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Theoretical Analysis on Deflection and Bearing Capacity of Prestressed Bamboo-Steel Composite Beams
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作者 Qifeng Shan Ming Mao Yushun Li 《Journal of Renewable Materials》 EI CAS 2024年第1期149-166,共18页
A theoretical analysis of upward deflection and midspan deflection of prestressed bamboo-steel composite beams is presented in this study.The deflection analysis considers the influences of interface slippage and shea... A theoretical analysis of upward deflection and midspan deflection of prestressed bamboo-steel composite beams is presented in this study.The deflection analysis considers the influences of interface slippage and shear deformation.Furthermore,the calculation model for flexural capacity is proposed considering the two stages of loading.The theoretical results are verified with 8 specimens considering different prestressed load levels,load schemes,and prestress schemes.The results indicate that the proposed theoretical analysis provides a feasible prediction of the deflection and bearing capacity of bamboo-steel composite beams.For deflection analysis,the method considering the slippage and shear deformation provides better accuracy.The theoretical method for bearing capacity matches well with the test results,and the relative errors in the serviceability limit state and ultimate limit state are 4.95%and 5.85%,respectively,which meet the accuracy requirements of the engineered application. 展开更多
关键词 Bamboo scrimber composite beam prestress DEFLECTION bearing capacity
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Vibration attenuation performance of wind turbine tower using a prestressed tuned mass damper under seismic excitation
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作者 Lei Zhenbo Liu Gang +1 位作者 Wang Hui Hui Yi 《Earthquake Engineering and Engineering Vibration》 SCIE EI CSCD 2024年第2期511-524,共14页
With the rapid development of large megawatt wind turbines,the operation environment of wind turbine towers(WTTs)has become increasingly complex.In particular,seismic excitation can create a resonance response and cau... With the rapid development of large megawatt wind turbines,the operation environment of wind turbine towers(WTTs)has become increasingly complex.In particular,seismic excitation can create a resonance response and cause excessive vibration of the WTT.To investigate the vibration attenuation performance of the WTT under seismic excitations,a novel passive vibration control device,called a prestressed tuned mass damper(PS-TMD),is presented in this study.First,a mathematical model is established based on structural dynamics under seismic excitation.Then,the mathematical analytical expression of the dynamic coefficient is deduced,and the parameter design method is obtained by system tuning optimization.Next,based on a theoretical analysis and parameter design,the numerical results showed that the PS-TMD was able to effectively mitigate the resonance under the harmonic basal acceleration.Finally,the time-history analysis method is used to verify the effectiveness of the traditional pendulum tuned mass damper(PTMD)and the novel PS-TMD device,and the results indicate that the vibration attenuation performance of the PS-TMD is better than the PTMD.In addition,the PS-TMD avoids the nonlinear effect due to the large oscillation angle,and has the potential to dissipate hysteretic energy under seismic excitation. 展开更多
关键词 wind turbine tower prestressed tuned mass damper vibration control seismic excitation numerical simulation
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Exploring the feasibility of prestressed anchor cables as an alternative to temporary support in the excavation of super-large-span tunnel
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作者 Shunhua Zhou Yuyin Jin +3 位作者 Zhiyao Tian Chunhua Zou Heming Zhao Zengrun Miao 《Railway Engineering Science》 EI 2024年第3期344-360,共17页
Excavating super-large-span tunnels in soft rock masses presents significant challenges.To ensure safety,the sequential excavation method is commonly adopted.It utilizes internal temporary supports to spatially partit... Excavating super-large-span tunnels in soft rock masses presents significant challenges.To ensure safety,the sequential excavation method is commonly adopted.It utilizes internal temporary supports to spatially partition the tunnel face and divide the excavation into multiple stages.However,these internal supports generally impose spatial constraints,limiting the use of large-scale excavation equipment and reducing construction efficiency.To address this constraint,this study adopts the“Shed-frame”principle to explore the feasibility of an innovative support system,which aims to replace internal supports with prestressed anchor cables and thus provide a more spacious working space with fewer internal obstructions.To evaluate its effectiveness,a field case involving the excavation of a 24-m span tunnel in soft rock is presented,and an analysis of extensive field data is conducted to study the deformation characteristics of the surrounding rock and the mechanical behavior of the support system.The results revealed that prestressed anchor cables integrated the initial support with the shed,creating an effective“shed-frame”system,which successively maintained tunnel deformation and frame stress levels within safe regulatory bounds.Moreover,the prestressed anchor cables bolstered the surrounding rock effectively and reduced the excavation-induced disturbance zone significantly.In summary,the proposed support system balances construction efficiency and safety.These field experiences may offer valuable insights into the popularization and further development of prestressed anchor cable support systems. 展开更多
关键词 Super-large-span tunnel Construction safety Sequential excavation method Shed-frame principle prestressed anchor cables
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Investigation of the Effect of the Force Arm on the Bending Capability of Prestressed Glulam Beam
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作者 Yan Zhao Yuanyuan Wu +3 位作者 Shengliang He Zhenglu Gao Ziyan Huang Chenzheng Lv 《Structural Durability & Health Monitoring》 EI 2024年第5期641-661,共21页
Prestress enables the Glulam beam could make full use of the compression strength,and then increase the span,but it still could not reduce all drawbacks,such as cross-section weakening and small force arm.To avoid slo... Prestress enables the Glulam beam could make full use of the compression strength,and then increase the span,but it still could not reduce all drawbacks,such as cross-section weakening and small force arm.To avoid slotting and ensure suitable tension and compression couple,one kind of novel anchor has been proposed,which could meet the bearing capacity requirement.And then the bending test of prestressed Glulam beams with a geometric scale ratio of 1:2 was simulated,to investigate the effect of the force arm on bending capacities,failure modes,and deformation performance.Results show that increasing the force arm could improve the ultimate bending per-formance of the beam significantly,and the anchor arm length has a certain effect on the performance,but it is not obvious.Finally,based on Finite element method analysis,the practice design suggestions have been offered. 展开更多
关键词 Force arm prestressed Glulam beam finite element method bearing capacity
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Laminated Solid Timber Slab with Transverse Prestressing Using the Strategy of Interleaved Vertical Displacement of Lamellae
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作者 Bianca Bispo dos Reis Jorge Daniel de Melo Moura +1 位作者 Marcos Vinício de Camargo Everaldo Pletz 《Journal of Civil Engineering and Architecture》 2024年第4期186-198,共13页
This article presents a study on the structural behavior of transversely prestressed laminated timber slabs,focusing on an innovative approach:vertically misaligned lamellae.This misalignment,achieved by sliding verti... This article presents a study on the structural behavior of transversely prestressed laminated timber slabs,focusing on an innovative approach:vertically misaligned lamellae.This misalignment,achieved by sliding vertically the wooden lamellae rather than aligning them,enhances the slab’s cross-section moment of inertia,thereby improving load-bearing capacity and stiffness.Testing involved two groups of structural size specimens:one with vertically aligned lamellae(control group)and the other with misaligned lamellae(study group).Results showed the study group exhibited 42%superior stiffness and 10%less load capacity compared to the control.Failures typically occurred individually in the lamellae,particularly in those with defects or lower modulus of elasticity,concentrated in the middle third of the slabs’free span where tensile stresses peak.Despite a higher number of failed lamellae,the study group demonstrated promising performance.Analysis of prestressing bar indicated no damage at all in the thread,suggesting potential for reducing bar diameter.These findings offer crucial insights into applying these slabs in timber construction as well as to any kind of construction. 展开更多
关键词 Transversal prestressed slabs wooden construction plantation wood flexural testing design methodology
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Discussion on Detection and Evaluation of Simply Supported Prestressed Concrete Small Box Girder Bridge After a Fire
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作者 Qing Yang Jiang Feng 《Journal of Architectural Research and Development》 2024年第2期108-113,共6页
The article takes a simply supported prestressed concrete small box girder bridge project as an example for inspection and evaluation after a fire incident.This includes appearance detection,concrete color hardness de... The article takes a simply supported prestressed concrete small box girder bridge project as an example for inspection and evaluation after a fire incident.This includes appearance detection,concrete color hardness detection,concrete strength detection,concrete surface damage layer detection,reinforcement protective layer detection,and concrete carbonation detection.It is hoped that this analysis can be used as a reference for the detection and evaluation of future bridge projects with fire incidents to smoothen its subsequent repair and maintenance. 展开更多
关键词 prestressed concrete box girder Simply supported small box girder Fire damage Concrete testing Reinforcement testing
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Study on damage-stress loss coupling model of rock and prestressed anchor cable in dry-wet environment
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作者 Yu Zhao Huasu Wang +3 位作者 Jing Bi Zhijun Wu Chaolin Wang Jiabao Ma 《International Journal of Mining Science and Technology》 SCIE EI CAS CSCD 2023年第12期1451-1467,共17页
The loss of anchoring force is one of the problems to be solved urgently.The anchorage loss is a key factor causing the failure of anchoring engineering,so it is crucial to study the time-dependent variation of anchor... The loss of anchoring force is one of the problems to be solved urgently.The anchorage loss is a key factor causing the failure of anchoring engineering,so it is crucial to study the time-dependent variation of anchoring force.Alternating dry and wet(D-W)conditions have a significant effect on deformation of rock.The anchoring system is composed of anchoring components and rock mass,and thus rock deformation has a significant impact on the loss of anchoring force.Quantifying rock deformation under the effects of D-W cycles is a prerequisite to understanding the factors that influence loss of anchoring force in anchor bolts.In this study,we designed an anchoring device that enabled real-time monitoring of the variation in strain during D-W periods and rock testing.Nuclear magnetic resonance(NMR)measurements showed that under D-W conditions,the increment in porosity was smaller for prestressed rock than unstressed rock.The trends of prestress loss and strain variation are consistent,which can be divided into three characteristic intervals:rapid attenuation stage,slow attenuation stage and relatively stable stage.At the same stress level,the rate of stress loss and strain for the soaking specimen was the highest,while that of the dried specimen was the lowest.In the same D-W cycling conditions,the greater the prestress,the smaller the strain loss rate of the rock,especially under soaking conditions.The characteristics of pore structure and physical mechanical parameters indicated that prestress could effectively suppress damage caused by erosion related to D-W cycles.The study reveals the fluctuation behavior of rock strain and prestress loss under D-W conditions,providing a reference for effectively controlling anchoring loss and ideas for inventing new anchoring components. 展开更多
关键词 D-W cycles Anchoring force loss Coupled model Pore structure prestressed device
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Design on the Prestressed Concrete Frame Beam-column
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作者 ZHANG Taiyue ZHANG Weiguo +1 位作者 WANG Sihai GUO Yiqing 《Journal of Wuhan University of Technology(Materials Science)》 SCIE EI CAS CSCD 2023年第6期1397-1403,共7页
A bidirectional ribbed concrete beam slab structure was widly adopted for the upper space of industrial buildings.To maintain ample space and minimize the presence of conventional columns,a bidirectional prestressed c... A bidirectional ribbed concrete beam slab structure was widly adopted for the upper space of industrial buildings.To maintain ample space and minimize the presence of conventional columns,a bidirectional prestressed concrete beam is often employed.The intersection node of the prestressed concrete frame beam column was characterized by a high density of steel reinforcement,significant structural loads,and complex construction requirements.To ensure the quality,safety,and progress of prestressed frame beamcolumn intersection nodes during construction,this article proposed a new technology for constructing such nodes,which includes setting the tensioning and haunching ends of nodes at different positions,using ABAQUS finite element software to optimize the design of cross-sectional dimensions,conducting stress analysis simulations. 展开更多
关键词 prestressed concrete beam-column intersection node finite element analysis optimal design digital simulation
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预应力在我国大跨度结构中的应用研究综述 被引量:1
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作者 梁书亭 王文康 +3 位作者 朱筱俊 徐义威 韩天成 董俊 《东南大学学报(自然科学版)》 EI CAS CSCD 北大核心 2024年第3期559-566,共8页
为了提高大跨度结构的正常使用性能,通常在混凝土结构中施加预应力.结果表明,预应力混凝土结构具有更好的使用性、耐久性和大跨度适用性,其中预应力混凝土空心板结构在不显著降低承载力和刚度的前提下明显减小结构自重,预应力型钢混凝土... 为了提高大跨度结构的正常使用性能,通常在混凝土结构中施加预应力.结果表明,预应力混凝土结构具有更好的使用性、耐久性和大跨度适用性,其中预应力混凝土空心板结构在不显著降低承载力和刚度的前提下明显减小结构自重,预应力型钢混凝土梁(板)结构采用较小的截面尺寸即可满足承载力和刚度的需求.开发城市地下空间是解决城市用地紧张的有效手段,我国地下大跨空间常用的结构形式主要包括密排框架(肋梁)结构、折板或拱形结构、变截面(加腋)板结构、预应力混凝土结构、型钢-混凝土组合结构和Y形柱结构6种形式,相比之下,跨度较大时宜采用预应力结构. 展开更多
关键词 大跨度结构 城市地下空间 预应力技术 预应力空心结构 预应力型钢混凝土结构 工程案例
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考虑锚杆预应力作用下隧道围岩力学分析及参数设计 被引量:1
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作者 罗春雨 廖杭 +3 位作者 余涛 李梦可 王飞阳 方勇 《铁道标准设计》 北大核心 2024年第6期153-160,220,共9页
隧道工程中锚杆设计多依靠经验法和类比法,为研究预应力锚杆支护体系下围岩的力学效应,建立预应力锚杆与围岩力学耦合模型,考虑围岩开挖损伤效应,通过弹塑性力学理论推导出隧道开挖后围岩应力分布及径向位移解析表达式,采用有限差分软件... 隧道工程中锚杆设计多依靠经验法和类比法,为研究预应力锚杆支护体系下围岩的力学效应,建立预应力锚杆与围岩力学耦合模型,考虑围岩开挖损伤效应,通过弹塑性力学理论推导出隧道开挖后围岩应力分布及径向位移解析表达式,采用有限差分软件FLAC3D进行算例验证并分析预应力锚杆参数对围岩状态的影响。研究结果表明:理论解析和数值模拟中最大切向应力和围岩塑性区半径分别为4.77 MPa、15 m和4.49 MPa、15.86 m,理论解析与数值模拟所计算隧道围岩应力分布、位移基本一致,在Ⅳ、Ⅴ级围岩地层中验证了理论解析解的合理性;随着预紧力增大,处于塑性区的围岩径向位移及塑性区半径逐渐减小,弹性区基本不受影响;当锚杆自由段长度位于塑性区时,随着锚杆长度增加,围岩塑性区径向位移及塑性区半径逐渐减小。在实际工程中应尽量增大锚杆预紧力,锚杆长度增加对围岩位移以及塑性区的发展控制效果有限,应控制锚杆自由段长度在塑性区内。 展开更多
关键词 隧道工程 预应力锚杆 力学分析 数值模拟 开挖损伤 参数设计
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预应力UHPC槽形节段与整体式混凝土板组合梁受剪性能 被引量:2
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作者 陈宝春 陈逸聪 +1 位作者 周家亮 刘永健 《建筑科学与工程学报》 CAS 北大核心 2024年第3期54-64,共11页
将预制的UHPC槽形节段通过干缝连接和预应力张拉形成槽形梁,再与整体现浇的混凝土板组合成的组合梁,称为预应力UHPC槽形节段与整体式混凝土板组合梁(PUCS-MCS组合梁)。它是一种能充分发挥不同材料的性能、施工方便且整体性能好的新型桥... 将预制的UHPC槽形节段通过干缝连接和预应力张拉形成槽形梁,再与整体现浇的混凝土板组合成的组合梁,称为预应力UHPC槽形节段与整体式混凝土板组合梁(PUCS-MCS组合梁)。它是一种能充分发挥不同材料的性能、施工方便且整体性能好的新型桥梁结构。为探究其抗剪性能,开展了9根模型梁的试验。分析了接缝数、接缝处剪力键数、剪跨比、UHPC钢纤维体积率、配箍率和纵筋率等参数对试件变形、破坏模式、抗剪承载力的影响;基于试验研究结果,提出了PUCS-MCS组合梁抗剪承载力计算方法。结果表明:PUCS-MCS组合梁均为剪压破坏,所有梁在开裂前的荷载-挠度曲线差异不大,在开裂后刚度不断下降;PUCS-MCS组合梁的抗剪承载力随接缝处剪力键数、UHPC钢纤维掺量、配箍率和纵筋率的增大而增大,随干接缝数量增加和剪跨比的增大而减小,其中影响最显著的是干接缝和剪力键,影响最小的是钢纤维掺量和配箍率,因此PUCS-MCS组合梁可不配箍筋,并可采用较低钢纤维掺量的UHPC。 展开更多
关键词 超高性能混凝土 预应力槽形节段梁 整体式混凝土板 组合梁 受剪性能
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新型预应力混凝土钢管桁架叠合梁抗剪性能有限元分析 被引量:2
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作者 周广强 付祥峰 《建筑技术》 2024年第5期575-578,共4页
为解决施工现场中现有装配式混凝土叠合梁、梁柱结点钢筋相互影响的问题,设计一种新型预应力混凝土钢管桁架叠合梁。为进一步研究该叠合梁的抗剪性能,共设计6个叠合梁、3个整浇梁进行ABAQUS有限元模拟,分析其破坏特征机理、荷载–跨中... 为解决施工现场中现有装配式混凝土叠合梁、梁柱结点钢筋相互影响的问题,设计一种新型预应力混凝土钢管桁架叠合梁。为进一步研究该叠合梁的抗剪性能,共设计6个叠合梁、3个整浇梁进行ABAQUS有限元模拟,分析其破坏特征机理、荷载–跨中挠度曲线等,研究试件剪跨比、底板厚度参数对抗剪性能的影响,以及新型预应力混凝土钢管桁架叠合梁与整浇梁的抗剪性能对比。数值模拟分析结果显示,新型叠合梁与整浇梁均为剪切破坏,在底板厚度相同的情况下,随着剪跨比的增大,叠合梁的极限承载力略微降低。此外,预制高度增加会导致叠合梁的极限承载力减小。叠合梁表现出与整浇梁相似的受剪性能,随着剪跨比增加,叠合梁相对于整浇梁表现出更好的抗剪性能。综合而言,新型预应力混凝土钢管桁架叠合梁具有良好的抗剪性能。 展开更多
关键词 叠合梁 预应力 抗剪性能 有限元分析
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导叶安装角度对离心泵叶轮结构特性的影响 被引量:1
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作者 裴吉 刘总帅 +1 位作者 王文杰 韩振华 《排灌机械工程学报》 CSCD 北大核心 2024年第3期217-222,229,共7页
为提高带导叶蜗壳式离心泵的运行稳定性,研究了不同导叶安装角度对离心泵性能及叶轮结构力学响应的影响.以某带导叶蜗壳泵为研究对象,首先对其进行流场数值模拟,再通过静态和瞬态结构分析模块将水压力载荷导入叶轮结构,以实现单向流固... 为提高带导叶蜗壳式离心泵的运行稳定性,研究了不同导叶安装角度对离心泵性能及叶轮结构力学响应的影响.以某带导叶蜗壳泵为研究对象,首先对其进行流场数值模拟,再通过静态和瞬态结构分析模块将水压力载荷导入叶轮结构,以实现单向流固耦合分析,研究不同导叶安装角度下叶轮变形与等效应力变化规律,最后通过模态分析研究叶轮结构的振动特性.结果表明:随着导叶安装角度减小,泵的高效区向小流量工况偏移,并且最高效率逐渐增大,最大提高2.1%;单向流固耦合分析得到的稳态结果与瞬态结果规律一致,其中叶轮最大变形量和最大等效应力值都随流量的增大而减小,在设计工况附近,都随导叶安装角度的减小而减小,最大差值为3.3%,且最大等效应力值变化的幅值较小;预应力对叶轮干模态固有频率的影响可忽略不计,与干模态对比,湿模态下的固有频率有较显著下降. 展开更多
关键词 带导叶蜗壳式离心泵 导叶安装角度 单向流固耦合 预应力 模态
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基于缩尺模型的高铁桥梁预应力损失试验研究
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作者 许开成 黄凌娟 +3 位作者 李鹏清 张立卿 邱日旭 陈梦成 《华东交通大学学报》 2024年第2期48-55,共8页
【目的】为更好的评估在役预应力混凝土桥梁结构预应力损失状况。【方法】选用国内高铁中应用最广的32 m预应力混凝土箱梁作为研究对象,按照1:16的缩尺比例将箱梁转化为T形截面制作了26根C50混凝土试验模型梁。通过对试验梁预应力钢绞... 【目的】为更好的评估在役预应力混凝土桥梁结构预应力损失状况。【方法】选用国内高铁中应用最广的32 m预应力混凝土箱梁作为研究对象,按照1:16的缩尺比例将箱梁转化为T形截面制作了26根C50混凝土试验模型梁。通过对试验梁预应力钢绞线应变、伸长量的瞬时和长期监测得到预应力损失的实际值,并将此实际值与目前国内外常用预应力损失规范计算所得值进行对比分析。【结果】预应力损失主要发生在前期即瞬时损失,约占总损失的70%;84.6%的试验梁锚固损失占瞬时损失总和的70%以上,最高达80.57%;试验梁的长期损失在锚固后的前10 d内变化较快,后期逐渐趋于稳定;将5种规范的计算结果与试验实测值进行对比,对于长期损失,数据显示实测数据与《铁路桥涵设计规范》(TB 10002—2017)计算结果最为吻合。【结论】研究结果可为实际工程中预应力梁的预应力损失计算提供参考。 展开更多
关键词 预应力混凝土梁 预应力损失 缩尺模型 规范对比 应变监测
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带锚板预应力螺纹钢筋抗拔性能试验研究
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作者 刘均利 裴天师 +3 位作者 安永昌 梁涛 陈俊 郑艳 《河南理工大学学报(自然科学版)》 CAS 北大核心 2024年第3期171-180,共10页
目的为了探讨直径25 mm、强度等级PSB1080的带锚板预应力螺纹钢筋在有效锚固长150,200,250 mm的钢筋混凝土厚板或基础中拔出时的锚固性能,方法以有效锚固长度、套管有无、锚板宽度和构造钢筋数量为试验参数,对7个试件进行抗拔性能试验... 目的为了探讨直径25 mm、强度等级PSB1080的带锚板预应力螺纹钢筋在有效锚固长150,200,250 mm的钢筋混凝土厚板或基础中拔出时的锚固性能,方法以有效锚固长度、套管有无、锚板宽度和构造钢筋数量为试验参数,对7个试件进行抗拔性能试验研究。研究试件的破坏特征,分析荷载-位移曲线、极限抗拔承载力、试件开裂荷载和荷载-应变曲线。结果结果表明:试件抗拔承载力随着锚固长度的增加而增加,当有效锚固长度为250 mm时,预应力螺纹钢筋均能达到屈服;混凝土开裂荷载随着有效锚固长度、锚板宽度和套管的增设而增加,构造钢筋数量对面层混凝土开裂荷载的影响并不明显;采用套管试件的面层混凝土开裂荷载比未采用套管试件提高了2.66倍;根据荷载-位移曲线可知,在锚板上增设构造钢筋可以防止带锚板预应力螺纹钢筋拔出时承载力急剧下降;基于试验结果和相关文献结果,对比锚固区混凝土锥体破坏试件的试验值与计算值可知,Nilforoush建议式和日本JSCE规范式9.2.11分别比试验值低19%和10%。结论增设套管可以有效提高开裂荷载;使用日本JSCE规范式9.2.11计算抗拔承载力更接近试验值。 展开更多
关键词 带锚板 套管 预应力螺纹钢筋 抗拔性能
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PPC斜拉桥主梁多状态疲劳及疲劳后静力性能试验研究
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作者 袁晟 颜东煌 +3 位作者 刘昀 彭坤帅 郭鑫 袁明 《土木工程学报》 EI CSCD 北大核心 2024年第6期169-179,189,共12页
为研究大跨径部分预应力混凝土(PPC)斜拉桥主梁的抗疲劳性能,进一步探究混凝土斜拉桥主梁采用部分预应力设计的可行性及合理性,制作了斜拉桥缩尺节段模型,并对主梁采用部分预应力设计,开展4轮共4×250万次主梁具有不同初始损伤及带... 为研究大跨径部分预应力混凝土(PPC)斜拉桥主梁的抗疲劳性能,进一步探究混凝土斜拉桥主梁采用部分预应力设计的可行性及合理性,制作了斜拉桥缩尺节段模型,并对主梁采用部分预应力设计,开展4轮共4×250万次主梁具有不同初始损伤及带裂缝工作状态下的疲劳试验;疲劳试验结束后,以4种不同主梁裂缝宽度(0.1mm、0.2mm、0.3mm和0.5mm)为控制工序,反复加载一定倍数的等效活载至主梁裂缝宽度逐步达到0.5mm,以全面研究PPC斜拉桥主梁多状态疲劳后的受力性能。试验结果表明:在等效设计疲劳荷载作用下,主梁无初始损伤时,体系刚度基本无退化,主梁最大裂缝宽度预损伤分别为0.1mm、0.2mm时,跨中截面体系刚度下降量仅为3.35%、4.44%,且未发现裂缝张开;主梁带裂缝工作状态下,跨中截面体系刚度平缓下降7.46%,上峰值静载下,裂缝数量及高度略有增加,但卸载后裂缝均闭合,说明PPC斜拉桥具有良好的抗疲劳性能;疲劳后主梁大损伤静载试验中,主梁裂缝平稳发展,各工序反复加载过程中,主梁挠度、裂缝状态及斜拉索索力均具有较好的恢复能力,当主梁最大裂缝宽度为0.5mm时,荷载达到了7.49倍活载,斜拉桥体系仍然具有较大的剩余承载力。该文试验研究结果表明混凝土斜拉桥主梁采用部分预应力设计具有工程应用的可行性。 展开更多
关键词 混凝土斜拉桥 部分预应力 疲劳性能 静力性能 模型试验
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大跨度钢结构预应力拉索动态监测方法及应用
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作者 侯锐 陈静 +2 位作者 林昌健 沈艳忱 郭尧 《建筑技术》 2024年第18期2183-2185,共3页
以河湖治理研究基地项目太湖试验厅工程大跨度空间预应力拉索钢结构为例,采用磁通量索力测试方法对结构索体索力进行了测量及动态监测,指导现场预应力张拉施工,并与预应力拉索有限元模拟索力进行对比分析,复核有限元模拟和实测索力偏差... 以河湖治理研究基地项目太湖试验厅工程大跨度空间预应力拉索钢结构为例,采用磁通量索力测试方法对结构索体索力进行了测量及动态监测,指导现场预应力张拉施工,并与预应力拉索有限元模拟索力进行对比分析,复核有限元模拟和实测索力偏差是否在可控范围内,对索力进行安全复核和预应力损失复核。该方法可适用于各种大跨度结构的索力监测。 展开更多
关键词 大跨度钢结构 预应力拉索 动态监测
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兰州奥体综合馆弦支穹顶结构模型预应力张拉试验研究及模拟分析
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作者 薛素铎 王芷薇 +4 位作者 李雄彦 刘人杰 卢珍 景辉 樊钦鑫 《建筑结构》 北大核心 2024年第21期84-90,100,共8页
为了研究弦支穹顶结构预应力的分布特性,基于兰州奥体综合馆弦支穹顶屋盖按照1∶20制作了缩尺模型,对该模型分3级进行预应力施工张拉试验,测试了2种不同张拉顺序下模型的杆件内力及节点竖向位移变化规律,并将试验结果和MIDAS Gen数值模... 为了研究弦支穹顶结构预应力的分布特性,基于兰州奥体综合馆弦支穹顶屋盖按照1∶20制作了缩尺模型,对该模型分3级进行预应力施工张拉试验,测试了2种不同张拉顺序下模型的杆件内力及节点竖向位移变化规律,并将试验结果和MIDAS Gen数值模拟结果进行了对比分析。研究表明:对于肋环型小矢跨比弦支穹顶结构,在张拉时环索相互影响较大,张拉初期环索内力变化更明显;张拉过程中预应力的施加对环杆的影响大于对径杆的影响,最外圈环杆在张拉过程中承力占比最大,节点竖向位移在第4圈达到最大;不同张拉顺序会改变外圈杆件内力及节点位移变化趋势,从外到内分级循环张拉下部索对结构更有利。 展开更多
关键词 弦支穹顶结构 预应力张拉 分级张拉 张拉顺序
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斜拉桥非对称V形钢塔-混凝土基座结合部构造设计优化
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作者 周朝阳 肖逸鹏 +1 位作者 何畅 王兴国 《河南理工大学学报(自然科学版)》 CAS 北大核心 2024年第4期177-185,共9页
某空间异型斜拉桥主塔钢柱与斜撑在底部形成非对称V形结构,钢构件轴线严重偏离下部混凝土基座顶面垂线,给结合部构造设计带来困难。目的 为了确定所采用构造方案中的众多参数,缓解塔柱到基座的刚度陡变,降低结合部各部件的应力最大值,方... 某空间异型斜拉桥主塔钢柱与斜撑在底部形成非对称V形结构,钢构件轴线严重偏离下部混凝土基座顶面垂线,给结合部构造设计带来困难。目的 为了确定所采用构造方案中的众多参数,缓解塔柱到基座的刚度陡变,降低结合部各部件的应力最大值,方法 基于精细化非线性有限元模拟,通过改变参数取值,对多种典型工况下各部件的应力进行分析、对比、验算,对于锚杆设置这一参数的影响,还研究了承压板与混凝土基座之间的界面应力。结果 研究结果表明:张拉1~4号索的施工极端工况和平面内外弯矩绝对值相加最大的使用工况最为关键,基座混凝土主拉应力常起控制作用,塔根应力比较接近规范限值;加厚承压板、适当提高混凝土强度有利于控制锚箱钢板和基座混凝土应力;原方案锚箱中部纵横向钢板作用很小;锚杆布置位置合理远比数量重要,弯矩作用下受拉侧施加预应力能够起到有益作用。结论 最终优化方案大量减少了锚箱钢板块数和锚杆根数,预应力分布也更合理。研究结果兼顾安全、适用和经济,对相关工程具有借鉴意义。 展开更多
关键词 斜拉桥 钢塔-混凝土 预应力 有限元模拟
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预应力CFRP布加固混凝土梁受弯试验
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作者 于玲 王泽鹏 +2 位作者 任成明 包龙生 王宇 《沈阳建筑大学学报(自然科学版)》 CAS 北大核心 2024年第2期241-249,共9页
目的 研究不同加固方法下预应力碳纤维布加固混凝土梁的受弯性能,解决桥梁加固缺陷的问题。方法 制作了5根试验梁,其中一根为对比梁,不做任何加固处理,其余4根分别采用不同的锚固方式、不同的初始张拉力及不同的加固位置进行加固,通过... 目的 研究不同加固方法下预应力碳纤维布加固混凝土梁的受弯性能,解决桥梁加固缺陷的问题。方法 制作了5根试验梁,其中一根为对比梁,不做任何加固处理,其余4根分别采用不同的锚固方式、不同的初始张拉力及不同的加固位置进行加固,通过控制变量,进行加载试验,分析其受弯性能的差异。结果 经加固后的试验梁承载能力与刚度明显增加,与对比梁相比,极限荷载分别提升了25%、22.06%、30.78%及36.76%;各试验梁达到屈服荷载时,经加固的试验梁挠度均小于对比梁产生的挠度,且模腔自锁式锚具锚固的试验梁挠度小于穿孔式自锁锚具锚固的试验梁挠度,相同锚固方法下初始张拉力较大的试验梁挠度要小于初始张拉力较小的试验梁挠度。结论 使用预应力碳纤维布加固混凝土梁能够有效提高混凝土梁的抗弯性能,提升效果与加固位置、锚固方式及初始张拉力大小有关。 展开更多
关键词 预应力碳纤维布 桥梁加固 受弯试验 缠绕自锁式锚具
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