1) fiber reinforced concrete
纤维增强混凝土
1.
Studies on the electrical conductivity of carbon fiber reinforced concrete and its applications;
纤维增强混凝土导电性能的研究与应用
2.
Development of the fiber reinforced concrete and carbon fiber reinforcement technology
纤维增强混凝土与碳纤维加固技术的发展
3.
A determination method of the tensile softening constitutive equation of fiber reinforced concrete by means of three-point bend tests on notched beams is prensented.
本文提出了用带切口梁的三点弯曲试验确定纤维增强混凝土拉伸软化本构方程的方法。
3) fibre reinforced concrete
纤维增强混凝土
1.
Aim\ To study the toughness of the fibre reinforced concrete.
目的 研究纤维增强混凝土的韧性 。
4) carbon fiber concrete
碳纤维增强混凝土
1.
Some carbon fiber concrete specimens with different gradation proportion and different volume content of carbon fiber under flexure are tested,and complete stress-strain curves of all specimens are listed in this paper.
通过对不同配合比、不同碳纤维体积含量的混凝土试件进行弯折试验,得到碳纤维增强混凝土(CFC)轴拉应力—应变全曲线。
2.
Some carbon fiber concrete specimens with different gradation proportion and different volume content of carbon fiber under compression are tested,and complete stress-strain curves of all specimens are listed.
通过对不同配合比、不同碳纤维体积含量的混凝土试件进行轴压试验,得到碳纤维增强混凝土(CFC)轴向压缩应力-应变全过程曲线。
5) carbon fiber reinforced concrete
碳纤维增强混凝土
1.
The feasibility of the assessment on the repair quality of concrete structure by the electric conductivity of carbon fiber reinforced concrete(CFRC) was researched,according to the change of the electric conductivity of CFRC,the cement quality of the interface between new and old concrete could be assessed,and which was validated by the thermal conductivity of CFRC.
研究了利用碳纤维增强混凝土(CFRC)的导电性对混凝土结构修补质量进行在线评估的可行性,根据敷在服役混凝土结构上CFRC导电性能的变化,判断新旧混凝土界面的粘结质量,并通过CFRC导热性能的差异进行了验证。
2.
Through the conformation of carbon fiber reinforced concrete(CFRC)smart layer with definite height in concrete structure and real-time monitoring of electrical resistivity variation,the structure real-time loading and the degree of damage could be forecasted.
在混凝土结构中构造一定厚度的碳纤维增强混凝土机敏层,并通过实时监测电阻率变化,可对结构的实时荷载和损伤程度进行预报。
3.
Through the conformation of carbon fiber reinforced concrete (CFRC) smart layer with definite height in concrete structure and real-time monitoring of electrical resistivity variation, the structure real-time loading and the degree of damage could be forecasted.
碳纤维具有良好的导电性,电阻率变化率与所处应力场具有稳定的对应关系,在混凝土结构中构造一定厚度的碳纤维增强混凝土机敏层,并通过实时监测电阻率变化率,可对结构的实时荷载和变形程度进行预报。
6) polypropylene fiber reinforced concrete
聚丙烯纤维增强混凝土
1.
Crack resistance and evaluation for early-age polypropylene fiber reinforced concrete;
聚丙烯纤维增强混凝土早期抗裂性能及其评价
补充资料:纤维增强混凝土
分子式:
CAS号:
性质:以普通混凝土为基体,掺入均匀分布的纤维材料制成的特种混凝土。具有较高抗拉强度和抗压强度,以及较高的抗冲击韧性和断裂能。采用的纤维材料有钢纤维、玻璃纤维、碳纤维和高分子合成纤维。通常使用三维乱向分布短纤维,石子最大粒径<10mm。最常用的是钢纤维增强混凝土,聚丙烯纤维效果也较好。用玻璃纤维时,应使用低碱水泥(pH<11)或耐碱玻璃纤维。用于飞机跑道、断面较薄的轻型结构和压力管道等处。
CAS号:
性质:以普通混凝土为基体,掺入均匀分布的纤维材料制成的特种混凝土。具有较高抗拉强度和抗压强度,以及较高的抗冲击韧性和断裂能。采用的纤维材料有钢纤维、玻璃纤维、碳纤维和高分子合成纤维。通常使用三维乱向分布短纤维,石子最大粒径<10mm。最常用的是钢纤维增强混凝土,聚丙烯纤维效果也较好。用玻璃纤维时,应使用低碱水泥(pH<11)或耐碱玻璃纤维。用于飞机跑道、断面较薄的轻型结构和压力管道等处。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条