这束光使人工晶体上的光敏物质聚合,并改变形状,这意味着眼科学家能够调节这些晶状体来改变它的功效。
This causes it to polymerise and then change shape, which means the ophthalmologist can tweak the lens to alter its power.
在冲击加载下,晶体材料中产生了位错和塑性变形。在强冲击时还可出现相变变化。
Dislocation and plastic deformation was produced in crystal material under shock loading. phase change could occur when shock loading was strong.
其衍射斑点的形态、衬度及条纹变化反映了金刚石晶体结构变形的程度和复杂性。
Contrast and the interior structure of reflexes in Laue patterns indicate the degree and complexity of crystal deformation.
本文通过理论分析与数值计算,对板条状激光晶体热变形进行了详细的研究。
In this paper, we study thermal distortion of the laser crystal by the theory of elasticity and numerical method.
采用数值计算方法分析板条状激光晶体的热变形,并与物理方法所得结果进行比较。
Numerically analyze the thermal distortion of slab laser crystal. And compare the result with the result from physics theory.
本文从原理与实验两方面论述了用新的全息记录材料—硅酸盐晶体及自动计算全息图的实时全息干涉术来测量薄板受力后的变形。
In this article we have theoretically and experimentally discussed how the deformation of a stressed thin plate is measured by real-time holography with bso-crystal and automatic hologram calculation.
结果表明:ASB的形态、大小和数量受材料的预冷变形程度、 成分、晶体结构、相组成等因素的影响;
The results indicated that the shape, size and quantity of ASBs a re affected by the factors of pre-deformed degree, crystal structure, ph ase states etc.
科学实验证明,紫外线会损伤角膜和眼晶体,引发白内障、眼球晶体变形。
Scientific evidence shows that UV damage the cornea and eye crystal, and lead to cataracts, eye lens distortion.
基于韧性单晶体实验现象,建立了描述晶体塑性变形的离散滑移模型。
Based on the experiment results of single crystals, a discrete slip model is established to describe the crystal plastic deformation.
其独特的,增加了强度,刚度晶体结构的结果,热变形温度和负荷下表现为均聚物。
Its unique crystalline structure results in increased strength, stiffness, heat distortion temperature and performance under load as a homopolymer.
随着变形温度的降低、变形程度和变形速率的增大,再结晶晶粒尺寸减小,再结晶体积分数增大。
With the decreases of deformation temperature and increases of deformation degree and deformation rate, the recrystallized grain size decreases and the recrystallization volume percent increases.
对基于晶体变形的压电效应的研究现状和应用进行阐述和讨论。
The piezoelectric effects based on crystalline deformation (namely the torsional effect and the bending effect) were introduced and analyzed herein.
基于晶体塑性变形的滑移机理和微观硬化机制,建立了相应的运动学描述和基于率无关的晶体本构方程。
Based on crystalline plasticity slip and strain hardening model, a rate-independent polycrystalline plasticity model was developed and introduced into finite element method.
铜单晶线材中位错蚀坑密度与材料浸蚀时间,变形量以及晶体学取向有关。
The dislocation etch pits density(EPD) of copper single wires is related with corroded time, deformative extent and crystal orientation of material.
采用变形有限元法对坩埚下降法晶体生长过程进行了瞬态数值模拟。
Transient numerical simulation for Bridgman method was carried out by means of deforming finite element method .
通过变形、压密、阻挡、涡流等显微构造标志确定流动方位;利用长条状晶体的长轴方向确定流动线理。
The flow orientation were determined by microstructural indicators such as deformation, compaction, obstruction and the whirling of lava flows;
由于约束较少,孔洞周围和两孔洞间的区域塑性变形较大,晶体的转动和滑移主要集中在孔洞周围以及两孔洞间的区域。
The rotation of the crystalline lattice and plastic activity on slip systems are mainly concentrated in the region around voids.
试验结果表明,脆性材料的延性切削模式的实现是由于云母晶体对裂纹走向的引导和玻璃相的强烈的剪切变形能力的共同作用。
The test results show that the mechanism of ductile-mode material removal of the brittle material is attributed to a combination of.
结果虹膜周边前粘连6只眼,瞳孔变形12只眼,均与人工晶体襻的位置有关;
Results (1) There were 6 eyes with peripheral anterior synechia of the iris, 12 eyes with abnormal pupillary configuration, which were related to the position of IOL haptics.
从材料的多晶体结构角度,基于晶体塑性变形理论建立了多晶体模型。
From the viewpoint of multi-grain structure of material, a polycrystal model is founded based on the crystal plasticity theory.
当一系列的实验显示骨骼是压电的,就意味着使它的结晶体结构弯转变形产生局部电流。
That's when a series of experiments showed that bone is piezoelectric, meaning that bending or deforming its crystal structure creates local electric currents.
晶体塑性理论起源于20世纪20年代,包括单晶塑性本构理论和多晶塑性本构理论,能够深刻揭示材料变形的规律。
Crystal plasticity theory stemming from 1920s includes single crystal constitutive theory and polycrystal constitutive theory, which disclosures laws of material deforming.
变形温度高则回复快,晶体缺陷消失速度快,不利于晶粒的细化,甚至还会出现晶粒长大现象。
This adversely affects the ability of ECAP to refine grains as it depends on accumulated dislocations and other defects to form ultrafine grains.
在考虑晶体克尔效应非常强时,空间孤子可以在光电晶体中稳定地、不变形的传输,具有理想信息载体的传输特性.。
Spatial soliton propagates steadily and in- deformedly when Kerr effect changes very strong, and it possesses the characteristics of ideal information carrier.
在考虑晶体克尔效应非常强时,空间孤子可以在光电晶体中稳定地、不变形的传输,具有理想信息载体的传输特性.。
Spatial soliton propagates steadily and in- deformedly when Kerr effect changes very strong, and it possesses the characteristics of ideal information carrier.
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