- 更多网络例句与错角相关的网络例句 [注:此内容来源于网络,仅供参考]
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Gastaldi and co-workers have observed two types of contrasts in Al-Pd-Mn IQCs: black-white double-lobe and loop-shaped, by using X-ray topography, and the facetted dodecahedral pores by phase-sensitive radiography.
Gastaldi领导的小组在结合利用X射线形貌术以及相位敏感成像术研究Al-Pd-Mn二十面体准晶单晶中的缺陷时发现两种衬度,其中已知黑白双瓣衬度是由于准晶中的五角十二面体空洞引起,而对于环形衬度则除了知道退火行为不同于位错从而不太可能是位错圈外,基本上对其缺陷的几何及性质不甚了解。
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This dissertation was focused on the research about the formation and evolution of NQB from the Late Triassic to the early middle Epoch of Jurassic Period, including integrated analyzing the characteristic of the key stratigraphic surfaces, the time of the key stratigraphy, regional rock straigraphy, biostratigraphy and chronostratigraphy, sedimentary system and depositional facies. On basis of these analysis, a tectonic evolution model have been established for NQB during from the Late Triassic to the early middle Epoch of Jurassic Period.1. After the systematic surface analysis about main stratigraphy units, we found that:(1) the bottom of Xiaochaka formation was comformity with the middle Triassic in the basin, and in the north margin it was deposited and overlapped on the different period stratigraphy before Triassic.(2) The top surface of Xiaochaka formation developed regionally karst and paleo-karst breccia, and was uncomformity with Nadigangri Formation, these things suggest that NQB in Xiaochaka depositing stage was developed from middle Triassic basin, and then an extensive regression occurred, the deposition was over and erosion come into being.(3) The lithologic assemblage, geochemistry, mixed fossils, and stratigraphy overlapping characteristic of Quemocuo Formation in early middle Jurassic indicted that the uncomformity surface was an extension-unconformity.2. Integrated analysis about stratigraphy division and correlation indicted that:(1) the paleontologic assemblage of Xiaochaka formation show its time was Carian -Norian stage of late Triassic. According to it was overlapped by late Triassic Nadigangri Formation, so Xiaochaka formation should be Carian - early Norian stage.(2) the SHRIMP Zircon U-Pb age of Nadigangri formation volcanic rocks wear vary form 216 to 205 Ma, so its time should be Norian, but maybe extended into Rhaetian Stage.(3) The age of its bottom volcanic rocks, the fossil assemblages of its middle and upper members and overlapped by lower Jurassic, indicted the age of Riganpeicuo Formation was Norian - Rhaetian stage. And the same time, the volcanic rocks geochemistry of Nadigangri and Riganpeicuo formation both reflected that they wear formed in rift tectonic settings. The lower lithologic and surface characteristic, fossil assemblages and its upper maybe was conformity with lower Jurassic, all reflected that the age of Tumengela Formation in Tumen area should be Norian - Rhaetian stage.
论文对晚三叠世—中侏罗世早期盆地的形成与演化开展了研究,包括关键地层界面特征分析、关键地层时代归属分析、区域岩石地层、生物地层和年代地层的综合对比分析、区域沉积体系与沉积相分析、岩相古地理分析,最终建立晚三叠世—中侏罗世早期羌塘盆沉积—构造动力演化模式。1、系统的对各地层单元的界面分析发现:(1)肖茶卡组底界在盆地内部与中三叠统整合关系,在盆地北缘为沉积超覆于不同时代的前三叠系之上:(2)肖茶卡组顶界面发育古岩溶角砾岩,与上覆那底岗日组为岩溶不整合接触,说明肖茶卡组沉积时期的羌塘盆地是在早中三叠世的盆地基础发展起来的,后期出现了广泛的海退事件,使盆地结束沉积并遭受风化剥蚀作用;(3)中侏罗统雀莫错组的岩性组合特征、岩石化学特征、古生物化石混积和地层的沉积超覆现象均表现出裂陷环境下形成的伸展不整合面的特征。2、综合地层划分与对比分析认为:(1)肖茶卡组古生物化石组合反映其时代为晚三叠世卡尼期—若利期,根据其上被上三叠统那底岗日组不整合覆盖,将其时代厘定为卡尼期—若利期早期;(2)那底岗日组火山岩SHRIMP锆石U-Pb年龄在216~205 Ma之间,其时代主要为若利期,可能包含有瑞替期:(3)日干配错组底部火山岩的年龄、中上部化石组合及其被下侏罗统整合覆盖,综合反映的时代为晚三叠世若利期—瑞替期,而且那底岗日组火山岩和日干配错组火山岩的地球化学成分分析反映两者均为引张构造背景下的产物;土门地区的土门各拉组的下部岩性及界面特征、化石组合和上部可能被下侏罗统整合覆盖,综合反映其时代为若利期—若利期。
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Based the above research, we chosen 48 cephalometric radiographs of skeletal classⅢocclusion (18-39 years old, ANB4°) and measured with computer assistant Delaire cephalometric analysis. The data were deal with ANOVA analysis through SAS9.0 statistical software. The research divided the cranio-maxillo-facial hard tissue structure feature of skeletal classⅢinto four classifications through Delaire cephalometric analysis including hypo-divergent, hyper-divergent, maxilla normal and glenoid fossa retrocession, nine parameters of four groups have significantly variability through ANOVA analysis(P.05),for example, anterior cranial base angle, sphenoidal angle, percentage of craniospinal area to cranial depth ,percentage of craniofacial area to cranial depth and so on.
在上述研究的基础上,首先选取48例骨性Ⅲ类错牙合畸形患者(18-39岁,ANB角4°)应用Delaire头影测量分析法进行测量,经SAS9.0行ANOVA分析,将骨性Ⅲ类错牙合畸形区分为低角型、高角型、上颌正常型和关节窝后移型四组,四组均数ANOVA分析发现九项分析指标的均数差异均有统计学意义(P.05),如蝶鞍角、前颅基底角、颅面区比和颅颈区比。
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With stress calculation analysis and experimental verification, it could be concluded that when b/s is small (.2), the disalignment could be restored by polishing. When grater, by repair welding with width no more than 100mm Meanwhile, when controlling stress level is .5, allowable value of disalignment and angle deformation could be .7s.
通过应力计算分析和实验验证可以得出:当b/s较小(b/s.2)时,错边可以用磨削方法进行修复;当b/s较大时,可用堆焊方法进行修复,且堆焊宽度H不超过100mm同时,在控制应力水平不超过1.5时,错边量和角变形量的和可以允许在不超过0.7s的范围内。
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The value of lower lip angle of inclination , mentolabial sulcus angle , upper lower lip angle is bigger than those class I malocclusion.
安氏Ⅲ类错合患者下唇倾角、颏唇沟角、上下唇角比安氏Ⅰ类错合患者的大,H角比安氏Ⅰ类错合患者的小。
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For class III malocclusion there are no significant differences in Ls-SGo,Li-SGo,upper lip length , lower lip length , Cm-Sn-Ls, upper lip angle of inclination and Li-H line . There are significant differences in lower lip angle of inclination , mentolabial sulcus angle , upper lower lip angle , H angle.
安氏Ⅰ类错合患者与安氏Ⅲ类错合患者相比,在上唇突点到SGo距离、下唇突点到SGo距离、上唇长、下唇长、鼻唇角、上唇倾角和下唇突点到H线距这些测量指标上无显著性差异;其他表示唇部形态和位置的指标,下唇倾角、颏唇沟角、H角、上下唇角都有显著性差异。
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The result manifest that characteristic of chin soft tissue profile of bony malocclusion of class I had bigger angle of chin-lip, shallower mentolabial furrow,smaller radian and larger convexity compared to that of bony malocclusion of class II, and smaller angle of chin-lip, deeper mentolabial furrow,larger radian and smaller convexity compared to that of bony malocclusion of class III.
测量结果显示:骨性II类错牙合颏部相对于正常牙合发育不足,颏唇角小,颏唇沟深,弧度较大,突度较小。而骨性III类错牙合相对于正常牙合颏部发育过度,颏唇角大,颏唇沟浅,弧度较小,突度较大。
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But the value of H angle is smaller than class I malocclusion . Campared with the data of class II malocclusion , for class III malocclusion there are significant differences in LsL , LiL , lower lip angle of inclination , mentolabial sulcus angle , H angle , upper lower lip angle , Ns-Sn-Ls . For class III malocclusion the value of LsL is shoter than class II malocclusion , but the value of LiL is longer than class II malocclusion . The value of lower lip angle of inclination , mentolabial sulcus angle , upper lower lip angle is bigger than class II malocclusion .
安氏Ⅱ类错合患者与安氏Ⅲ类错合患者相比,在上唇长、下唇长、上唇倾角、下唇倾角、颏唇沟角、H角、上下唇角和软组织轮廓这些指标有显著性差异;安氏Ⅱ类错合患者的上唇长比安氏Ⅲ类错合患者的长、安氏Ⅱ类错合患者的下唇长比安氏Ⅲ类错合患者的短;安氏Ⅱ类错合患者的上唇倾角和H角比安氏Ⅲ类错合患者的大,安氏Ⅱ类错合患者的下唇倾角、颏唇沟角和上下唇角比安氏Ⅲ类错合患者的小。
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The STM image is shown the surface structure of the single atomic height step for miscut angle of 0.5°,and the surface structure of the double atomic height step for miscut angle of 4.5°.
观察到错切角为0.5°时STM像为单原子高度台阶表面结构,错切角为4.5°时STM像为双原子高度台阶结构。
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Methods: 48 patients with Angle's Class II,division 2 malocclusion, 60 patients with Angle's Class II,division 1 malocclusion, as well as 15 patients with high-angle and 15 patients with low-angle facial skeletal type in Angle's Class II,division 1 malocclusion were separately compared with 50 patients with Angle's Class I who had normal profile by cephalometrics .
分别选取48例安氏II类2分类错患者、60例安氏II类1分类错患者以及各15例典型安氏II类1分类高低角骨面型患者为研究组,以选取的50例安氏I类正常面型患者为对照组。采用反映面骨关系的一般性测量项目与作者针对唇齿关系设计的测量项目进行比较分析。
- 更多网络解释与错角相关的网络解释 [注:此内容来源于网络,仅供参考]
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alternate angles:错角
altazimuth 地平经纬仪 | alternate angles 错角 | alternating 变号的
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alternate angle:(交)错角
algebraic operation 代数运算 | alternate angle (交)错角 | alternate segment 交错弓形
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alternate angle:错角
alternate amplifier 交流放大器 | alternate angle 错角 | alternate current generator 交流发电机
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cape:海角
P136:"他最早尝试将这本书寄给海角书局","海角"(Cape)指该公司创始人Jonathan Cape,不可以意译的. 21. P146:"草地!血淋淋的草地!" "血淋淋的"(bloody)实际是英国人爱骂的脏话,译为"操蛋的"可矣,后面还有几处错译,如译为"血腥的".
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angular misalignment:角形位错,角形错位
angular distortion 角偏差 | angular misalignment 角形位错,角形错位 | angularity of tangent line 切线夹角
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parakeratosis:角化不全 不全角化
parakeet /鹦鹉/ | parakeratosis /角化不全/不全角化/ | paralalia /出语障碍/构音倒错/
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alterate angle:错角
alterability 可变性 | alterate angle 错角 | alteration 变换;改变;改建;交替
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dyskeratosis:角化不良
角化不良(dyskeratosis)也称错角化,为上皮的异常角化,在上皮棘层或基底层内个别或一群细胞发生角化. 角化不良有两种情况:一为良性角化不良,多在高度增生的上皮钉突中出现医学教'育网搜集整理;另一种为恶性角化不良,有时可见胞核.
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Joggled frame:错折肋骨
joggled frame bar 错折肋骨角材 | joggled frame 错折肋骨 | joggled joint 折接
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joggled frame bar:错折肋骨角材
joggled beam 错折梁(铆接甲板 | joggled frame bar 错折肋骨角材 | joggled frame 错折肋骨