Research on the Anticorrosion Coating Under the Paved Layer for Highway Steel Box Bridge Deck

The corrosion of the anticorrosion coating and the defects of the asphalt concrete paved layer have been investigated on long-span steel box bridge decks. The anticorrosion coating lies in the midclle of two entirely different materials： a highway steel box bridge deck and a paved layer, which is used as anticorrosion and waterproof coating for the steel bridge deck. For our study, electrochemical corrosion and pull strength experiments have been selected for the investigation of the corrosion properties of inorganic zinc rich coating, epoxy zinc rich coating and arc sprayed zinc coating. The adhesive strength between the coatings and the panel, and the effect of the coating corrosion on the shear properties of the paved layers including cast asphalt, thermal asphalt mortar, epoxy asphalt and modified asphalt con- crete have been investigated. The results show that the adhesive strength between the coatings and the bridge panel is controlled by the method of pre-processing rust removal. Coating by sandblasting has stronger adhesive strength than coating by shot peening. The results also reveal that shear strength of the paved layer is affected by the corrosion product of zinc coating. The arc sprayed zinc coating has stronger shear strength than zinc rich coatings.

SFCC现场导热系数与温度场实测及预测方法研究

为确定钢纤维页岩陶粒混凝土(SFCC)现场实际的导热系数,与桥面板施工同步制作了不同钢纤维体积分数的SFCC试件,采用热板法进行测定,校核并扩展了导热系数预测公式,并且对高温沥青摊铺时SFCC桥面板的温度场进行了实测和数值模拟.结果表明:环境湿度为67%时,SFCC的实测导热系数为0.915~1.409 W/(m·K),增加钢纤维体积分数可提高SFCC导热系数;考虑湿度和钢纤维影响后的扩展Maxwell公式预测值与实测值吻合良好;高温沥青摊铺时桥面板SFCC混凝土内的温度梯度可达20.5℃,超过规范日温差,采用数值模拟可有效计算桥面板温度场.

支撑剂回流对页岩人工裂缝导流能力影响试验

支撑剂回流对页岩人工裂缝导流能力的伤害不容忽视,须对实际应力加载条件下支撑剂回流进行定量表征。利用自主研发的导流能力测试系统,通过添加支撑剂回流腔体模块,实现压裂液返排过程中支撑剂回流的定量表征,在实验室尺度下开展不同应力加载方式(变围压测试和变流压测试)下的页岩人工裂缝长期导流能力对比试验。结果表明:不同应力加载方式对支撑剂破碎量和嵌入量的影响相似,但变围压测试下支撑剂回流量随围压变化维持在约4.46%,与现场支撑剂回流数据不符;变流压测试下支撑剂回流量在流压20 MPa时的支撑剂回流量为20.53%,且随着流压的降低,回流量下降,与现场支撑剂的回流变量变化规律一致;忽略支撑剂的回流会导致对裂缝导流能力伤害率的计算值偏低,不利于制定施工方案;页岩人工裂缝导流能力的准确测试,应采用与实际应力加载更符合的变流压测试方法,以便更好地体现支撑剂回流对导流能力的影响。

设施需求视角下城市盲道系统构建途径研究——以视障人群为例

随着《中华人民共和国无障碍环境建设法》的颁布,开展无障碍设计精细化研究成为提高城市无障碍环境品质的重要发力点。研究突破无障碍设计作为辅助设计的传统思路,以公共服务设施与城市盲道为对象,从视障人群的活动规律及设施需求特征出发,探索城市盲道系统的构建途径与设计方法。通过随机森林模型、引力模型,开展了视障人群设施需求分析及活动区域预测,从设施构成、活动类型、盲道布局三方面对天津市中心城区的盲道系统进行识别与评估,结合居住地与高相关性设施的引力路径,提出盲道优化布局方案及构建策略,旨在引导城市无障碍设施格局优化,为城市开展空间层面无障碍规划设计提供理论参考与技术支撑。

基于无剪力钉体系的RBPC钢桥面铺装技术及其应用

为探索长大桥钢桥面全寿命周期养护新技术,解决现有钢桥面铺装及正交异性板疲劳损伤的难题,开展树脂连接型超高性能混凝土RBPC铺装技术研发工作。研究结果表明:相比同条件环氧类EA铺装结构,RBPC铺装下钢板应力减少约40%,提升钢桥面结构刚度50%以上,验证此铺装结构对正交异性板具有一定刚度提升和补强效果;使用缓粘接湿粘接剂代替栓钉粘接防水抗滑层(RBChip)的新工艺,接触方式由“点”改“面”,便于后期维修养护,且全国首次在长江公路大桥铺装重置工程中成功应用。

电解锰渣-赤泥-粉煤灰路面砖的力学性能及浸出毒性研究

针对大宗工业固废回收利用难的问题,实现多种固废减量化、无害化、资源化的目标,通过利用取自中国西南地区企业的石膏类、碱性及硅铝质三类典型大宗固废中的电解锰渣、赤泥、粉煤灰协同处理的无害化渣制备环保型透水混凝土路面砖(permeable concrete paving bricks,PCB),研究了水洗、掺渣量对所制备PCB的力学性能与浸出毒性的影响,并通过X射线衍射(XRD)和扫描电子显微镜(SEM)对最佳性能PCB的物相组成与微观形貌结构进行分析.结果表明:①随着无害化渣与水洗无害化渣掺入量的提升,路面砖的劈裂抗拉强度、线性破坏荷载发生明显变化,总体呈下降趋势.当无害化渣掺入量为6%、水洗无害化渣掺入量为14%时,经28 d养护,所制备砖体的劈裂抗拉强度分别为4.09和3.46 MPa,达到了《透水路面砖和透水路面板》(GB/T 25993-2010)中规定的f_(ts)4.0与f_(ts)3.0等级.②路面砖的重金属与NH_(4)^(+)-N的浸出毒性均低于《水泥窑协同处置固体废物技术规范》(GB 30760-2014)的要求.路面砖的主要物相中方解石、石英与钙矾石是主要支撑性物质.研究显示,电解锰渣、赤泥、粉煤灰协同处理的无害化渣可替代部分原材料制备透水混凝土路面砖,满足力学性能与浸出毒性相关标准,能有效促进固体废弃物的减量化与资源化,建议进一步开展砖体在实际应用场景中的环境风险试验,以期为电解锰渣、赤泥、粉煤灰的综合利用技术发展提供更明确的支撑.

高墩钢混组合梁桥铺装混凝土吊挂现浇施工技术分析

钢混组合梁的作用是通过钢梁与混凝土桥面板共同受力来抵抗梁体下挠,其具有截面尺寸小、自重轻、跨度大、承载力强、钢材和混凝土用量少、施工周期短等优势。以尖山沟特大桥引桥为研究对象,为克服高山峡谷环境下施工作业空间受限、支架搭设难度大、施工安全风险高等传统支架法施工的不利因素,深入分析钢混组合梁受力特性,创新采用吊挂法现浇铺装混凝土,以供类似工程借鉴。

基于行车舒适度的大跨连续刚构桥桥面线形调整研究

基于MATLAB/Simulink环境建立车辆-路面系统模型,以车辆座椅竖向加权加速度均方根作为行车舒适度评价指标,分析边跨3L/8、中跨跨中位置预抛高及边墩墩顶混凝土铺装层厚度与车辆座椅竖向加权加速度均方根之间的关系。根据分析结果,提出通过调整边跨3L/8、中跨跨中位置预抛高及边墩墩顶混凝土铺装层(调平层)厚度改善桥面线形平顺性的措施,提高行车舒适度。在桥面铺装阶段,应根据原有预设成桥线形进行铺装线形拟合,同时兼顾行车舒适度。

3D摊铺技术在沥青路面施工中的应用研究

为解决传统沥青面层摊铺过程中摊铺平整度、厚度及坡度不满足技术要求等问题,通过引入3D摊铺智能控制技术,不仅使沥青面层摊铺后的平整度、厚度及坡度得到了精准控制,同时也节约了施工成本。结合工程实例,简要介绍了3D摊铺技术原理,通过分析工程检测数据,结果表明:与传统路面摊铺技术相比,3D摊铺智能控制技术的运用使沥青路面平整度合格率达到90%以上、压实面横坡度波动范围较小、路面厚度偏差处于8%设计厚度之内,解决了传统施工摊铺过程中高程控制精度不良及面层平整度提升效果不明显问题,可在后续高等级沥青路面摊铺施工中继续推广。

3D摊铺系统在路面高程与横坡控制中的应用

为解决传统2D摊铺技术缺陷的问题,山西省静兴高速公路项目采用新型工艺激光测量高精度控制系统进行路面摊铺,研究表明,激光测量高精度控制系统毫米级的流动站可便捷地实现整个摊铺作业的全过程控制,可预先对道路设计的数字化模型进行检查,实现摊铺过程实时检测和摊铺后的复检验收,从而达到施工全过程质量控制、实时掌控摊铺工作质量的目的。

浇筑式沥青混凝土在某地区钢桥面铺装中的应用研究

依托三元立交跨京顺路桥桥面铺装专项维修工程项目,针对原桥环氧沥青混合料铺装防水层和粘结层失效,铺装层开裂、推移、拥包、剥离等病害原因进行分析,研究提出适用于北京市钢桥面铺装的浇筑式沥青混合料。铺装试验结果表明,浇筑式沥青混合料铺装能够解决原钢桥面铺装存在的问题,同时可适应北京市城市桥梁养护的实际需求,对后续北京市钢桥面铺装设计、施工等具有一定的借鉴意义。

混凝土公路路面施工质量问题及施工策略研究

对混凝土公路路面施工中的技术性要点与质量控制要点进行探究。阐述混凝土公路路面的施工策略,并介绍施工前期准备工作,对混凝土公路路面质量问题及其施工策略进行分析,重点对前期工作和原材料质量把控两方面的公路路面施工质量把控要点进行探讨。

Use of bio-based products towards more sustainable road paving binders: A state-of-the-art review

Many industrial sectors exploit fossil sources to develop useful and necessary materials for our needs,such as bituminous paving materials.Bitumen,a key component of asphalt mixtures,is derived from oil refining and its properties are influenced by the crude oil source and refining process,resulting in a significant carbon footprint.With growing awareness of resource depletion and environmental concerns,pavement researchers are exploring sustainable alternatives to reduce dependence on fossil sources.This includes a rising trend in using renewable materials like biomasses to produce bio-based binders as substitutes for bitumen,aiming for a more sustainable approach.Biomasses,including vegetal and animal wastes,and waste cooking oils,as substitutes for crude oil in the production of bio-binders.Through thermochemical conversion(TCC),such as pyrolysis,biomasses can be converted into bio-char and bio-oils,which can replace fossil-based components in binders.Researchers have utilized these bio-products to reduce the dependency on fossil fuels in binders.However,there are no set minimum requirements for bio-components in bio-based binders.As the percentage of replaced bitumen increases,various types of binders are produced,including modified bitumen,extended bitumen,and alternative binders,where the fossil replacement is gradual.Overall rheological tests on bio-binders,reveal that those containing biochar exhibit increased viscosity,stiffness,rutting resistance,and sometimes antioxidant properties.Conversely,bio-binders with bio-oils as bitumen substitutes show poorer performance at high temperatures but improved behavior at low temperatures.These results suggest that bio-binders could provide versatile solutions for various climatic and loading conditions in road construction.However,the development of pavement mixtures based on bio-binders has not been studied in depth and requires further attention to unlock its full potential.As sustainability considerations,including life cycle assessments(LCA)and life cycle cost analyses(LCC),are crucial aspects for future studies.It is essential not only to collect data on the performance characteristics of bio-binders but also to understand their environmental impact and recyclability.In-depth evaluations using methods such as LCA and LCC will provide valuable insights into the overall sustainability and long-term viability of these products.

Progression of e-ticketing implementation for state transportation agencies for asphalt materials

E-ticketing,which has been promoted by the Federal Highway Administration(FHWA)“every day counts”(EDC)initiative,utilizes software applications to digitally track and store information regarding highway construction materials paid by state transportation agencies(STAs)by weight in unit bid contract structures.STAs often face implementation barriers such as institutional inertia,or the resistance by stakeholders to adopt changes from the status quo,including new technologies.The purpose of this paper is to determine the progression of STA e-ticketing policy adoption,specifically with a focus on asphalt paving operations,due to the COVID-19 pandemic.To accomplish this research effort,previous FHWA data,National Cooperative Highway Research Program(NCHRP)data,and other literatures are reviewed to determine an implementation baseline.Additional data is collected from the American Association of State Highway and Transportation Officials Committee on Con-struction to gain current feedback from STAs and their highway contractor partners after the COVID-19 pandemic.Additionally,a case study featuring the Kentucky Transportation Cabinet(KYTC),the Kentucky Association of Highway Contractors(KAHC),and the Plantmix Asphalt Industry of Kentucky(PAIKY)is performed to provide more in-depth analysis.The major finding includes a statistically significant result indicating increased imple-mentation of e-ticketing for asphalt operations within the last two years,along with noting benefits including employee safety,task loading,and project documentation along with concerns regarding cellular connectivity and procurement responsibilities.These findings indicate the importance of STAs investing in partnership with con-tractors to improve stakeholder buy-in before proceeding towards e-ticketing adoption.

宽幅大厚度水泥稳定碎石基层整体铺筑工艺及青海地区适用性分析

针对青海地区路面工程实际情况,从水泥稳定碎石基层混合料的拌合与运输、摊铺、压实三个方面入手,探究了宽幅大厚度水泥稳定基层的施工技术要点;通过对比传统的水泥稳定碎石基层并机分层摊铺施工工艺,总结了宽幅大厚度水泥稳定碎石基层整体铺筑技术在青海地区应用的优势及现存问题。研究分析表明:宽幅大厚度水泥稳定碎石基层整体铺筑过程中,需提高相应拌合运输能力,依工程实际从两种主要摊铺工艺中按需选择,通过合理的机械组合使基层整体压实度达到要求,并使上下压实度差异较小;从施工和性能两方面因素考虑,宽幅大厚度水泥稳定碎石基层整体铺筑技术在青海地区路面工程中的适用性更高,社会经济效益更好,建议在工程实践中结合项目实际加以推广应用。

铰缝损伤及铺装层对空心板桥横向刚度的影响

铰缝损伤是空心板桥梁较易出现的病害。为研究铺装层在铰缝损伤后对空心板桥梁横向刚度的影响,根据铰接板法理论,采用梁格法和Midas civil软件建立其有限元模型,对铰缝损伤后空心板桥梁的横向受力性能进行计算分析。研究结果表明:铺装层在空心板桥梁铰缝损伤后可起荷载横向传递的作用,提高了桥梁的横向受力性能,并且在多铰缝出现损伤时,提升效果更为明显;同时当铺装层厚度为10~20 cm时,铺装层厚度越大,桥梁的横向刚度越大,但对结构横向刚度的提升效果并不明显。

基于网格模型的自动铺丝路径规划方法

针对复合材料自动铺丝工艺,研究基于网格模型的自动铺丝路径规划方法。梳理了自动铺丝路径规划的业务流程,对三角网格拓扑关系进行重建,节省数据存储空间;提出了基于给定点与方向的定向延伸算法,用于精确计算网格模型的线型路径点;对路径等距后的点集进行优化,避免了等距后的线型自交以及凸边现象,保证了线型的准确;对所规划路径的压辊可铺放性分析方法进行研究,并基于分析结果提出了路径优化策略。结合CATIA二次开发工具CAA在VS平台对自动铺丝路径规划模块进行开发,并通过实例验证了本文所研究方法的可行性与可靠性。

公路路面施工过程中的沥青摊铺施工技术研究

公路系统的建设和维护对社会经济发展和人们生活质量的提升至关重要。而作为公路路面施工的核心环节之一,沥青摊铺施工质量直接关系着公路的使用寿命和行车安全。随着交通运输需求的不断增长和公路建设规模的扩大,如何有效地应用先进的沥青摊铺施工技术成为当前亟待解决的问题。因此,深入研究沥青摊铺施工技术,探索其在公路建设中的应用和发展,具有重要的理论和实践意义。首先对沥青路面及摊铺机的组成进行介绍,其次重点分析公路沥青路面摊铺施工技术要点,希望能对该技术的应用有所帮助。

层次分析法和熵权法模糊综合评价水泥混凝土路面结构性能

为了解决因旧水泥混凝土路面的结构性能评估结果经验性较强而无法为旧水泥混凝土路面改造成沥青路面决策方案提供有效理论依据的问题,基于结构性能评价指标和统计学方法构建水泥混凝土路面结构性能模糊综合评价模型,从表面、内部和整体结构状况3个方面分别对旧水泥混凝土路面进行结构性能评价;基于模糊评价法建立模糊关系矩阵,采用层次分析法和熵权法确定综合权重向量,得到综合评价向量和综合评价等级,并利用所构建模型和我国相关行业标准中的路面结构强度指数模型,对上海市奉贤区和浙江省嘉兴市的4段水泥混凝土路面FX-A、 FX-B、 JX-A、 JX-B进行实例分析。结果表明:通过所构建模型得到各路段按结构性能从优到差的顺序为JX-A、 JX-B、 FX-B、 FX-A;与我国相关行业标准中的路面结构强度指数模型相比,所构建模型的评价结果更符合实际路面结构性能。