift resistance were derived based on test results. The results showed that the ductility of perforated steel rib shear connectors under uplift force was smaller than that under shear force, and more severe concrete damage surrounding the rib and larger bending deformation of transverse steel bar was observed. The rib flange of L-shaped perforated rib has a significant contribution to the uplift resistance. It was suggested to increase the rib height of L-shaped rib to avoid the horizontal crack at the height of the rib flange. The validity of the proposed analytical models was confirmed by comparing the failure modes and capacities of specimens.

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Bond Effects between Concrete and Steel Bar Using Different Diameter Bars and Different Initial Crack Width

Advances in Civil Engineering ◽

10.1155/2017/8205081 ◽

2017 ◽

Vol 2017 ◽

pp. 1-11 ◽

Cited By ~ 1

Author(s):

Papa Niane Faye ◽

Yinghua Ye ◽

Bo Diao

Keyword(s):

Crack Width ◽

Chloride Content ◽

Initial Crack ◽

Bond Performance ◽

Pull Out ◽

Steel Bar ◽

Service Conditions ◽

Concrete Casting ◽

Initial Cracks ◽

Bar Diameter

The importance of an accurate simulation of service conditions in the bond performance of reinforced concrete structures in coastal regions is highlighted. Four widths of initial crack of 0, 80, 150, and 210 microns were artificially made by inserting slice into bond specimens during concrete casting. Three bar diameters of 10 mm, 14 mm, and 18 mm were selected. At 28 days, the bond specimens were exposed to the environment of wet-dry cycles of seawater and atmosphere for another 90 days. The pull-out test was then conducted and chloride contents were tested at crack area along 40 mm depth. Results show that, for the specimen with 10 mm bar diameter, cracks width of less than 80 microns vanished rapidly during wet-dry cycles; for other specimens, cracks width of 100–150 microns decreased slightly. However the cracks of width more than 200 microns increased gradually; the chloride content decreased along the depth of concrete, and the chloride content increased as the widths of initial cracks increased or as the bar diameters increased. The ductility of bond specimens decreased as the diameter increased.

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