1.
On Arrangement of Inner Tank Bottom Plates and Annular Plates of LNG Low Temperature Storage Tank
LNG低温储罐内罐底板与环板排板的探讨
2.
The Corrosion Resulted from the Chlorine Ion and Protection of the Crude Oil Bottom Plate;
CI~-对原油罐底板腐蚀分析与防护
3.
Development of the Portable Instrument for Magnetic Flux Leakage Testing of Storage Tank Floor;
便携式储罐底板腐蚀漏磁检测仪研制
4.
Study on Source Character of Acoustic Emission from the Bottom of Atmospheric Metal Storage Tank;
金属常压储罐底板声发射源特性研究
5.
Applied Inspection and Evaluation to the Coating of Bottom Plates of Steel Oil Tanks
钢质储罐底板涂层的应用检测与评价
6.
Inspection Techniques and Cathodic Protection for Crude Oil Tank Bottom Plates
原油储罐底板的检测技术及阴极保护
7.
An Investigation of the Cathodic Protection Potential Distribution on the Exterior of Steel Tank Bottom;
金属储罐底板外侧阴极保护电位分布规律研究
8.
Research on MFL Field Analysis and Visualization Technology of the Corrosion Defect in Tank Floor;
罐底板腐蚀缺陷漏磁场分析及可视化技术研究
9.
Inspecting the Storage Tank's Bottom Plate Fillet Welds by PT
渗透检测在大型储罐底板角焊缝检测中的应用
10.
MAGNETIC FLUX LEAKAGE INSPECTION AND PROBABILISTIC ANALYSIS ON CORROSION OF BOTTOM FLOOR FOR AN ATMOSPHERIC TANK
常压储罐底板腐蚀的漏磁检测与概率分析
11.
Causes Leading to Corrosion of the Bottom Plate of Crude Oil Stock Tank and Measures for Protection
原油储罐底板腐蚀的原因及其防护措施
12.
Magnetic Flux Leakage Testing of Corrosion in a 5000 m~3 Paraffin Oil Tank Bottom and Its Integrity Evaluation
5000m~3蜡油储罐底板的漏磁检测与完整性评定
13.
Protective Function of Molybdate Inhibitor for Bottom Board of Crude-Oil Storage Tank
钼酸盐系缓蚀剂对储油罐底板的防护作用
14.
Research on Magnetic Flux Leakage Testing Methods for Storage Tank Floors;
基于有限元分析的储罐底板磁性检测与评价方法研究
15.
Adopting slop protection base in large-scale oil storage tank, the stress extends fast and distributed well at the bottom of the tank.
大型油罐采用护坡式基础,应力扩散快,罐底板受力均匀,与计算假定比较接近。
16.
From the practical results, the protection potentials and protection current densities meet the design requirements and are in accord with technical standards.
从实际运行的结果看,罐底板的保护电位都达到了设计要求和标准规定,保护电位分布相当均匀。
17.
The results are near to the calculation hypothesis.
环墙式基础造成应力突变,对罐底板受力不利,在软土地基中会使环墙处的沉降形成陡降段。
18.
Processes of“Get the Ladle Done at One Go”for 6.5 Million t/a Shasteel Iron & Steel Project
沙钢650万吨钢板工程“一罐到底”工艺