1) strain hardening cementitious composites(SHCC)
应变硬化水泥基复合材料(SHCC)
2) cement based composite
水泥基复合材料
1.
At the present time, only experimental and theoretical researches are continued for fabric reinforced cement based composite.
国内外对织物增强水泥基复合材料的研究尚处于试验与理论研究阶段。
2.
The conductive mechanism and piezoresistivity of carbon fiber reinforced cement based composite (CFRC) were studied.
本文研究了掺有碳纤维的水泥基复合材料的导电机理和在轴向压力下的压阻特性。
3) cement based composites
水泥基复合材料
1.
Research progress of fibers reinforced cement based composites;
纤维增强水泥基复合材料研究进展
2.
The resistance responses to temperature was studied for carbon fiber reinforced cement based composites(CFRC), which showed some outstanding phenomena of PTC and NTC during the temperature rising.
研究了碳纤维水泥基复合材料的温阻特性,探讨了碳纤维特性(掺量、长径比)、水泥基体特性和热循环次数对温阻特性的影响。
4) Cement-based composite material
水泥基复合材料
1.
The application of rheology in cement-based composite material;
流变学在水泥基复合材料中的应用
2.
Thermal conduction coefficient of carbon fiber reinforced cement-based composite material
碳纤维水泥基复合材料导热系数的研究
3.
The fiber spacing theory and composite theory of steel-reinforced cement-based composite material(SFRC)are discussed.
分析了钢纤维增强水泥基复合材料(SFRC)纤维间距理论、复合理论存在的问题,将纤维阻裂与纤维复合增强看成是两种不同的作用,据此提出了SFRC兼有阻裂作用的复合理论。
5) cement-based composites
水泥基复合材料
1.
Impact of high-titanium slag on performance of cement-based composites
高钛矿渣对水泥基复合材料性能的影响
2.
The study of carbon fiber cement-based composites is in the ascendant nowadays.
碳纤维水泥基复合材料的研究方兴未艾。
3.
The absorbing EMW properties and mechanical properties of cement-based composites, which are made of portland cement and nanometric absorbing materials, were studied.
研究了纳米吸波材料与硅酸盐水泥复合材料的吸波性能和力学性能,讨论并分析了纳米氧化钛的用量、分散方式、试样厚度对电磁波反射衰减的关系和纳米氧化钛对水泥基复合材料的力学性能影响。
6) cement-based composite
水泥基复合材料
1.
Microcosmic and smart properties of carbon fiber cement-based composites;
碳纤维/水泥基复合材料微观结构及机敏特性
2.
Smart characteristics of cement and cement-based composite is reviewed in this paper in three aspects :compression-sensibility,temperature-sensibility and electromagnetic interfere shielding.
主要从水泥及水泥基复合材料的压敏性、温敏性和电磁屏蔽等三个方面综述了这一领域的研究现状。
3.
The physical performance of alumina cement-based composite fabricated by vibratory compaction by using alumina cement as gelling agent and graphite as conductive filler were studied in this paper.
通过测试高铝水泥基复合材料的物理性能,得到高铝水泥基复合材料的体积电阻率、抗压强度和表观密度随石墨掺量的变化规律,并采用无限网链理论描述了高铝水泥基复合材料的导电机理。
补充资料:水泥基复合材料
分子式:
CAS号:
性质:以硅酸盐水泥为基体,以耐碱玻璃纤维、通用合成纤维、各种陶瓷纤维、碳和芳纶等高性能纤维、金属丝以及天然植物和矿物纤维为增强体,加入填料、化学助剂和水经复合工艺构成的复合材料。它比一般混凝土性能有所提高。以短切的耐碱玻璃纤维约3%~10%含量的复合材料为例,其密度为1600~2500kg/m3,抗冲强度8.0~24.5N·mm/mm2,压缩强度48~83MPa,热膨胀系数为(11~16)×10-6K-1。性能随所用原材料、配比、工艺和养护条件而异。水泥基复合材料基本上用于制造建筑构件,如内、外墙板、天花板等。
CAS号:
性质:以硅酸盐水泥为基体,以耐碱玻璃纤维、通用合成纤维、各种陶瓷纤维、碳和芳纶等高性能纤维、金属丝以及天然植物和矿物纤维为增强体,加入填料、化学助剂和水经复合工艺构成的复合材料。它比一般混凝土性能有所提高。以短切的耐碱玻璃纤维约3%~10%含量的复合材料为例,其密度为1600~2500kg/m3,抗冲强度8.0~24.5N·mm/mm2,压缩强度48~83MPa,热膨胀系数为(11~16)×10-6K-1。性能随所用原材料、配比、工艺和养护条件而异。水泥基复合材料基本上用于制造建筑构件,如内、外墙板、天花板等。
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参考词条