管桩钢及其盘条的研制与开发

采取平炉→初轧→高线工艺路线,研制开发了管桩钢及其高线盘条(30MnSi、30Si2MnB 两个牌号),其综合性能属于国内领先,基本上可以取代进口盘条。

高强度管桩钢的组织与耐蚀性研究

研究了不同Cr含量的控轧控冷态管桩钢的显微组织、力学性能、电化学腐蚀性能和半浸泡腐蚀性能;分析了Cr元素的作用机理。结果表明,0.5Cr管桩钢的金相组织为多边形多铁素和少量珠光体,1.0Cr管桩钢的金相组织为不规则铁素体和少量粒状贝氏体,1.5Cr管桩钢的金相组织为铁素体、贝氏体和少量M-A岛;随着Cr含量的增加,管桩钢的屈强强度、抗拉强度和屈强比逐渐增加,而断后伸长率逐渐降低;随着Cr含量的增加,管桩钢的耐点腐蚀性能逐渐增加,腐蚀特征从点蚀逐渐向均匀腐蚀转变,管桩钢的最大点蚀深度逐渐降低;随着Cr含量的增加,管桩钢的腐蚀电位不断正移的同时,腐蚀电流密度逐渐减小,1.5Cr管桩钢具有最佳的耐腐蚀性。

水利工程用管桩钢的组织与耐蚀性

对比研究了低碳钢(A)、单独添加0.18Cu(B)以及复合添加0.18Cu+0.18Cr(C)管桩钢的显微组织、力学性能和电化学性能。结果表明:B和C管桩钢的强度和断后伸长率都要明显高于A的,3种热轧态管桩钢的屈强比都低于0.7;3种热轧态管桩钢在液面上区域的腐蚀程度重于在液面下区域的,且在液-气界面处的腐蚀程度最重。单独添加0.18Cu和复合添加0.18Cu+0.18Cr后,管桩钢的腐蚀类型已经从局部点蚀转变为均匀腐蚀,含0.18Cu和0.18Cu+0.18Cr管桩钢的腐蚀速率明显低于低碳钢的;A和C管桩钢表面腐蚀产物都主要为α-FeOOH、β-FeOOH、γ-FeOOH和Fe_3O_4,且C管桩钢表面腐蚀产物中含有更多的Fe_3O_4;单独添加0.18Cu或者复合添加0.18Cu+0.18Cr都能提高管桩钢的耐蚀性,且C管桩钢具有相对更高的耐蚀性。

管桩钢用线材的开发要点

对管桩、管桩钢筋、管桩钢用线材作了介绍，分析了管桩钢筋的材料特性，阐述了开发管桩钢筋用线材的技术要求：钢种选择、成分设计与控制等。并提出了该品种线材的冶炼、轧制工艺要点。

预应力管桩的最新进展和发展趋向

从预应力管桩新产品的研制、钻孔植桩工法的推广等方面阐述了管桩生产和施工技术的最新进展,同时指出,PRC桩和钻孔植桩工法的推广应用是管桩行业今后着力要做的两件关系到行业发展趋向的重要工作。

Behavior of concrete and concrete-filled circular steel tubular stub columns at constant high temperatures

Based on reanalyzing test results of uniaxial compressive behavior of concrete at constant high temperatures in China, with the compressive cube strength of concrete from 20 to 80 MPa, unified formulas for uniaxial compressive strength, elastic modulus, strain at peak uniaxial compression and mathematical expression for unaxial compressive stress-strain relations for the concrete at constant high temperatures were studied. Furthermore, the axial stress-axial strain relations between laterally confined concrete under axial compression and multiaxial stress-strain relations for steel at constant high temperatures were studied. Finally, based on continuum mechanics, the mechanics model for concentric cylinders of circular steel tube with concrete core of entire section loaded at constant high temperatures was established. Applying elasto-plastic analysis method, a FORTRAN program was developed, and the concrete-filled circular steel tubular （CFST） stub colunms at constant high temperatures were analyzed. The analysis results are in agreement with the experiment ones from references.

钻孔嵌岩植桩在钢栈桥管桩施工中的应用

在现阶段的现浇箱梁深水基础施工中,钢管桩基础是关键,所以分析研究钢管桩基础的施工应用有突出的价值。在工程实践中,钢管桩基础的具体施工环境会存在差异,所以在部分特殊场所中,遵循常规的钢栈桥管桩施工方法和技术无法达到施工设计要求,因此需要针对现实环境状况进行施工实践方案的设计。总结钢栈桥管桩施工实践发现在面对浅覆盖层、裸岩或者是抛石段的时候,栈桥钢管桩的施工无法采取传统的“钓鱼法”,所以需要基于具体情况采用钻孔嵌岩植桩技术。文章就钻孔嵌岩植桩在钢栈桥管桩施工中的应用做具体分析,旨在为实践提供帮助与指导。

Leachate Control Technology Using H-Jointed Steel Pipe Sheet Piles with H-H Joints at Coastal Landfills

H-H joint of ＂H-jointed SPSP with H-H joint＂, which is made up of interlocking two H-steel sections of different sizes, is the one of SPSP＇s joint to improve the hydraulic conductivity. ＂H-H jointed SPSP with H-H joint＂ is expected to be applied to a vertical cutoff wall in coastal landfill sites. In H-jointed SPSP with H-H joint, the H-joint is completely imperviousness. H-H joint, however, is pervious at interlocked state because a gap of 8 to 11 mm is left between the interlocking flanges, therefore, a water interception treatment must be conducted to seal the gap. The water shielding treatment of H-H joint is executed by coating the gaps with a water-swelling sheet of paint before its installation. Then, hollow space is generated in H-H joint after treating by water-swelling sheet, and that space can be used effectively. This paper proposes leachate control technologies using H-H joint interior space of SPSP cutoff walls. The possibility of those technologies and hydraulic conductivity of H-jointed SPSP with H-H joints are demonstrated by conducting the hydraulic conductivity test.

Evaluation of Measurement Accuracy of Underground Thermometers Using Steel-Pipe Piles

For ground source heat utilization systems, pile heat exchangers are sometimes used. In order for these systems to achieve high performance, control of the system dynamics is important, and the underground temperature must he known. Typically, underground temperature is measured using a thermometer in a borehole. However, in the case of pile heat exchangers, a different method is required, making the system expensive to set up. To overcome this problem, the installation of underground thermometers in the heat exchanger piles themselves is proposed in the present study. The proposed thermometer system consists of thermocouples packed in grout such as silica sand within the piles. However, there is a possibility of measurement errors due to vertical thermal conduction in the steel pipes, and it is important to estimate the measurement accuracy before the development of this system. In the present study, the measurement accuracy is estimated using numerical simulations and then confirmed experimentally. The underground temperature profiles inside and outside the pile are compared. The results indicate that the proposed system offers sufficient accuracy for application to pile heat exchangers.

Study on Interface mechanical behavior of steel tube reinforced concrete composite pile

Currently for the steel tube reinforced concrete composite pile research, although predecessors make a comprehensive research on the composite pile beating performance, design technology, but there are still many problems have not been solved, such as the steel tube reinforced concrete pile composite interracial force learn performance research is still in the initial stage. In this paper, we mainly discuss the research methods of several interface mechanical properties and propose the possibility of studying the mechanical properties of the steel tube reinforced concrete composite pile by using the principle of ultrasonic speckle.

High-frequency interference in low strain integrity testing of large-diameter pipe piles

The high-frequency interference exists obviously in low strain integrity testing of large-diameter pipe pile when a transientpoint load is applied. An analytical solution of vertical vibratory response of large-diameter pipe piles in low strain testing isdeduced in this paper. The analytical solution is verified by both numerical simulation and model test results. The time-domainvelocity responses on pile top are analyzed. The calculation results indicate that the time-domain responses at various pointssuffer different high-frequency interferences, thus the peak values and phases of different points are different. The influence ofvibratory modes on high-frequency interference is analyzed. It is found that the high-frequency interference at 90° point main-ly derives from the second flexural mode, but for other points it mainly originates from the first flexural mode. The factors af-fecting the frequency and peak value of interference waves have been investigated in this study. The results indicate that thelarger radius angle between the receiving and 90° points leads to greater peak value of high frequency wave crest. The leasthigh-frequency interference is detected at the angle of 90°. The frequency of interference waves is decreased with the increaseof pile radius, while the peak value is almost constant. The frequency is also related to pile modulus, i.e. the larger pile modu-lus results in greater frequency. The peak value varies with impulse width and soil resistance, i.e., the wider impulse width andlarger soil resistance cause smaller peak value. In conclusion, the frequency of interference waves is dependent on the geomet-rical and mechanics characteristics of the piles such as pile radius and modulus, but independent of the external conditionssuch as impulse width and soil resistance. On the other hand, the peak value of interference waves is mainly dependent on theexternal conditions but independent of the geometrical and mechanics characteristics of the piles. In practice, some externalmeasures should be adopted to weaken high-frequency interference such as using soft hammer, hammer cushion and adoptingsuitable receiving point.