Field experiments on reinforcing effects of small-diameter bladed steel pipes with bearing plate on slope stabilization

This study aimed to evaluate the bearing strength of the post-tensioning anchorage zone with respect to the relative bearing area and lateral confinement design of spiral and stirrup rebars. Eleven specimens were fabricated and tested to fracture in accordance with EAD 160004-00-0301. Load-displacement curves and fracture modes were analyzed. Then, the conventional design equation for the bearing strength and previous findings on the relative bearing area was re-investigated in comparison with the test results. From the test, the representative findings are as follows: (1) A specimen with relatively small size and less lateral reinforcement is more likely to be affected by the wedge action of the anchorage device; however, a larger specimen is affected by both concrete crushing and/or spalling; (2) The behavior of the anchorage zone is markedly affected by the local behavior near the anchorage bearing plate, and the sectional efficiency is mostly determined by A/Ag; (3) For specimens with A/Ag = 9.52, the proportional limit of the load-displacement curve is determined by the yield of spiral rebar or fracture of the bearing plate, but the later part of the curve is determined by lateral confinement; (4) The maximum A/Ag that could produce 100% sectional efficiency is about 2.0 for the anchorage bearing plate used in the test; (5) For a fully confined specimen with a small-diameter spiral for minimum anchorage spacing, the stirrup rebar design mainly influences crack occurrence and patterns when the size of the specimen is equal to the minimum anchorage spacing; however, the area of the load-displacement curve after the proportional limit as well as crack occurrence and patterns are also influenced by stirrup rebar design when A/Ag is relatively large; (6) Finally, a revised design model is proposed to effectively estimate the ultimate bearing strength of the post-tensioning anchorage zone without respect to A/Ag. From the comparison of the design equations, it was concluded that the proposed equation provides a more reliable prediction with a 14.0% average error rate and 5.7% standard deviation of error rate.

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Lateral Resistance Influencing Factor Analysis of Small Diameter Anti-Slide Pile Based on Orthogonal Test

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.777.42 ◽

2015 ◽

Vol 777 ◽

pp. 42-47

Author(s):

Lian Liu ◽

Mo Han Bai ◽

Wen Long Lu

Keyword(s):

Construction Industry ◽

Influencing Factor ◽

Concrete Strength ◽

Small Diameter ◽

Shear Resistance ◽

Deep Foundation ◽

Slope Stabilization ◽

Lateral Resistance ◽

Sensitive Factor ◽

Reinforcement Bar

Following with the development of construction industry, small diameter anti-sliding pile has been widely implemented in slope stabilization and deep foundation support. Much attention has been paid on researching lateral resistance of pile body. By orthogonally testing factors of small diameter anti-slide reinforcement pile models including concrete strength, sectional dimension and reinforcement bar gauge, The article analyzed sensitive influence to lateral resistance of pile body. The results indicate that concrete strength appears the most sensitive factor, next sectional dimension, and then reinforcement bar gauge. By comparing with shearing test of small diameter anti-slide reinforcement pile models, the conclusion follows that reinforcement of pile body does not fully unleash its shear resistance characteristic. Thus conclusion provides reference for implementation and designing of small diameter anti-slide pile.

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Electroabrasive Mirror Finishing of the Inner Surfaces of Stainless Steel Pipes of Small Diameter.

Shinku ◽

10.3131/jvsj.40.523 ◽

1997 ◽

Vol 40 (6) ◽

pp. 523-528 ◽

Cited By ~ 1

Author(s):

Koichi SEIMIYA

Keyword(s):

Stainless Steel ◽

Small Diameter ◽

Steel Pipes

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Ultrasonic multi-view total focusing method for weld defect detection on small-diameter austenitic stainless steel tubes

Insight - Non-Destructive Testing and Condition Monitoring ◽

10.1784/insi.2019.61.11.649 ◽

2019 ◽

Vol 61 (11) ◽

pp. 649-655

Author(s):

Wu Bin ◽

Yang Jing ◽

Jiao Jingpin ◽

He Cunfu ◽

Qi Gaojun

Keyword(s):

Stainless Steel ◽

Austenitic Stainless Steel ◽

Defect Detection ◽

Small Diameter ◽

Austenitic Stainless Steels ◽

Ultrasonic Waves ◽

Imaging Method ◽

Steel Pipes ◽

Weld Defect ◽

Wave Modes

Austenitic stainless steels are widely used in the key components of major equipment and the welds can be the weakest parts of equipment made with these materials. Ultrasonic waves propagate in austenitic stainless steel welds with multiple paths and modes. This study employed a multi-view total focusing method using an ultrasonic phased array for defect detection in the welds of small-diameter austenitic stainless steel pipes. The detection capability of four different direct wave modes and eight different half-skip wave modes for typical defects were compared and analysed through numerical simulation. A fusion imaging method was developed using the preferred direct and half-skip wave modes. The process was further verified with a weld defect detection experiment carried out on small-diameter austenitic stainless steel pipes. The results show that the multi-view total focusing method can efficiently detect the defects in the welds of small-diameter tubes. Compared with the single-mode imaging method, the fusion total focusing imaging approach can not only improve the signal-to-noise ratio but can also reduce the number of image artefacts.

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Experimental Study of Replacement the Tension Reinforcing Bars in Concrete Beams by Steel Pipes

International Journal of Engineering & Technology ◽

10.14419/ijet.v7i4.20.25931 ◽

2018 ◽

Vol 7 (4.20) ◽

pp. 229

Author(s):

Labeeb Saadoon Al-Yassri ◽

Alaa Mahdi Al-Khekany ◽

Hajer Satea Abbas

Keyword(s):

Reinforced Concrete ◽

Construction Projects ◽

Concrete Beams ◽

Small Diameter ◽

Reinforced Concrete Beams ◽

Steel Pipe ◽

Steel Pipes ◽

Steel Bar ◽

Steel Bars ◽

The Difference

Structures designed with reinforced concrete beams are used extensively in construction projects because of their functional and economic features. In this research, tested concrete beams were cast and reinforced with small diameter steel pipes and /or steel bars as flexural reinforcement to study the effect of this configuration of reinforcement on the structural behavior of reinforced concrete beams. The idea of this research involves performing and testing of four reinforced concrete beams reinforced by small diameter steel pipes with different percentages of replacement with traditional steel bars (0%, 33%, 66% and 100%). The experimental results showed that using of steel pipes reduces the flexural capacity by (2.7, 18.3, 37.5%) if compared with traditional steel bar according to the replacement percentages of (33%, 66%, and 100%) respectively. Moreover, the stiffness of beams reinforced with steel pipes (fully or partially) decreased as a result of the difference in the mechanical properties between steel bar and the steel pipe and also, the bond strength reduction between the smooth steel pipe and surrounded concrete.

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Automatic Ultrasonic Testing System Designed For Small-Diameter Steel Pipes With Thick Wall

International Journal of Control and Automation ◽

10.14257/ijca.2017.10.1.27 ◽

2017 ◽

Vol 10 (1) ◽

pp. 301-314

Author(s):

Qi Zhang ◽

Li Hou ◽

Rui Tang

Keyword(s):

Ultrasonic Testing ◽

Small Diameter ◽

Thick Wall ◽

Testing System ◽

Steel Pipes

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IN-SEWER OXYGENATION OF WASTEWATER USING VENTURI SIDE-STREAM DISSOLVERS

Water Science & Technology ◽

10.2166/wst.1994.0020 ◽

1994 ◽

Vol 30 (1) ◽

pp. 185-194 ◽

Cited By ~ 2

Author(s):

G. A. Holder ◽

J. M. Leow

Keyword(s):

Field Experiments ◽

Operating Cost ◽

Small Diameter ◽

Oxygen Adsorption ◽

Absorption Efficiency ◽

Operating Conditions ◽

High Mass ◽

Oxygen Injection ◽

Power Cost ◽

Mixing Energy

The objective of the studies was to improve the efficiencies of venturi-nozzle oxygen-injection facilities installed for in-situ sewer oxygenation as part of an odour control strategy. A procedure which can be utilised to estimate cost-effective operation for oxygen injection at a given site is outlined. The procedure requires the experimental determination of oxygen-adsorption efficiency / nozzle-pres sure-loss plots for the range of operating conditions. Results from both laboratory and field experiments, together with theoretical studies are reported. The total operating cost for an installation consists of the oxygen cost plus the pumping power cost. As could be anticipated, there is a trade-off between oxygen costs and mixing energy efficiency. The total operating cost can be minimised by operating at high mass transfer efficiency. In these situations oxygen wastage is low. However this can only be accomplished when the system is supplied with adequate mixing energy. The studies showed that the best way to reduce the existing oxygen wastage problems was to operate at maximum absorption efficiency with a relatively small diameter nozzle (provided that precautions are taken to avoid nozzle plugging problems) and adequate nozzle pressure loss.

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Noise Reduction Using Wavelet Transform in Ultrasonic Flaw Detection of Small-Diameter Steel Pipe with Thick Wall

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.383-390.4755 ◽

2011 ◽

Vol 383-390 ◽

pp. 4755-4761

Author(s):

Shao Jiang Wang ◽

Li Hou ◽

Yu Lin Wang ◽

Jian Quan Zhang

Keyword(s):

Wavelet Transform ◽

Noise Reduction ◽

Flaw Detection ◽

Small Diameter ◽

Internal Noise ◽

Thick Wall ◽

Band Pass Filter ◽

Pass Filter ◽

Ultrasonic Signals ◽

Steel Pipes

In order to ensure that small diameter steel pipes with thick wall have high intensity and high quality, ultrasonic immersion method with focusing probe was used to detect the flaw of the small-diameter steel pipes with thick wall. In practice, the echoes are often corrupted with external noise or internal noise, therefore, it is necessary to reduce the noise and to enhance the SNR of ultrasonic signals. A technique for improving the SNR of ultrasonic signals using wavelet transform is presented. In this method, WT, consider as one band-pass filter, is used to remove the noises. The performance of this technique has been verified by experimental, which is done by using a series of flaw ultrasonic echoes obtained from a specimen of the small-diameter steel pipes with thick wall. In particular we have found the processing of the ultrasonic signals using wavelet transform extremely useful for noise reduction. After processing, the SNR of ultrasonic signals are enhanced substantially. All experimental results show that this technique is effective for removing the white noise from the ultrasonic signals.

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