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界面结合层
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  “界面结合层”译为未确定词的双语例句
     Deformation behaviors in T2/QBe2 explosive cladding interface
     T2/QBe2爆炸复合界面结合层内的形变特征
短句来源
     Modern examination techniques, such as OM, EBSD and TEM were employed to investigate the plastic deformation features of T2 and QBe2 in cladding layer near the composite interface.
     利用金相显微镜、电子背散射衍射技术和透射电镜等实验手段对爆炸复合后,波形复合界面结合层内T2和QBe2金属的塑性变形特征进行了研究。
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  相似匹配句对
     Combining with B. G.
     结合B.G.
短句来源
     Referring to the self-guard mechanism of G.
     结合G.
短句来源
     FRACTURE THEORY OF INTERLAYER CRACKS
     界面断裂理论
短句来源
     THE COALESCENCE INDEX OF THE BOUNDARY OF COKES
     焦炭界面结合指数
短句来源
     The high interfacial bonding strength is due to the formation of diffusion layer between the steel substrate and the Al-Pb alloy.
     分析显示双金属界面结合强度的提高是扩散形成的结果。
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he TA2/A3 explosive cladding interface layers have been studied by TEM technique. The results show that the "metallurgical bond" of the explosive-cladding is achieved by local melting and diffusion at the contacted surface. There are microcrystals and amorphous in the molten region due to the rapid cooling rate. There are heat affected and deformed regions on the side of A3. On the side of TA2. there are adiabatic shear bands(ASB). Very small equiaxed grains(- 0. 1μm) with a low dislcation density were observed...

he TA2/A3 explosive cladding interface layers have been studied by TEM technique. The results show that the "metallurgical bond" of the explosive-cladding is achieved by local melting and diffusion at the contacted surface. There are microcrystals and amorphous in the molten region due to the rapid cooling rate. There are heat affected and deformed regions on the side of A3. On the side of TA2. there are adiabatic shear bands(ASB). Very small equiaxed grains(- 0. 1μm) with a low dislcation density were observed in ASB. Farther away from the interface in A3 and TA2 the deformation mechanism was reflected in twins, and the twin density in A3 is much low than that in TA2.

借助透射电镜(TEM)研究了TA2-A3爆炸复合界面结合层的微观结构.结果表明:该层的“冶金结合”是通过局部熔化和扩散共同作用实现的,宽约为几十微米.由宽度在100nm内变化的;由熔区和非熔区组成的界面层及A3侧的热影响区、以显微带为特征的形变区、以及TA2侧的绝热剪切带(ASB)组成.ASB内的晶粒细比成100nm内的等轴晶.且其中位错密度很低.ASB内没有发生hcp→bcc转变亦无熔化迹象.界面层的熔区内为非晶和纳米级微晶;A3基体内有少量形变孪晶:TA2基体内有高密度且相互交叉的形变孪晶

icrostructural analysis of the adiabatic shear band (ASB) occured on α-Ti side in α-Ti / mild steel explosive cladding interface were carried out by means of SEM, TEM techniques. Very small equiaxed grains (< 0.1μm) with a low dislocation density were observed in ASB. The deformatic thermomechanical state analysis in ASB showed that the shear strain was  ̄ 5, the adiabatic temperature rise was ̄1073K and the shear stress was  ̄ 150MPa in ASB. These results were explained for the first time in terms of dynamic recrystallization...

icrostructural analysis of the adiabatic shear band (ASB) occured on α-Ti side in α-Ti / mild steel explosive cladding interface were carried out by means of SEM, TEM techniques. Very small equiaxed grains (< 0.1μm) with a low dislocation density were observed in ASB. The deformatic thermomechanical state analysis in ASB showed that the shear strain was  ̄ 5, the adiabatic temperature rise was ̄1073K and the shear stress was  ̄ 150MPa in ASB. These results were explained for the first time in terms of dynamic recrystallization and superplastic deformation theories. The dramatic microstructural refinement by dynamic recrystallization enables a thermomechanical response that may lead to a superplastic deformation in ASB, which resulted in a high shear strain in ASB.

在TEM下观察了α-钛/钢爆炸复合界面的结合层内,在α-Ti一侧所产生的绝热剪切带(ASB)的微观组织与结构.结合ASB形变热力学状态分析,首次利用高应变速率下由于绝热温升使金属发生动态再结晶,从而导致晶粒组织得以细化.这种细晶组织促进了了超塑形变的发生,很好地解释了在爆炸复合(~106/s)的条件下,ASB内产生的大剪切应变.

A model for the temperature distribution across the interface during explosive cladding has been proposed. The model can be used to predict and analyse the microstructure of the explosively banded interface, and yields results that agree with those obtained using TEM.

在对爆炸复合过程的传热特点进行分析基础上 ,提出了爆炸复合界面温度场模型 ,并和钛 /钢爆炸复合界面结合层的组织结构之 TEM观察结果进行了比较。结果表明 ,该模型可用以分析和预测爆炸复合界面层的微观组织结构 ;该模型的理论预测和实验结果相吻合。

 
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