而纤维带与混凝土之间的粘结性能要强于普通钢筋。
The bond strength between AFRP belts and concrete was higher than that between steel bars and concrete.
良好的界面粘结是制备高性能复合材料的关键之一,而树脂与纤维的优良浸润则是其首要前提。
In a composite system, the adhesion at the interface between fiber and matrix plays an important role in improving the resulting mechanical behavior.
对石墨布、毡、纱线、纤维以及一些大的整块元件器具,它是一种优异的粘结材料。
It is an excellent bond for graphite cloth, felt, yarn, fibers and large monolithic shapes.
通过65个纤维增塑料(FRP)与混凝土试件的正拉粘结强度试验来研究自然条件下FRP与混凝土之间的粘结耐久性。
The bond durability between fiber reinforced plastic(FRP) and concrete under natural conditions was studied by normal bonding strength experiment of 65 FRP and concrete samples.
自行设计了异形钢纤维与混凝土粘结强度试验方法。
The experiment methods of the bonding strength between deformed steel fiber and concrete was self-designed.
结果表明,此类纤维与基体的界面粘结性能优异,对混凝土有明显的增强、增韧效果。
Results show that the interfacial bond behavior is excellent and concretes are reinforced and toughened with these fibers.
聚合物水泥砂浆与双肢钢纤维的粘结强度最大。
The bond strength of polymer(PAE) cement mortar with double booked steel fiber is the highest.
航空工业。飞机结构纤维用合成纤维。浆纱并绞纤维粘结的剥离强度。
Aircraft industry. Synthetic cloths for the fabric of airplane structures. Peeling strength of the bonding of taping fabric.
并验证了重复荷载作用下玻璃纤维布与混凝土良好的粘结性能。
It has proved that the glass fibre sheets and the concrete has a good bonding condition subjected repeated fatigue load.
通过试验和解析方法对粘贴碳纤维布加固修复钢结构技术的粘结界面受力性能进行了分析,提出粘结界面剪切应力的计算公式,并在实际算例中取得了与试验较为吻合的结果;
Through tests and analysis of the adhesive interface performance of steel structure with CFRP, the paper sets up an expression of adhesive interface shear stress, which is validated by the tests.
其组成材料主要为:水泥、粉煤灰、玻化微珠、EPS颗粒、高分子粘结剂、纤维网格布等。
Its main constituents are cement, fly ash, vitrified microsphere, EPS grain, macromolecule binding agent and fiber.
试验表明:在M 30砂浆中,纤维不同埋置长度的界面粘结强度基本为一常数3。
The results show that the interfacial bond strength of different embedding lengths in M30 mortar almost is a constant 3.
根据模型的拟合参数计算和讨论提出了应用力学模型可以检验非织造布加工中纤维网粘结程度优劣的可能性。
According to the computation and discussion of the model parameters, a possibility of using the mechanical model to evaluate bonding degree of fibre web in nonwoven processing has been proposed.
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。
External bonding of fiber reinforced polymer (FRP) plates or sheets has emerged as a popular method for the strengthening of reinforced concrete (rc) structures.
二者间良好的粘结质量是保证加固效果的前提,同时也是加固中设计纤维布使用量的基础。
The nicer bond quality is the premise of guaranteeing the strengthening effect. Meanwhile, it is the foundation of designing the dosage of the fibre sheet in the strengthening project.
根据模型的拟合参数计算和讨论证明了应用力学模型可以检验非织造布加工中纤维网粘结程度的优劣。
According to the computation and discussion of the model parameters, a way of using the mechanical model to evaluate bonding degree of fibre web in nonwoven processing has been testified.
研究了处理前后uhmpe纤维的力学性能、表面形貌、化学成分、表面粘结性能的变化。
The mechanical properties, surface morphology, chemical composition and surface cohesion property of UHMPE fiber were studied before and after surface modification.
天然纤维或合成纤维无规排列或缠结后,再借助粘结剂、热和压力或针刺固定在一起而制成的织物,毛毡就是一个例子。
Cloth produced from a random arrangement or matting of natural or synthetic fibers held together by adhesives, heat and pressure, or needling; felt is an example.
介绍了采用可生物降解热塑性PHBV 树脂为粘结基体相,天然纤维作增强相,通过热压工艺开发绿色板材。
This paper introduces the technology of biodegradation by using natural fiber as buildup cross - purposes and PHBV polyester as felt cross - purposes through the heat press process.
纤维与混凝土之间的粘结直接影响纤维对混凝土的增强、增韧和阻裂效果。
The binding between fiber and concrete has direct influence of fiber on reinforcement, toughening and anti-cracking of concrete.
本文就粘结剂对硅酸铝纤维增强ZL 109合金复合材料冲击疲劳性能的影响进行研究。
In this paper, the influence of binders on the fatigue behavior of aluminosilicate fibre reinforced ZL109 alloy composites was studied.
这种新型的湿层产品是由高纯度的无定形二氧化硅纤维和无机二氧化硅粘结剂结合而成的。
The new wet blanket product is a combination of high-purity amorphous silica fibers and an inorganic silica binder.
该增强纤维是以短切纤维束的形式提供的,其中用整理组合物涂覆该纤维并在各短切纤维束内形成非牢固的纤维间粘结。
The reinforcing fibers are provided in the form of cut fiber bundles with a finish composition coating the fibers and forming fugitive inter-fiber bonds within each cut fiber bundle.
结果表明:界面粘结作用是影响力学性能和纤维效率系数的关键因素。
The results showed the interracial bonding was a decisive cause to influence the mechanical properties and fiber efficiency factors.
纤维表面漫胶处理后断裂强力提高,当UHMWPE纤维中改性氯丁胶或聚氨酯粘结剂的含量为6%时,其断裂强力增加17.2%或13.9%。
When the modified neoprene or polyurethane adhesive content in UHMWPE fibers was 6%, the strength of UHMWPE fibers increased 17.2% or 13.9%, respectively.
通过粘结机理说明用纤维布粘贴混凝土时施加压力的重要性。
Via bonding mechanism, the importance of exerting pressure to the bonding interface between fiber sheets and concrete was indicated.
介绍了再生纤维非织造布建筑防水材料、再生纤维非织造布粘结复合法植生带、再生纤维汽车内装饰材料的研究与开发。
The paper relates investigation and development of building waterproof material , vegetable belt of binding composite method and automobile decoration material for regenerated fibre nonwoven fabric.
所有的纸在本质上只是干燥的植物纤维,通过平板粘结在一起。
All paper is essentially dried up plant fibers, clinging together in a flat sheet.
所有的纸在本质上只是干燥的植物纤维,通过平板粘结在一起。
All paper is essentially dried up plant fibers, clinging together in a flat sheet.
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