tgo

Solution Project of Constraint Adjustment of Local Coordination System Based on TGO

基于TGO系统的地方坐标系约束平差解决方案

A Kind of Method to Establish Independent Coordinate System by Means of TGO

利用TGO建立独立坐标系的一种方法

Numerical simulation of stress generated in TGO in thermal barrier systems

热障涂层系统中TGO应力生成的数值模拟

To calculate loop closure with the method of 3D coordinate component in TGO

在TGO中实现以三维坐标分量方式统计环闭合差

The TGO & TGL series can also be used in the long length cutting line .

对于长尺材剪料生产线亦可使用。

Using the Points Calibration in TGO Software to Realize the Solving of the Unknown Points in Geophysical Surveying GPS Control Network

利用TGO软件的点校正功能实现物探测量GPS控制网待定点的解算

Formation and Effect of the Oxidation Mixed Zone in TGO Beneath a Thermal Barrier Coating Prepared by EB-PVD

EB-PVD热障涂层TGO中氧化物混合区的形成及其影响

The composition variation of TGO from Al_2O_3 to mixed oxidation can be monitored by analysis IS measured during bond coat oxidation .

并根据阻抗的变化确定了粘结层的氧化过程中氧化物成分从Al2O3变化到混合氧化物的过程；

The effects of thermal cycling , working temperature and substrate curvature radii on the stress variation in coating and TGO layers were discussed , respectively .

同时还讨论了热循环次数、热循环温度、基底曲率半径对陶瓷层和氧化层内应力场的影响。

The formation process of YSZ-Al_2O_3 mixed zone in TGO and its effect on the growth of TGO and failure of TBCs were analyzed .

分析了TGO中YSZ-Al2O3混合区的形成过程及其对TGO的生长与TBCs失效的影响。

Impacted by creep and stress relaxation , the strain of bond coat layer increases irreversibly , and the TGO layer convolutes .

由于蠕变和应力松弛的影响，粘结层应变不可逆地增加，使TGO层的界面形貌出现起伏。

After the sample was oxidized , researched the feasibility that measure the thickness change of thermal growth oxidation ( TGO ) in bond coat with eddy-current method .

并对试样进行了氧化处理，进一步探索了涡流测量粘结层中热生长氧化物（TGO）厚度变化的可行性。

Meanwhile , Pre-oxidation treatment intervenes with the growth process of TGO , reduces the growth rate of TGO , and reduces the stress concentration in TGO layer .

同时预氧化处理干预了TGO的生长过程，降低TGO的生长速度，减少了TGO层应力集中现象的发生。

UV-Visible absorption results show that the optical band-gap of the TGO films is 3.8 eV approximately , and the transmittance of the films is higher than 85 % in the visible region .

吸收谱测试表明TGO薄膜在可见光范围内透过率可达到85%以上，其光学禁带宽度Eg约3.8eV。霍尔效应测试结果表明，TGO薄膜的载流子类型及其浓度与热处理温度密切相关。

Due to the rapid increase of elastic strain energy ( G_0 ) induced by the thickening of TGO , the normalized interfacial toughness (Г _i / G_0 ) decreases sharply and approaches 1 gradually .

在等温暴露过程中，界面韧性Гi变化较小；但由于TGO增厚引起涂层的弹性应变能（G0）快速增长，使得归一化的界面韧性（ГiG0）随暴露时间而急剧降低，逐渐趋于1。

The mismatch of the thermal expansion coefficient of the ceramic material and metal bond bottom layer material and TGO ( thermally grown oxide ) generated in high-temperature environment is the main reason for thermal shock failure of the abradable seal coating system .

涂层抗热震性能基本符合封严涂层要求，主要失效原因为涂层陶瓷材料与金属粘结底层材料热膨胀系数不匹配以及高温环境生成的热生长氧化物TGO引起涂层整体剥落。

The amplification capability , the heat tolerance and the ability to long PCR of Tgo DNA polymerase were examined . The results reveal that Tgo DNA polymerase has the same amplification function as Taq ( enzyme ) but with a high fidelity .

检测了重组Tgo酶的扩增性能、耐热性以及长距离PCR能力，结果表明，该重组酶扩增性能与Taq酶相当；

The growth stress of oxide scale and the thermally induced stress lead to occurance of many cracks at the interface of thermally grown oxides ( TGO ) / bond coat , resulting in failure of TBC in TGO or at the interface of TGO / bond coat .

热障涂层热循环过程中产生的热应力、氧化物长大应力等引起金属氧化物（TGO）/粘结层分界面多处开裂，最终导致热障涂层失效于TGO中或TGO/粘结层的分界面。

The result indicates that the ( amplification ) capability of Tgo enzyme is the same as that of Taq enzyme . But the amplification fidelity of Tgo enzyme is over 30 times higher than that of Taq enzyme and 1.6 times higher than that of Pfu .

该酶的扩增性能与Taq酶相当，而扩增忠实性分别比Taq酶、Pfu酶高30倍和1.6倍。