1) low carbon ductile iron
低碳球墨铸铁
1.
SEM and TEM examination showed that the graphite in low carbon ductile iron formed nucleus and grew up based on the sulfide and oxide of manganese and calcium.
低碳球墨铸铁是经SX变质剂处理以后获得的一种新材料,其中的石墨细小、圆整、分布面广;对其石墨球进行了扫描电镜、电子探针及透射电镜分析。
2.
The microstructure of low carbon ductile iron inoculated by Sx inocula was studied.
用透射电镜和扫描电镜研究了经Sx变质处理的低碳球墨铸铁的显微组织,对基体和石墨进行了分析。
2) nodular cast iron
球墨铸铁
1.
Study on wind cooling strengthening process of nodular cast iron;
低牌号球墨铸铁风冷强化工艺的试验研究
2.
Analysis and Prevention About Graphite Blooming of the Nodular Cast Iron;
球墨铸铁石墨开花问题的分析与防范
3.
Harrow Piece of Nodular Cast Iron in Squeezing Casting;
球墨铸铁耙片挤压铸造新工艺
3) ductile iron
球墨铸铁
1.
Oxidation resistance of hot-dip aluminizing on ductile iron;
球墨铸铁热浸镀铝的抗氧化性
2.
Application of Numerical Simulation to Eliminate Shrinkage Hole in the Ductile Iron Hub Casting;
数值模拟在消除球墨铸铁轮毂缩孔中的应用
3.
Casting Process for Large Thick-Section Ductile Iron Housing;
大型厚断面球墨铸铁机架的铸造
4) spheroidal graphite cast iron
球墨铸铁
1.
Influence of high magnetic field annealing on structure of spheroidal graphite cast iron;
强磁场对球墨铸铁退火处理的影响
2.
Austenite Dendrite and Segregation in Spheroidal Graphite Cast Iron——Latest development of the basic theory of spheroidal graphite cast iron(III);
球墨铸铁中的奥氏体枝晶及球墨铸铁的偏析——球墨铸铁基础理论的最新发展(三)
3.
The research on bainite-martensite(B-M)spheroidal graphite cast iron;
贝氏体—马氏体(B—M)球墨铸铁的研究
5) Nodular iron
球墨铸铁
1.
One kind of nodular iron with molybdenum and moderate silicon was developed according to foreign relevant technical standards.
根据国外相关技术标准,设计、研制了中硅钼球墨铸铁,并测试、分析了其铸态组织、力学性能、抗高温氧化性能。
2.
Optimum microstructure with excellent strength and toughness were designed in a nodular iron in the light of the understanding on the mechanical behaviour of graphite and graphite-matrix interface in cast iron.
根据球墨铸铁断裂过程中石墨及石墨-基体界面的微观力学行为,为提高其强韧性,对球墨铸铁组织进行优化设计:以强相(马氏体)或强韧相(奥氏体-贝氏体)环包围石墨,基体组织为马氏体或奥氏体-贝氏体,加上适量的铁素体,并通过适当的热处理工艺实现。
3.
In order to find a quick and accurate test method for discriminating the nodular iron from the gray iron on the production spot, ultrasonic attenuation tests were conducted on both the nodular iron and gray iron specimens with different thicknesses by adopting the ultrasonic waves with different frequencies.
为了找到快速准确鉴别球墨铸铁件与灰口铸铁件的现场检测方法,采用不同频率的超声波对不同厚度的球墨铸铁和灰口铸铁试样进行了超声衰减测试,发现灰口铸铁件超声衰减明显,而球墨铸铁件超声衰减微乎其微。
6) Ductile cast iron
球墨铸铁
1.
The research of laser cladding Co-base alloy coating on ductile cast iron;
球墨铸铁表面激光熔覆钴基合金涂层的研究
2.
Study on the corrosion-erosion behavior of martensitic ductile cast iron;
马氏体球墨铸铁冲蚀腐蚀磨损特性研究
3.
Measurement of fatigue damage of ductile cast iron with electrical resistivity;
用电阻法测量球墨铸铁的疲劳损伤
补充资料:球墨铸铁
析出的石墨呈球形的铸铁。球状石墨对金属基体的割裂作用比片状石墨小,使铸铁的强度达到基体组织强度的70~90%,抗拉强度可达120kgf/mm2,并且具有良好的韧性。球墨铸铁除铁外的化学成分通常为:含碳量3.6~3.8%,含硅量2.0~3.0%,含锰、磷、硫总量不超过1.5%和适量的稀土、镁等球化剂。
球墨铸铁生产工艺简单,铸造性能比铸钢好(但比灰口铸铁差),成本低,因此,被广泛用来制作受力复杂,对强度和韧性以及耐磨性要求较高的零件,如曲轴、齿轮、高压缸、汽车底盘零件等。20世纪70年代全世界的球墨铸铁管的年产量达数百万吨。中国古代铸铁中亦有球状石墨的组织(见冶金史)。
球墨铸铁生产工艺简单,铸造性能比铸钢好(但比灰口铸铁差),成本低,因此,被广泛用来制作受力复杂,对强度和韧性以及耐磨性要求较高的零件,如曲轴、齿轮、高压缸、汽车底盘零件等。20世纪70年代全世界的球墨铸铁管的年产量达数百万吨。中国古代铸铁中亦有球状石墨的组织(见冶金史)。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条