在24小时之内,会形成粒状组织,用以填充受伤区域或将其从身体移除。
Within 24 hours, granulation tissue forms to fill in areas damaged or removed from the body.
粒状贝氏体及粒状组织中的M-A岛不是该钢焊接热影响区过热区脆化的原因。
The M-A units in granular bainite and granular structure are not the cause of embrittlement.
予处理温度对针状组织的性能基本无影响,但升高予处理温度对颗粒状组织的性能有害。
The heating temperature of pretreatment hasn't much influence on the properties for acicular structure, but it is detrimental to the properties for granular structure.
这种粒状组织,与针状铁相相比,对合金性能的影响要小得多,甚至可以起到强化组织的作用。
This kind of granular structure is less harmful to the properties of the alloy than the needle like iron phase, and even can be functional to strengthen structure.
经稀土变质处理的铸铁组织细化,其碳化物呈团块状或颗粒状,从而提高了力学性能。
The cast iron modified by re offers refined microstructure in which the carbides become blocky or granular, thus increasing the mechanical properties.
采用大的线能量焊接,形成较多的上贝氏体和粒状贝氏体组织,对改善接头性能有利。
With large welding heat input, more upper Bainite and granular Bainite form, which is benefit to improve the property of HAZ.
结果表明,热轧后能够获得多边形铁素体、粒状贝氏体和大量稳定的残留奥氏体组织。
The results show that polygonal ferrite, granular bainite and larger amount of stabilized retained austenite can be obtained after hot rolling.
论证了所谓粒状贝氏体组织实际上是这种演化过程的阶段性组织特征。
It is proved that the so-called granular bainite microstructure is nothing else but the structural characteristic at a certain stage of this evolution.
试验钢由针状铁素体和少量块状铁素体组成,焊缝为典型的针状铁素体组织,焊接热影响区粗晶区以粒状贝氏体为主。
The toughness of weld metal is the highest while the coarse grained region in the HAZ is the lowest because of welding thermal cycle and formation of brittle microstructure.
结果表明:在不同的焊接热循环条件下,焊接粗晶区组织主要是板条贝氏体和粒状贝氏体。
The result show that the microstructure formed after thermal cycle was mainly lath bainite and granular bainite in CGHAZ .
从20年生植株的多种外植体诱导产生的愈伤组织出现了四种形态类型即白色粉末状、浅黄色糊状,白色夹红色粉状和淡绿色颗粒状愈伤组织。
The callus come from 20 year's old tree's explants have four types, they are white powder, light yellow paste, white with red powder and light green pellet.
试验结果表明,该钢在空冷条件下可获得均匀的粒状贝氏体组织,具有良好的耐回火性和较高综合力学性能。
It shows that even granular bainite structure can be obtained in the condition of air quenching. The temper resistance is better and comprehensive mechanical properties of the steel are higher.
以板条马氏体为原始组织,慢速加热可使粒状贝氏体继承原组织特征。
When plate martensite is taken as original structure, the slow heating can make gram bainite inherit structure feature of original structure.
经过固溶处理后,焊缝组织晶粒变大,焊缝区和母材区弥散分布着大量的颗粒状析出物。
After solution treatment, the weld grains become coarse along with a large amount of granular precipitates dispersed in weld zone and base metal zones.
结果表明,该低碳贝氏体钢的微观组织主要为板条贝氏体、粒状贝氏体、准多边形铁素体及针状铁素体的复合组织。
The results indicate that the microstructure of specimen is mainly lathe bainite, granular bainite, quasi-polygonal ferrite and acicular ferrite.
X100管线钢的显微组织以粒状贝氏体为主,同时弥散分布着大量细小的M/A岛和少量的板条贝氏体;
Moreover, the microstructure of X100 pipeline steel mainly consists of massive granular bainite, and some fine and dispersive M/A islands with a few lath bainite in the matrix also.
随着冷却速率的增加,实验钢的显微组织由铁素体+粒状贝氏体逐步转变为板条贝氏体+板条马氏体及板条马氏体组织;
The microstructure of the steel transforms from ferrite plus granular bainite, lath bainite plus lath martensite and then to lath martensite successively with the increasing of cooling rate;
随着冷却速率的增加,实验钢的显微组织由铁素体+粒状贝氏体逐步转变为板条贝氏体+板条马氏体及板条马氏体组织;
The microstructure of the steel transforms from ferrite plus granular bainite, lath bainite plus lath martensite and then to lath martensite successively with the increasing of cooling rate;
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