利用环氧树脂模型进行光弹性冻结试验,模拟受填土压力作用时的土坝坝下圆型涵管的受力状态。
The stress state of the circular culvert pipe under soil pressure at rest is analysed with the photoelastic simulated test of the epoxy resin model frozn.
我们胶水罐,在模型和完成与24小时环氧树脂。
We glue the tank in the model and finish it with 24 hour epoxy.
对橡胶增韧环氧树脂的增韧机理模型进行了回顾。
The model of toughening mechanisms of rubber toughened epoxy resins was reviewed.
对橡胶增韧环氧树脂的增韧机理模型进行了回顾。
The model of toughening mechanisms of rubber-toughened epoxy resins was reviewed.
使用包含一个橡胶和空穴的轴对称模型的有限元计算来分析橡胶增韧环氧树脂细观上的力学行为。
The finite element method was employed to study the micromechanics in rubber toughened epoxy resins using the axisymmetric model contained a rubber and a hole.
模型材料为环氧树脂平板。
模型材料由光学玻璃纤维增强环氧树脂制成。
Birefringent composite models are fabricated using epoxy resin reinforced with unidirectionally oriented of optic glass fibers.
试验结果表明,该环氧树脂体系的固化动力学符合自催化固化反应模型。
From the experimental data, it was found that the autocatalytic cure kinetic modeling correctly represented the cure kinetics of this system.
用全动态dsc研究了先进复合材料用高性能双组份环氧树脂的固化反应动力学,获得了固化反应的动力学参数,并建立了固化动力学的唯象模型。
The cure kinetics of a bicomponent high performance epoxy resin was studied by dynamic DSC analysis, and the parameters of the cure reaction were obtained to establish a phenomenological model.
特种模型材料由环氧树脂、增韧剂、固化剂和金属粉构成。
The special model material is composed of epoxy resins, plasticizer, solidified agent and metal power.
制备了钢质轴芯镶铸环氧树脂齿部的蜗杆模型,整体浇注了环氧树脂蜗轮模型。
The worm photoelastic model was made in the way of steel mandrel surrounded with epoxy resin tooth, and the gear was made by the method of integral cast.
制备了钢质轴芯镶铸环氧树脂齿部的蜗杆模型,整体浇注了环氧树脂蜗轮模型。
The worm photoelastic model was made in the way of steel mandrel surrounded with epoxy resin tooth, and the gear was made by the method of integral cast.
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