单纤维段裂试验作为复合材料界面剪切强度的一种测试方法被沿用至今。
The single fiber fragmentation test has been used to determine the interfacial shear strength of composite materials.
研究表明,增加变形程度和选择合适的轧制温度能提高复合板的界面初结合强度。
The results indicated that increasing the deformation and a proper rolling temperature may improve obviously the bonding strength.
对两组不同焊接规范下复合过渡接头的界面结合强度进行了对比,确定了合适的焊接工艺参数。
Interface bonding strength of clad transition joints welded in two different welding procedures is compared and a proper welding procedure is determined.
用金刚锥显微脱粘法测得复合材料的界面强度。
The interfacial strength was measured using pyramidal diamond micro-debonding method.
实验结果证明,芳纶表面改性显著提高了其复合材料界面的粘结强度,相反却降低了其界面断裂能。
The results show that the interfacial adhesion strength increased noticeably for composites of active aramid fiber but the fracture energy of the interface decreased.
通过力学性能测试、扫描电镜及透射电镜观察,研究了冷轧压下量及时效温度对内生复合钢板弱界面结合强度的影响。
Mechanical properties testing, SEM and TEM was used to study the effects of cold rolled reduction and aging temperature on the cohesion of the weak interface of DISC.
考察了接头的界面复合特征,界面上元素扩散及接头的结合强度。
The composite features, the elements diffusion and the binding strength in interface of the adaptor have been reviewed.
从复合材料界面的角度,采用XPS综合方法研究了水泥基聚合物复合材料的高强特别是高抗弯强度的微观机理。
XPS comprehensive method is used to study the composition and structure of interface in high compressive strength, especially high bending strength cement-based composite material.
本文提出了一个确定层状复合材料界面结合强度的新模型,即由两种材料交替完全粘结在一起的复合梁。
In the present paper, a new model, a layered composite beam, is presented for determining the interface bonding strength of materials.
采用拉伸屈服强度定量表征了界面相互作用的强弱,研究了界面相互作用对三元复合体系拉伸断裂形态的影响。
Tensile yield strength was used to quantitatively evaluate the interfacial interactions, which have significant influence on the tensile fracture morphology of the composites.
结果表明:该复合材料层间拉伸强度较少受到铺层取向的影响,而由纤维与基体的界面结合强度所控制。
It was concluded that the interlaminar tensile strength of the composite is dominated by the bonding strength of the interface between fiber and matrix, not by lay-up orientation.
得到了三种复合材料界面层的抗拉强度。
The tensile strength of three filled composites was measured.
提出了一种利用拉伸法和剪切法测定内生复合板钢板弱界面拉伸强度及剪切强度的测试方法。
A new method was given to test the cohesion strength of weak interface of DISC by tensile tests and shearing tests.
研究了三种不同界面结合状态(机械结合、溶解结合、反应结合)的碳纤维增强铜复合材料的界面结构及其对复合材料弯曲强度的影响。
Interface characteristics of carbon fiber reinforced copper matrix composite materials with various interface states and their effect on the flexural strength of the composites had been studied.
由于碳纳米管与基体的界面结合强度低,使复合材料抗弯强度下降。
Because the low interface strength of carbon nanotube and metal matrix, carbon nanotube do not act as enhancements to bending.
结果表明,当界面结合较强时,复合材料主要发生穿晶破坏,材料韧性较好但强度较差;
The results show that mechanical properties of interface have significant effect on the composite and its final fracture mechanism.
以碳纤维增强聚四氟乙烯(CF/PTFE)复合材料弯曲强度试验结果作为依据,开展CF/PTFE复合材料界面应力的研究工作。
The flexural strength of carbon fiber reinforced Polytetrafluoroethylene(CF/PTFE) composite increases with the increase of carbon fiber content both in modified and unmodified CF/PTFE composite.
要获得高品质的复合带材,就必须在高温时能抑制界面化合物的生成,提高钢铝结合强度和加工性能。
In this thesis, we force on the interface compounds of steel-aluminum composite material in high temperature systematically and find the way to inhibiting the generation of interface compounds.
研制高性能的玻璃纤维增强聚丙烯复合材料的关键是提高非极性的聚丙烯和极性的玻璃纤维的界面粘结强度。
The key point to prepare glass fiber re-enforced polypropylene composite(PP/GF)is to improve the interfacial strength of non-polar polypropylene and polar glass fiber.
单纤维段裂试验作为复合材料界面剪切强度的一种测试方法被沿用至今。
The interfacial shear strength (IFSS) between fibers and resin was measured by the microbond test.
采用液相烧结法将爆炸压实后的WC钢结硬质合金粉末复合在碳钢表面,对不同烧结温度下的界面组织和抗剪强度进行了研究。
WC steel-bonded cemented carbide powders being compacted by explosive compaction were bonded to the surface of carbon steel using liquid phase sintering.
通过GB/HDPE的拉伸实验和断口形貌分析,研究了颗粒体积分数、拉伸速率、界面强度对GB/HDPE复合材料力学性能的影响。
The effects of particle volume fraction, tensile rate and interface bonding strength on the properties of GB/HDPE composites were studied by tensile test and SEM observation.
通过良好的界面控制,可显著提高复合材料的弯曲强度和弯曲模量,模量的提高比强度的提高幅度更大。
Flexural strength and modulus of super-hybrid composite can be improved greatly by the better interfacial control. And the increasing rate of flexural modulus is more than that of flexural strength.
将基体的剪切强度处理为界面滑动应力,可以预测该复合材料的纵向强度。
The longitudinal strength of the composite can be predicted by using the rule of mixtures when the shear strength of the matrix is selected as the interfacial sliding stresses.
在常响应界面情况下,复合材料横向拉伸应力-应变曲线存在明显的转折点,对应于界面分离的起始点,转折点的位置取决于界面粘结强度。
The stress-strain curve under transverse loading of MMCs has a corner point, associated with the initiation of interfacial de-bonding, which is determined by the interfacial bonding strength.
在常响应界面情况下,复合材料横向拉伸应力-应变曲线存在明显的转折点,对应于界面分离的起始点,转折点的位置取决于界面粘结强度。
The stress-strain curve under transverse loading of MMCs has a corner point, associated with the initiation of interfacial de-bonding, which is determined by the interfacial bonding strength.
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