Reinforcement Technology(加固技术)研究综述
Reinforcement Technology 加固技术 - This article is instructive for the reinforcement of the early-built sparse-cable reinforced concrete cable-stayed bridge, while also expanding the scope of implementation of external prestressed reinforcement technology. [1] The existing reinforcement technology of rock slope and cavern cannot provide large anchoring force and high time efficiency at the same time, which leads to being unable to achieve rapid and effective prevention and rescue in case of landslide, collapse and other dangerous situations. [2] Accordingly, a prestressed anchor cable is the most commonly used slope reinforcement technology. [3] Soil reinforcement technology is beneficial for weak and soft subgrade soils supporting the footing loads. [4] Based on on-site coring, mechanical properties of rock samples, and on-site grouting reinforcement technology, the TRT6000 advanced geological prediction system was used to predict the stability status of the surrounding rock of the underground chamber. [5] This paper provides an overview of composite materials and their fiber reinforcement technology in aerospace field. [6] In order to meet the security and high-efficiency production needs, high-strength bolt (cable) reinforcement technology is usually used to maintain the stability of roadways. [7] In order to verify the application effects of pavement reinforcement technology with RoadMesh steel wire mesh, and relied on the S415 Reconstruction and Extension Project from Xiapuzhen to Jietoutang in Tongshan County, Xianning City, Hubei Province, the application researches on construction technology and treatment effect of RoadMesh reinforcement were carried out for the joint section between new and existing asphalt pavement through scheme design, field construction, tests and analysis and economic comparison. [8] The composite strengthening beam combined with a variety of reinforcement technology, complementary advantages. [9] In order to study the mechanism and treatment measures of urban pipeline leakage inducing mud outburst in tunnels, basing on the case of tunnel mud outburst accidents, this paper analyze the mechanism of urban pipeline leakage inducing mud outburst in tunnels, and propose reasonable surrounding rock reinforcement technology and auxiliary construction method. [10] In order to study the application of maintenance and reinforcement technology for arch bridge foundation, taking a reinforced concrete half-through arch bridge and a rigid frame arch bridges as examples, the appearance inspection and disease analysis of the bridge piers and pile foundations were carried out. [11] The properties of plastic waste have been investigated to ensure it meets the requirement for soil reinforcement technology. [12] The application of external prestressed reinforcement technology in large-span reconstruction projects is introduced through a project example of drawing columns to increase the use space of existing buildings. [13] The field monitoring data show that the production practices were guided by roadway repair and reinforcement technology with the modified grouting material, as the core of the roadway surrounding rock control effect is good, and the modified grouting material has a wide range of application prospects. [14] Therefore, the bottom line is that this reinforcement technology can be used confidently in real-life applications, especially in low- cost buildings. [15] Carbon fiber-reinforced polymer (CFRP) reinforcement technology has been widely used in the reinforcement of reinforced concrete (RC) beams. [16] As a safe, reliable, and convenient reinforcement method, the external prestressing reinforcement technology is often used to reinforce the portal frame. [17] The results show that the new technology steel plate anchoring FRP plate reinforcement technology can effectively prevent the occurrence of early peeling failure, improve the ductility and bearing capacity of the reinforced beam, and significantly increase the utilization rate of the FRP plate; as the damage rate increases, the ultimate bearing capacity of the reinforced beam increases, but the ductility is significantly reduced. [18] This article introduces and analyzes the status quo of historical building seismic reinforcement technology from the aspects of historical building definition and protection principles, reinforcement principles, and reinforcement methods. [19] Microbial-induced carbonate precipitation (MICP) is a relatively innovative and environmentally-friendly soil reinforcement technology, primarily used on sand, but its application in loess has rarely been studied. [20] Our study confirms that PET straps have important practical significance in terms of their cost-effectiveness, environmental friendliness, and mature reinforcement technology for engineering reinforcement applications. [21]本文对早期建成的疏索钢筋混凝土斜拉桥的加固具有指导意义,同时也扩大了外加预应力加固技术的实施范围。 [1] 现有的岩质边坡和洞室加固技术不能同时提供大的锚固力和高的时间效率,导致在发生滑坡、塌方等险情时无法实现快速有效的预防和救援。 [2] 因此,预应力锚索是最常用的边坡加固技术。 [3] 土壤加固技术有利于支撑基础荷载的软弱路基土。 [4] 基于现场取芯、岩样力学性能、现场注浆加固技术,采用TRT6000超前地质预测系统对地下室围岩稳定性状态进行预测。 [5] 本文概述了航空航天领域的复合材料及其纤维增强技术。 [6] 为满足安全和高效生产的需要,通常采用高强度锚杆(索)加固技术来保持巷道的稳定性。 [7] 为验证RoadMesh钢丝网路面加固技术的应用效果,以湖北省咸宁市通山县下铺镇至街头塘S415改扩建工程为依托,对道路网的施工技术及处理效果进行了应用研究。通过方案设计、现场施工、试验分析和经济比较,对新建与既有沥青路面接缝段进行RoadMesh加固。 [8] 复合加固梁结合多种加固技术,优势互补。 [9] 为研究城市管道渗漏诱发隧道突泥的机理及处理措施,以隧道突泥事故案例为基础,分析城市管道渗漏诱发隧道突泥的机理,提出合理的围岩加固建议。技术和辅助施工方法。 [10] 为研究拱桥基础养护加固技术的应用,以钢筋混凝土中通拱桥和刚架拱桥为例,对桥墩和桩基进行了外观检查和病害分析。 . [11] 对废塑料的特性进行了研究,以确保其满足土壤加固技术的要求。 [12] 通过拉柱工程实例介绍外加预应力钢筋技术在大跨度改造工程中的应用,增加既有建筑的使用空间。 [13] 现场监测数据表明,以改性灌浆料为核心的巷道修复加固技术指导生产实践,巷道围岩防治效果好,改性灌浆料具有广泛的应用前景。 [14] 因此,最重要的是,这种加固技术可以放心地用于实际应用中,尤其是在低成本建筑中。 [15] 碳纤维增强聚合物(CFRP)加固技术已广泛应用于钢筋混凝土(RC)梁的加固。 [16] 作为一种安全、可靠、方便的加固方法,外加预应力加固技术常被用于门式框架的加固。 [17] 结果表明,新技术钢板锚固FRP板加固技术可以有效防止早期剥离破坏的发生,提高加固梁的延性和承载力,显着提高FRP板的利用率;随着损伤率的增加,加筋梁的极限承载力增加,但延性显着降低。 [18] 本文从历史建筑的定义与保护原则、加固原则、加固方法等方面介绍和分析了历史建筑抗震加固技术的现状。 [19] 微生物诱导碳酸盐沉淀(MICP)是一种相对创新和环保的土壤加固技术,主要用于沙地,但其在黄土中的应用鲜有研究。 [20] 我们的研究证实,PET带材在工程加固应用的成本效益、环境友好和成熟的加固技术方面具有重要的现实意义。 [21]
Soil Reinforcement Technology
Soil reinforcement technology is beneficial for weak and soft subgrade soils supporting the footing loads. [1] The properties of plastic waste have been investigated to ensure it meets the requirement for soil reinforcement technology. [2] Microbial-induced carbonate precipitation (MICP) is a relatively innovative and environmentally-friendly soil reinforcement technology, primarily used on sand, but its application in loess has rarely been studied. [3]土壤加固技术有利于支撑基础荷载的软弱路基土。 [1] 对废塑料的特性进行了研究,以确保其满足土壤加固技术的要求。 [2] 微生物诱导碳酸盐沉淀(MICP)是一种相对创新和环保的土壤加固技术,主要用于沙地,但其在黄土中的应用鲜有研究。 [3]
Prestressed Reinforcement Technology
This article is instructive for the reinforcement of the early-built sparse-cable reinforced concrete cable-stayed bridge, while also expanding the scope of implementation of external prestressed reinforcement technology. [1] The application of external prestressed reinforcement technology in large-span reconstruction projects is introduced through a project example of drawing columns to increase the use space of existing buildings. [2]本文对早期建成的疏索钢筋混凝土斜拉桥的加固具有指导意义,同时也扩大了外加预应力加固技术的实施范围。 [1] 通过拉柱工程实例介绍外加预应力钢筋技术在大跨度改造工程中的应用,增加既有建筑的使用空间。 [2]