提出了托盘弯曲强度和刚度的条件。
The qualification of pallet's bend strength and bend stiffness were put forward.
复合材料的弯曲强度和拉伸强度稍有降低。
The flexural strength and tensile strength slightly decreased.
弯曲强度显著增加200和400小时的老化只。
Bending strength significantly increased after 200 and 400 hours of aging only.
在侧向纤维方向的材料弯曲强度也可发现相同的趋势。
The similar tendency was also found in the transverse flexural strength of the composites.
研究了纤维增强塑料(FRP)拉挤型材的弯曲强度。
研究表明制品在各流动方向上的弯曲强度有很显著的差别。
Results showed that the flexural strength of ESMC parts was different at different direction of fiber orientation.
选择合适的水分可以提高板材静弯曲强度,减小板材变形。
The proper quantity of water selected may increase the static bending strength and decrease the transfiguration of plates.
但抗弯曲强度和冲击强度及较高的延性,与金属不相上下。
But the ductility of flexural strength and impact strength and higher, and the metal be roughly the same.
结果表明,复合齿形齿轮比渐开线齿形齿轮具有更高的弯曲强度。
The results are compared to those of the standard involute gear and proof that the bending strength of the composite profile tooth is higher than that of involute one.
目的研究不同处理方式对白榴石增强陶瓷的双轴弯曲强度的影响。
Objective To study the effects of different treatment methods on the biaxial flexural strength of hot pressable ceramic.
木粉的碱化处理使复合材料的弯曲强度和弯曲模量分别下降20。
Alkaline treatment of wood flour makes flexural strength and flexural modulus of the composite decrease by 20.
达到极限弯曲强度后,应力速率继续增加,弯曲强度值呈减小趋势。
After reaching maximal flexural strength, with the increase in stress rate, the flexural strength decreases instead.
考虑系统误差和轮齿综合柔度,对齿轮弯曲强度的计算力点进行研究。
Considering the system errors of gear drive and teeth synthetic flexibility, the loading point of bending strength was studied.
材料密度对弯曲强度和模量影响很大,但对弯曲挠度基本没有影响。
The results also show that the density has a great impact on the strength and modulus rather than the flexural deflection.
齿轮弯曲强度分析是轮齿承载能力、振动、噪声及修形等研究的基础。
The gear bending strength analysis is a foundation in research, such as gear power capacity rating, profile correction, as well as vibration and noise of gearing.
力学性能显示,加入HA微粒后,弯曲强度和弯曲模量均得到了提高。
Mechanical property showed that bend intensity and bend mould were both enhanced after addition of ha granules.
最后,对马达的薄弱零件——叶片进行了弯曲强度与接触强度的校核。
Finally, the weak part of the motor -the blade has been carried on crooked intensity and check exposed to the intensity.
结果随着碳纤维含量的增加,根管桩的弯曲强度和剪切强度均逐渐增加。
Results the transverse strength and shear strength were increased with the increase of the carbon fiber content.
毛竹沿径向的弯曲强度和弯曲模量从最内层竹黄处向最外层竹青处逐渐增大。
With respect of bamboo, bending strength and modulus of rupture increased gradually from inboard bamboo inner place to outboard bamboo skin in the radial direction.
试验内容包括海冰的温度、盐度、密度、晶体结构、单轴压缩强度和弯曲强度。
The test conducted includes the temperature, salty, density, crystal structure, uniaxial compressive strength and flexural strength of sea ice.
进一步延长或缩短脉冲电流烧结时间,烧结体的密度、硬度和弯曲强度反而下降。
With prolonged or shortened pulse electrical current sintering time, the density, hardness and bend toughness of the sintered materials decreased.
目的:观察义齿基托树脂断面丙酮化学处理对树脂粘接修理后的弯曲强度的影响。
Objective: TO investigate the effect of etching acrylic resin by chemical surface treatment on repair strength.
目的:比较整体固化与分层固化光固化复合树脂的压缩强度、拉伸强度及弯曲强度。
AIM: To compare the compressive strength, tensile strength and flexural strength of bulkily filled and incrementally filled visible light-cured composite resin.
结果表明:对于一定的混杂复合材料,弯曲强度随着某一位置层错数目的减少而增加;
The result shows that, for a definite hybrid composite, the bending strength increases as the numbers of the plies drop-off at a station reduce.
偶联剂处理使高硅氧纤维与树脂基体的粘结强度增加,从而提高复合材料的弯曲强度。
After high silica fiber is treated by coupling agent, excellent interfacial cohesion and flexural strength of super-hybrid composite are obtained.
用SEM和TEM观察了材料的显微结构,指出弯曲强度增加是由于荷载从基体转移到晶须。
The microstructure examined by SEM and TEM indicates that the increase in bending strength is found to be dependent on the load shift from matrix to the whisker.
然后对三种固定方法对固定骨段的应力遮挡率、不同加载方向的弯曲强度和扭转强度进行测试。
The stress shielding rate, bending strength of different directions and torsion strength of the three different fixation methods were measured and compared.
测试了塑木板材的拉伸强度、弯曲强度、冲击强度、拉伸弹性模量、弯曲弹性模量等力学性能;
The tensile strength, bending strength, impact strength, tensile modulus of elasticity and bending modulus of elasticity were determined.
研究了模压成型过程中加压时机、冷却方式及人造石墨原料对复合材料电导率和弯曲强度的影响。
The influences of different synthetic graphite, pressure applying moment and cooling-down methods on electrical conductivity and bending strength of the composites were investigated.
在机构强度分析中,阐述了凸轮-针轮副啮合齿面接触强度、针齿销的弯曲强度计算和刚度计算。
Not only the contact strength between the CAM and the rollers is discussed, the flexural strength and rigidity of the rollers are also discussed.
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