高强钢组合偏心支撑框架抗震性能研究          下载免费PDF全文

郭艳  苏明周  胡长明 《地震工程学报》2016,38(2):176-184

高强钢组合K型偏心支撑框架耗能梁段和支撑采用Q345钢,其余构件采用Q460钢,不仅能有效减小构件截面、节约钢材、降低造价,而且有助于推广高强钢的应用。为了比较高强钢组合K型偏心支撑框架与Q345钢K型偏心支撑框架的抗震性能,在试验研究的基础上,设计两组共8个不同层数的高强钢组合K型偏心支撑框架与Q345钢K型偏心支撑框架,并分别对其进行非线性静力推覆分析和动力时程分析,对比分析两种结构形式的承载力、刚度、延性以及地震作用下层间变形能力和耗能梁段。结果表明:在满足抗震性能要求的前提下,相同设计条件下高强钢组合K型偏心支撑框架变形略差于Q345钢K型偏心支撑框架,但是其构件截面较小,可以节省钢材,降低工程造价,具有较高的经济效益。  相似文献   

富水破碎岩体注浆加固材料试验研究与应用     

李召峰  李术才  刘人太  蒋宇静  张庆松  杨磊  沙飞  陈泊涵  王宏亮 《岩土力学》2016,37(7):1937-1946

针对富水破碎地层注浆治理过程中传统水泥类材料难以实现注浆加固和堵水同步进行的难题,以硫铝酸盐水泥熟料和钢渣微粉为主要原材,成功制备了一种水泥基复合注浆材料（CGM）。通过与传统水泥材料进行性能对比试验,采用扫描电镜和X射线测试手段,分析了CGM材料制备工艺、组分含量和浆液制备条件对材料性能的作用规律,并检验了CGM材料的工程适用性。结果表明：CGM材料宜采用混合粉磨制备工艺,可显著提高其水化活性,且粉磨时间应不超过45 min。钢渣微粉含量越高,水灰比越大,结石体强度越低,凝结时间越长,水灰比超过1.2:1时,结石体后期会出现干缩。与传统水泥材料相比,CGM材料浆液凝结时间与黏度的环境敏感度低,具有显著的工程适用性和性能优越性。  相似文献   

矿用高强度钻杆关键制造工艺技术分析   总被引：1，自引：0，他引：1       下载免费PDF全文

田东庄 《探矿工程》2009,36(7):43-45

在瓦斯抽采钻孔施工过程中,钻杆承受复杂交变应力的作用,往往从焊缝区断裂,选用合理的摩擦焊接工艺和热处理工艺生产钻杆,增强钻杆焊缝区的机械性能,是延长钻杆服役时间的有效技术途径。  相似文献   

小口径钢管桩与固结灌浆技术联合应用于岩溶地基处理          下载免费PDF全文

曾宪斌  林思波  黄鹏 《探矿工程》2009,36(7):60-62

以工程实践为例,简述复杂岩溶地基处理中小口径钢管桩与固结灌浆技术联合应用的设计、施工工艺及应用效果。  相似文献   

钻杆接头材料35CrMo硫氮复合处理层的干摩擦学性能研究          下载免费PDF全文

车延岗  刘沅东  袁静静  孙雪洁 《探矿工程》2009,36(11):24-27

应用离子渗氮与离子渗硫技术,在钻杆接头材料35CrMo钢表面制备了硫氮复合处理层。采用M-200环块磨损试验机,对比研究了原始渗氮表面与硫氮复合表面在干摩擦条件下的抗磨损性能。结果表明,在干摩擦的条件下,由于摩擦副的接触表面缺乏润滑,硬度较高的渗氮层会加剧接触表面的磨损。而硫氮复合处理层由于在表面存在一层硫化亚铁固体润滑层,在磨损过程中可以起到一定的润滑作用,因此其在干摩擦条件下具备更好的抗磨损性能。  相似文献   

钢管混凝土拱桥海上应用实例     

石彩亭 《中国勘察设计》2009,(9):38-40

近年来钢管混凝土拱桥建设在全国迅速发展,型式多样、各有千秋。本文就大跨度全钢系杆拱在大连新港50万吨级进口原油码头引桥上的成功应用做以下介绍。  相似文献   

钢管桩土钉墙复合支护体系在某基坑工程中的应用     

刘玉华  王立俊  李明胜 《城市地质》2009,4(4):25-27

通过基坑采用的钢管桩＋土钉墙复合支护体系施工应用,介绍其设计思路、计算过程、验算及最终效果,论述了该支护体系在类似施工条件下,具有较大的技术及经济优势。  相似文献   

Seismic analysis of diagrid structural frames with shear-link fuse devices     

Nasim S. Moghaddasi B.  Yunfeng Zhang 《地震工程与工程振动(英文版)》2013,12(3):463-472

This paper presents a new concept for enhancing the seismic ductility and damping capacity of diagrid structural frames by using shear-link fuse devices and its seismic performance is assessed through nonlinear static and dynamic analysis.The architectural elegancy of the diagrid structure attributed to its triangular leaning member configuration and high structural redundancy make this system a desirable choice for tall building design.However,forming a stable energy dissipation mechanism in diagrid framing remains to be investigated to expand its use in regions with high seismicity.To address this issue,a diagrid framing design is proposed here which provides a competitive design option in highly seismic regions through its increased ductility and improved energy dissipation capacity provided by replaceable shear links interconnecting the diagonal members at their ends.The structural characteristics and seismic behavior(capacity,stiffness,energy dissipation,ductility) of the diagrid structural frame are demonstrated with a 21-story building diagrid frame subjected to nonlinear static and dynamic analysis.The findings from the nonlinear time history analysis verify that satisfactory seismic performance can be achieved by the proposed diagrid frame subjected to design basis earthquakes in California.In particular,one appealing feature of the proposed diagrid building is its reduced residual displacement after strong earthquakes.  相似文献   

Preliminary investigation of seismic damage to two steel space structures during the 2013 Lushan earthquake   总被引：2，自引：2，他引：0  

Dai Junwu  Qu Zhe  Zhang Chenxiao  Weng Xuran 《地震工程与工程振动(英文版)》2013,12(3):497-500

Severe damage to steel space structures is rarely reported when compared to other structural systems damaged during past major earthquakes around the world.Two gymnasiums of steel space structures in downtown Lushan County that were damaged during the 2013 M7.0 Lushan earthquake in China were investigated and the observations are summarized in this paper.Typical damage to these two steel space structures ranges from moderate to severe.Moderate damage includes global buckling and dislocation of bolted connections of truss members,and inelastic elongation of anchor bolts and sliding of pedestal plates of supports.Severe damage includes member fracture caused by local buckling,and fracture failure of anchor bolts and welds.The distribution of structural damage to these two structures is described in detail and future research opportunities are suggested.  相似文献   

Impact of lateral force-resisting system and design/construction practices on seismic performance and cost of tall buildings in Dubai, UAE     

Mohammad AlHamaydeh  Khaled Galal  Sherif Yehia 《地震工程与工程振动(英文版)》2013,12(3):385-397

The local design and construction practices in the United Arab Emirates(UAE),together with Dubai’s unique rate of development,warrant special attention to the selection of Lateral Force-Resisting Systems(LFRS).This research proposes four different feasible solutions for the selection of the LFRS for tall buildings and quantifies the impact of these selections on seismic performance and cost.The systems considered are: Steel Special Moment-Resisting Frame(SMRF),Concrete SMRF,Steel Dual System(SMRF with Special Steel Plates Shear Wall,SPSW),and Concrete Dual System(SMRF with Special Concrete Shear Wall,SCSW).The LFRS selection is driven by seismic setup as well as the adopted design and construction practices in Dubai.It is found that the concrete design alternatives are consistently less expensive than their steel counterparts.The steel dual system is expected to have the least damage based on its relatively lesser interstory drifts.However,this preferred performance comes at a higher initial construction cost.Conversely,the steel SMRF system is expected to have the most damage and associated repair cost due to its excessive flexibility.The two concrete alternatives are expected to have relatively moderate damage and repair costs in addition to their lesser initial construction cost.  相似文献