The main reasons of fiber strengthening MDF cement are that the fibers are fairly well distributed and form space net structure.
纤维增强MDF水泥的微观结构特征是纤维在复合材料中呈三维均匀分布,形成空间网络结构,这是纤维增强MDF水泥的主要原因。
The carbon fiber strengthening method is compared with electric chemical strengthening method and stick steel strengthening method.
并针对碳纤维布加固特点,与电化学加固法、粘钢加固法加以对比。
In this paper, carbon fiber strengthening technology is used to strengthen the reinforced concrete which cracked because of freezing action.
采用碳纤维加固技术,对因受冻害而发生开裂的混凝土结构进行了加固处理。
The bond behavior between carbon fiber sheets and steel affects the effectiveness of strengthening, but research on this subject is still lacking in China.
碳纤维布与钢结构之间的黏结性能直接影响加固效果,但是目前国内对这方面的研究还未涉足。
Repairing and strengthening concrete structures with Carbon Fiber Reinforced Polymer (CFRP) is now a new technique popularized greatly in the domestic field of structure rehabilitation.
碳纤维复合材料(CFRP)加固修复混凝土结构技术是目前国内土木界正在大力推广的一种结构加固新技术。
Carbon Fiber Reinforced Polymer (CFRP) that has high strength, light weight, resistance to corrosion, simple construction, is widely applied to strengthening concrete structures.
碳纤维布以其强度高、自重轻、耐腐蚀、施工简便等特性,被广泛应用于各种钢筋混凝土结构的修补加固中。
Structural retrofit and rehabilitation with Carbon Fiber Reinforced Plastic(CFRP) is a very hot strengthening technique which has a great market in highway bridges, but it is still in unformed phase.
碳纤维复合材料(CFRP)加固是当前最为引人关注且具有广泛应用前景的桥梁加固技术,但仍处于研究阶段。
Some problems existed in single type of fiber reinforced polymer (FRP) used for strengthening concrete are pointed out.
指出单一纤维复合材料(FRP)加固混凝土存在的若干问题。
The steel fiber concrete is used to strengthening the dam through more schemes comparison.
经比选佛子岭大坝加固采用钢纤维混凝土新材料。
In recent years, the concrete structure strengthening by fiber compound material has become a newly found high technology, which is widely used in bridge strengthening works at home and abroad.
纤维复合材料补强加固混凝土结构是近年来出现的一种新兴的、科技含量较高的补强加固技术,已被应用于国内外的桥梁加固工程中。
External bonding of fiber reinforced polymer (FRP) plates or sheets has emerged as a popular method for the strengthening of reinforced concrete (rc) structures.
外部粘结的纤维增强聚合物(FRP)板已作为加固钢筋混凝土(RC)结构常用方法。
The effects of CFRP( carbon fiber reinforced polymer) strengthening on the mechanical performance of short plain - concrete columns were researched by loading tests of 18 short - column specimens.
通过18根短柱试件的加载试验,研究了CFRP(碳纤维复合材料)加固对素混凝土短柱力学性能的影响。
Base on an engineering, this text introduce the application of technology for strengthening with carbon fiber reinforced polymer laminate in concrete frame beam strengthened for shear resistance.
本文根据工程实际情况,简要介绍了碳纤维片材加固技术在混凝土框架梁抗剪加固工程中的应用。
From project Angle think this program can satisfactory completion carbon fiber last task of designing strengthening.
从工程的角度看该程序可以较圆满的完成碳纤维加固计算设计任务。
Carbon fiber is a kind of optimal materials for bridge maintenance and reinforcement. Design method of strengthening steel-concrete composite Bridges using carbon fiber was studied in this paper.
碳纤维复合材料是进行桥梁维修和加固的理想材料,对采用碳纤维复合材料加固钢-混凝土组合梁桥的设计方法进行了分析。
Carbon fiber technology repairing concrete structure is one technology used extensively in strengthening field abroad.
碳纤维技术加固修复混凝土构件是国外加固修补领域广泛应用的一种技术。
Based on the technology analyses of strengthening reinforced concrete beams with carbon fiber sheet, and the research of calculate theory, the paper raises the technology of Relief method.
论文以碳纤维粘贴技术分析为基础,以抗弯加固计算理论研究为依据,提出拟卸载法技术。
The technique of carbon fiber sheet (CFS) strengthening concrete structure has been widely used in the structure strengthening field.
如今,碳纤维布加固混凝土结构技术在结构加固领域广泛应用。
Fiber reinforced polymer (FRP) composites have been increasingly used in rehabilitation and strengthening of concrete structures.
纤维复合材(FRP)加固修复混凝土结构技术已广泛应用于建筑结构工程实际。
Brittleness is a vital weakness of ceramicas, strengthening and toughening ceramic matrix composites by carbon fiber is one of discussed focuses in the material science research field.
陶瓷材料的脆性是其致命弱点,通过碳纤维补强增韧陶瓷基复合材料是材料学术界关注的热点之一。
Enlarging concrete section, enveloping iron and strengthening with carbon fiber sheet are the widely-used methods to strengthen concrete beam.
对于混凝土构件而言,常用的加固方法有:混凝土加大截面法、外包钢加固法、碳纤维布加固法等。
This text goes into theories and methods of the assessment of bridge's anti-seismic ductility and presents a method of strengthening, which USES the carbon fiber.
本文通过研究桥梁延性抗震评估理论与方法,提出桥梁碳纤维加固理论及方法。
From much angles in this dissertation Bridges strengthening method with carbon fiber and the traditional strengthening methods is compared and analyzed.
本文还从多角度对采用碳纤维对桥梁加固方法与传统加固方法进行比较和分析。
The unidirectional carbon fiber plate and the modified epoxy resin are used in strengthening the common RC beams and experiments on flexural behaviors are carried out in this study.
采用单向碳纤维片材及改性环氧树脂对普通rc梁进行加固处理及弯曲性能试验。
The strengthening layer is made of fiber reinforced plastics. The auxiliary shock suction layer is made of plastic foamed objects.
该补强层由纤维补强塑料制成,该辅助吸震层由塑料发泡物制成。
Through the alternative comparison for the strengthening, the method to us the carbon fiber composite material is determined;
经方案比较,采用碳纤维复合材料粘贴补强加固法。
Application Technology of JVS Polymers Steel Fiber Concrete and JVS Cement Daub Concrete for Repair and Strengthening;
在工业环境下钢筋混凝土板受到严重侵蚀,可采用结构胶泥找平后粘覆钢板进行加固。
Application Technology of JVS Polymers Steel Fiber Concrete and JVS Cement Daub Concrete for Repair and Strengthening;
在工业环境下钢筋混凝土板受到严重侵蚀,可采用结构胶泥找平后粘覆钢板进行加固。
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