Cable-truss supporting system for gob-side entry driving in deep mine and its application

In order to solve the large deformation controlling problem for surrounding rock of gob-side entry driving under common cable anchor support in deep mine, site survey, physical modeling experiment, numerical simulation and field measurement were synthetically used to analyze the deformation and failure characteristics of surrounding rock. Besides, applicability analysis, prestress field distribution characteristics of surrounding rock and the control effect on large deformation of surrounding rock were also further studied for the gob-side entry driving in deep mine using the cable-truss supporting system. The results show that, first, compared with no support and traditional bolt anchor support, roof cable-truss system can effectively restrain the initiation and propagation of tensile cracks in the roof surrounding rock and arc shear cracks in the two sides, moreover, the broken development of surrounding rock, roof separation and extrusion deformation between the two sides of the roadway are all controlled; second, a prestressed belt of trapezoidal shape is generated in the surrounding rock by the cable-truss supporting system, and the prestress field range is wide. Especially, the prestress concentration belt in the shallow surrounding rock can greatly improve the anchoring strength and deformation resisting capability of the rock stratum;third, an optimized support system of ‘‘roof and side anchor net beam, roof cable-truss supporting system and anchor cable of the narrow coal pillar" was put forward, and the support optimization design and field industrial test were conducted for the gob-side entry driving of the working face 5302 in Tangkou Mine, from which a good supporting effect was obtained.

Simplified design method and seismic performance of space trusses with consideration of the influence of the stiffness of their lower supporting columns

Static and dynamic force performance of two types of space truss structures i.e. square pyramid space truss（SPST） and diagonal on square pyramid space truss（DSPST）, are studied to determine the effect of stiffness of their lower supporting members. A simplified model for the supporting columns and the equivalent spring mass system are presented. Furthermore, the feasibility of the simplified model is demonstrated through theoretical analysis and examples of comparative analysis of the simplified model with the entire model. Meanwhile, from the elastic analysis under frequently occurring earthquakes and elasto-plastic analysis under seldom occurring earthquakes subjected to TAFT and EL-Centro seismic oscillation it is shown that the simplified method can be encompassed in the results from the normal model. It also showed good agreement between the two methods, as well as greatly improved the computational efficiency. This study verified that the dynamic effect of the supporting structures was under considered in space truss design in the past. The method proposed in the paper has important significance for other space truss structures.

四塔支承超大直径圆环复杂结构设计

上海临港新片区新建一幢地标建筑,该建筑为四幢46.8 m高的塔楼支承一个直径150 m、高度8.6 m的超大直径圆环,结构复杂。结构主要特点是超大直径圆环内侧采用倒三角形空间桁架、楼面梁采用变截面悬挑钢梁,四幢塔楼采用钢框架-屈曲约束支撑-屈曲约束钢板墙结构体系,超大直径圆环和四幢支承塔楼之间采用一个对角铰接、另一个对角滑动支座加黏滞阻尼器的连接方式。由于建筑师的要求,超大直径圆环横截面为外侧开口的C形截面,如何克服圆环外侧开口带来的扭转作用是设计难点。主要进行了支承塔楼的结构设计和计算分析,超大直径圆环的结构选型和抗扭性能研究,圆环和支承塔楼连接设计,支承塔楼和圆环组成的整体结构计算分析,整体结构大震下弹塑性时程分析。设计和研究成果可为圆环结构、多个塔楼共同支承一个上部结构等类似工程设计提供借鉴。

西安国际文化传播中心大跨斜幕墙支承结构设计

西安国际文化传播中心大跨斜幕墙支承采用竖向张弦桁架结构体系,结构造型独特新颖。对其结构选型和受力特点进行了重点介绍。采用MIDAS Gen软件建立有限元模型,进行非线性静力及抗震分析计算,同时采用ANSYS软件对考虑几何与材料双重非线性的结构整体稳定性进行了详细分析,探讨了安全系数取值等。分析结果及实际使用效果表明,幕墙支承满足正常使用的各项要求,并具有良好的抗震性能。

高贝利特硫铝酸盐水泥在免拆钢筋桁架楼承板中的应用

装配式叠合楼板是由预制混凝土底板和现浇钢筋混凝土层叠合而成的装配整体式楼板。对比分析了装配式叠合楼板、钢质楼承板、纤维水泥板楼承板、细石混凝土免拆钢筋桁架楼承板的生产工艺与性能特点。重点分析了采用高贝利特硫铝酸盐水泥制作的细石混凝土免拆钢筋桁架楼承板的工艺特点及性能。高贝利特硫铝酸盐水泥细石混凝土底板吊装速度快、脱模时间短、低温免蒸养、免拆模;底板密度较小、收缩变形量小、抗压强度高、吸水率小、跨度大。

浅圆仓超高仓顶结构支模体系施工技术

杭州市仁和粮食储备库建设工程浅圆仓仓壁采用滑模施工,仓顶结构部分属于大跨度超高支模。通过设计复核计算,采用贝雷梁钢桁架平台支撑体系和滑模整体拖带锥壳伞状钢网架平台支撑体系作为上部仓顶结构支模架支撑操作平台,大大降低了施工高度及施工难度,保证了施工安全,提高了施工效率,取得良好的经济和社会效益。

济南某复杂综合体结构设计难点研究

济南某复杂综合体项目由两座约90m高塔楼+大底盘商业裙房+低区U形幕墙+高区拱形连桥组成,高区连体建筑采用铅芯橡胶隔震支座与塔楼相连,低区采用两端固定铰支座与塔楼相连,为大底盘多塔复杂连体结构。塔楼采用钢筋混凝土框架-核心筒结构体系,高区拱形连桥采用钢结构空腹桁架结构体系,低区U形幕墙采用劲性索体系。针对工程特点,着重阐述了大底盘裙房不分缝可行性及低、高区弱连体的合理支座形式,提出了采用两端固定铰U形劲性索的弱连体新形式。结果表明:低区U形幕墙采用两端固定铰连接形式,高区连桥采用铅芯橡胶隔震支座连接形式均能较好地实现弱连接,保证塔楼和连桥的抗震性能。

旧古建筑墙型钢组合单面支模施工技术的研究与应用

研究主要介绍古旧建筑墙新做现浇混凝土结构加固单面支模的相关施工技术,通过工程实例的应用提出了一种创新的型钢组合单面支模施工技术,成功解决了工程中的保留古旧砖墙新增现浇结构加固单面支模的施工技术难题,最大程度地保留墙体原始建筑风貌及特点,符合工程形象提升要求。

张靖皋长江大桥南航道桥主墩围堰施工关键技术

张靖皋长江大桥南航道桥主跨采用2300 m整体钢箱梁悬索桥,是世界最大跨径悬索桥。南塔采用世界首创超高钢箱-钢管约束混凝土组合索塔,基础承台采用八边形结构,结合桥位水文地质及设计要求,承台外围设锁扣钢管桩围堰作为施工围护结构,后期兼作大桥永久冲刷防护和船撞消能设施。施工过程中,采用履带吊+振动锤/冲击锤配合特制导向架隔孔施打的施工工艺,有效解决了超长锁扣钢管桩的施沉及合龙精度的难题;利用对撑加工成桁架整体安装、基底开挖及护筒围堰壁清理、分仓浇筑水下封底混凝土、导管底口铺设钢板等工艺,极大地降低了现场施工难度,保证了超大基坑水下封底混凝土的浇筑质量,为今后同类型深基坑施工提供了有益的借鉴。

钢箱梁桁架式纵隔板疲劳开裂弹性阻尼支撑处治技术

针对钢箱梁桁架式纵隔板中出现的早发性、多发性、再发性疲劳开裂病害,分析桁架式纵隔板病害原因,基于能量法,提出将端部刚接斜腹杆变为端部铰接的弹性阻尼支撑处治技术。研制弹性阻尼支撑装置(Elastic-Damping Support Device,EDSD),将斜腹杆局部切除并安装EDSD,通过EDSD中设置的弹性阻尼单元耗散外部荷载输入结构的大部分能量,保障结构在长期车辆荷载等作用下的安全性和正常使用性能。结合某斜拉桥钢箱梁桁架式纵隔板疲劳开裂处治需求,开展了该处治技术实桥应用,并对其进行有限元分析及实桥监测。结果表明:钢箱梁内斜腹杆局部改造安装EDSD后可大幅降低斜腹杆应力水平,有效降低斜腹杆疲劳易损部位开裂风险,增加疲劳寿命;安装EDSD的斜腹杆上的既有裂缝均无扩展。

甘露山文创城冰雪综合体高区钢结构工程施工方案比选

分析甘露山文创城冰雪综合体高区钢结构工程不同施工方案,从安全性、经济性、工期保障及质量管控等方面进行综合对比,最终选择分区低位拼装+分级整体提升方案。该方案有效降低了吊装作业高度,规避了转换层斜面设置高支撑的措施,减少了支撑用量,降低了安全风险并减少了措施费投入。同时,低位拼装有利于安装精度和焊缝质量的控制。实践表明,该方案实施顺畅,效果良好。

某演艺中心船体异形钢结构施工技术

某演艺中心异形钢结构体系复杂。若采用传统施工技术路线,能最大程度地满足原结构设计意图,但施工进度、质量均难以保障。因此,采用甲板钢结构及内部框架筒先行施工,船体网壳后施工的施工方案。施工过程中,局部临时支撑位于结构内部,设置简单,且不占用外部施工场地和运输道路。实践表明,采用优化方案节约了施工成本,加快了施工进度。

大跨度拱撑与吊挂桁架逆作施工技术

为降低结构施工难度并增大使用层空间,某市公共学习中心钢结构工程项目采用上挂下撑且从上到下附加临时支撑的施工方法。结果表明:拱形结构采用无支撑安装可有效缩短安装时间,结构整体稳定,施工简单;上挂下撑结构从下部施工时,底部采用临时支撑柱可满足受力与安全要求,卸载临时支撑柱后整体结构仍保持稳定,施工方法可行。

大直径筒仓仓顶结构施工对比分析

近年来,我国粮食生产连年丰收,粮食安全总体有保障,因此各地粮仓加速建设,以满足粮食储备要求。大直径浅圆仓锥形仓顶模板支撑因其大跨度、超高等施工难度大、危险系数高、难以一次性浇筑实现等诸多问题存在使用局限。以某粮食仓储项目为背景,细致分析大直径筒仓仓顶结构施工的两种空中支撑平台,为今后类似工程项目施工提供参考。

Discussion on Construction Technology of Subway Tunnel Expansion under Bridge Foundation

As the urban populations grow,the number and size of subway construction projects are increasing while also meeting higher construction standards.So,subway construction projects must have a better understanding of construction technology.This article focuses on the construction technology of the subway tunnel expansion under the bridge foundation.By analyzing the engineering characteristics of the bridge foundation and using a project as an example,this article provides a detailed discussion of the construction process of tunnel expansion under a bridge foundation.This article aims to serve as a reference for subway tunnel construction in China to ensure the key points of construction technology are understood,thus improving construction quality and laying a solid technical foundation for the sustainable development of urban rail engineering.

某乐园建筑大跨度三角桁架结构设计

研究论述了某乐园建筑的大跨度屋面钢结构在设计中遇到的难点及解决办法,对此屋面钢结构,根据建筑要求选取合适的结构形式;分析不同支座优缺点以及选用合适的支座类型,进行拉索单元分析、施工阶段分析等。选取了一个复杂的支座节点进行有限元分析,并且对如何设置节点板提出合理建议。

大跨度台塔式钢桁架施工技术研究

随着我国钢结构建筑对造型与空间需求的提升,给大跨度异形悬挑式钢结构的施工技术带来挑战。以上海某歌剧院项目的大跨度台塔式钢桁结构为例,通过介绍其四面内倾、双面悬挑的钢结构施工技术,分析了大跨度台塔式钢结构在施工时的整体施工部署、临时胎架设置、变形控制、卸载工艺控制等技术要点,最终成功实现了大跨度台塔式钢桁架的高精度安装。该台塔式桁架施工关键技术解决了高大跨度、超长悬挑的施工难题,大大提高了施工的效率、节约了工程成本,具有一定的参考价值。

自平衡支撑桁架预制装配式叠合板施工技术研究

叠合板竖向支撑体系通常采用扣件式排架满堂搭设,其占用了较多的空间,且由于数量众多,脚手架安拆较为烦琐,故其会影响施工进度;较多的脚手架也增加了周转费用,同时,在搬运过程也增加了一定危险性,因此研究提出自平衡支撑桁架预制装配式叠合板施工技术。在预制装配式叠合板底部沿跨度方向安装自平衡支撑桁架,自平衡支撑桁架将斜拉力转化为对叠合板的支撑力,其结构稳定、支撑效果好,仅需在叠合板底部较小空间进行安装,为叠合板下方施工提供了更多施工空间,故可在同类工程中推广应用。