带状组织

石油专用管中的带状组织对低温区CO2腐蚀的影响

Influence of banded structure in special oil tube on co_2 corrosion behavior at low temperatures

为了提高石油专用管抗CO2腐蚀性能，应控制带状组织级别。

In order to improve the resistance to CO_2 corrosion of pipelines , the banded structure grade should be controlled .

为避免带状组织及HIC，要控制Mn、P含量。

It should control content of Mn and P in order to avoid band structure and HIC .

带状组织对SSCC和CO2腐蚀的影响

Effects of band structure on SSCC and CO 2 corrosion

经过研究发现，含有最多夹杂物的腹板与翼缘连接的圆角处反而拥有最好的Z向性能，其原因在于该位置带状组织并不明显和成型时所处的三向压应力状态。

The angular position , which contains most inclusions , has the best Z-direction performance because of its unobvious banded structure and three dimensional stress .

管线钢带状组织对CO2/H2S腐蚀行为影响的比较分析

A comparative analysis of the effects of CO_ ( 2 ) / H_ ( 2 ) S corrosion on banded pipeline steel structure

带状组织对管线钢抗氢诱发开裂（HIC）性能的影响

Influence of banded microstructure on hydrogen-induced cracking ( HIC ) resistance of pipeline steel

讨论了Z相，带状组织和晶界析出相对畴壁的作用，探讨了在高Hc状态下非均匀钉扎的机构。

The action of " Z " phase , zonal structure and grain boundary precipitates on domain walls are discussed and a machanism of heterogeneous pinning at the high coercivity is suggested .

论述了对20G锅炉管子材料中存在的带状组织进行了横向力学性能的研究。

: This paper describes the banded microstructure on horizontal properties of 20G boiler tube .

Cr－Ni－Mo合金渗碳钢由于钢中合金元素和碳的偏析，经一般退火后存在比较严重的带状组织。

Because of the segregation of alloy element and carbon in steel , there exists severe band structure in the carburizing steel containing Cr. Ni and Mo after normal annealing .

连铸JW钢中板的静弯特性及带状组织的影响

Static Bending Properties and the Effect of Banded Structure of Continuous Costing JW Steel

16Mn钢板带状组织的定量分析

Quantitative Analysis of Banded Structure in 16 Mn Steel Plate

终轧温度对16Mn钢板带状组织的影响

The effect of finishing rolling temperature on banded structure of 16 Mn steel plate

因此控制带状组织的形成、获得热力学平衡且稳定的细晶粒组织是提高抗HIC性能的有效措施。

Therefore , controlling the formation of banded microstructure and receiving small grain microstructure of thermal stability were effective methods to improve the HIC resistance .

消除16Mn钢板带状组织的临界冷却速度的测定与计算

Determination and calculation of critical cooling rate eliminating banded structure of 16 Mn steel plate

玻璃先在750℃低温退火处理有利于晶体的整体析出，晶体形态由ZnO为5%时的鱼骨状变为15%时的条带状组织。

When the glass is annealed at 750 ℃ prior to crystallizing treatment , bulk crystallization is preferable and fish-bone shaped crystals and the strip-liked texture are appeared in the samples with 5.0 % and 15 % ZnO respectively .

另外介绍了母材缺陷分层、夹杂物、带状组织对ERW焊缝的危害性。

In addition , it is introduced that the layer , impurities and band structure in base material are harmful to the weld quality of ERW steel pipe .

研究结果表明：珠光体含量对氢诱发裂纹的影响不大，如果不形成珠光体带状组织，即使Mn含量较高仍具有良好的抗HIC性能。

The results suggest that the influence of pearlite content was not important to hydrogen-induced cracking . If banded microstructure was not formed , pipeline steels would have excellent HIC resistance even if Mn content was high .

得出主要结论如下：（1）2198（T851）铝锂合金板材为带状组织，强化相以T1相为主，具有较高的强度和塑性。

The following conclusions can be drawn : ( 1 ) The microstructure of 2198 ( T851 ) Al-Li alloy sheet are horizontal banded structure .

用小试样研究了连铸JW钢中板的静弯特性及带状组织的影响。

The static bending property and foe effect of banded structure have been studied with small specimens made of continuous casting medium plate of the type JW steel .

对带状组织级别不同的两种石油专用油管钢在低温区饱和二氧化碳NACE溶液（5%NaCl+0.5%CH3COOH）中进行CO2腐蚀实验，并对两种钢的腐蚀速率和腐蚀形态进行了分析对比。

At low temperatures the CO_2 corrosion of two special oil tube steels with different banded structurs was investigated in saturated CO_2 + NACE solution ( 5 % NaCl + 0.5 % CH_3COOH ) . The corrosion rate and morphology were also analyzed .

高碳热轧盘条中的带状组织及其对拉丝变形行为的影响

Formation and Deformation of Banded Structure in High Carbon Steel Rod

锻钢件带状组织的分析与热处理

Analysis of the Band Structure in Forged Steel Parts and Heat Treatment

消除低碳多元合金钢板材带状组织的试验研究

Study on Eliminating Banded Structure in Low-carbon Multi - Alloyed Steel Plate

高级别管线钢中几种常见带状组织浅析

Research on Several often Occured Band Structures of High Grade Pipeline Steel

带状组织对焊管焊缝强韧性的影响

Band Structure Influences upon Strong Toughness of Welded Pipe Seam

热轧中厚板带状组织的成因与预防措施

Causes and Preventive Measures of Banded Microstructure in Hot Rolled Heavy Plate

热轧板卷中心带状组织分析

Analysis of Band Structure in Hot Rolling Strip Center

结果表明：高碳盘条中的带状组织为马氏体。

The banded structure in SWRH77B high carbon steel rod might be martensite .

分析在热轧低碳含锰钢板上观察到的表面带状组织，讨论了带状组织形成的原因和预防方法。

Superficial banded structure was observed on hot strips of low carbon steel .