机械工程学报
機械工程學報
궤계공정학보
CHINESE JOURNAL OF MECHANICAL ENGINEERING
2009年
12期
284-288
,共5页
于庆波%孙莹%倪宏昕%张凯锋
于慶波%孫瑩%倪宏昕%張凱鋒
우경파%손형%예굉흔%장개봉
板条贝氏体%粒状贝氏体%M/A岛%低碳贝氏体钢
闆條貝氏體%粒狀貝氏體%M/A島%低碳貝氏體鋼
판조패씨체%립상패씨체%M/A도%저탄패씨체강
Lath bainite%Granular bainite%M/A island%Low-carbon bainitic steel
低碳贝氏体钢是高强度、高韧性、多用途的新型钢种,它的出现是社会需求和现代冶金技术发展的必然结果.目前,低碳贝氏体钢已经在工程机械上得到广泛应用.然而,实际生产中得到的低碳贝氏体钢并不是由单一贝氏体组织组成,往往是多种显微组织并存,因此并不能直接体现钢的力学性能与贝氏体组织之间的对应关系.针对这一情况,以低碳Mn-B-Cr-Mo-Nb钢为研究对象,在国内某钢铁公司进行控轧控冷试验.通过对终冷温度的控制,分别得到由全部粒状贝氏体,全部板条贝氏体以及粒状贝氏体+板条贝氏体组成的3种不同类型的低碳贝氏体钢.经过对这3种不同类型的贝氏体钢进行拉伸和冲击试验后发现:在化学成分相同的条件下,粒状贝氏体钢的强度最低,韧塑性最好;板条贝氏体钢板的强度最高,韧塑性最差:由粒状贝氏体+板条贝氏体组成的钢,其强度、韧塑性居中.由此可知,终冷温度对热轧钢板的显微组织和力学性能影响很大,通过对中温转变组织的控制,就可以进一步提高低碳贝氏体钢的综合力学性能.
低碳貝氏體鋼是高彊度、高韌性、多用途的新型鋼種,它的齣現是社會需求和現代冶金技術髮展的必然結果.目前,低碳貝氏體鋼已經在工程機械上得到廣汎應用.然而,實際生產中得到的低碳貝氏體鋼併不是由單一貝氏體組織組成,往往是多種顯微組織併存,因此併不能直接體現鋼的力學性能與貝氏體組織之間的對應關繫.針對這一情況,以低碳Mn-B-Cr-Mo-Nb鋼為研究對象,在國內某鋼鐵公司進行控軋控冷試驗.通過對終冷溫度的控製,分彆得到由全部粒狀貝氏體,全部闆條貝氏體以及粒狀貝氏體+闆條貝氏體組成的3種不同類型的低碳貝氏體鋼.經過對這3種不同類型的貝氏體鋼進行拉伸和遲擊試驗後髮現:在化學成分相同的條件下,粒狀貝氏體鋼的彊度最低,韌塑性最好;闆條貝氏體鋼闆的彊度最高,韌塑性最差:由粒狀貝氏體+闆條貝氏體組成的鋼,其彊度、韌塑性居中.由此可知,終冷溫度對熱軋鋼闆的顯微組織和力學性能影響很大,通過對中溫轉變組織的控製,就可以進一步提高低碳貝氏體鋼的綜閤力學性能.
저탄패씨체강시고강도、고인성、다용도적신형강충,타적출현시사회수구화현대야금기술발전적필연결과.목전,저탄패씨체강이경재공정궤계상득도엄범응용.연이,실제생산중득도적저탄패씨체강병불시유단일패씨체조직조성,왕왕시다충현미조직병존,인차병불능직접체현강적역학성능여패씨체조직지간적대응관계.침대저일정황,이저탄Mn-B-Cr-Mo-Nb강위연구대상,재국내모강철공사진행공알공랭시험.통과대종랭온도적공제,분별득도유전부립상패씨체,전부판조패씨체이급립상패씨체+판조패씨체조성적3충불동류형적저탄패씨체강.경과대저3충불동류형적패씨체강진행랍신화충격시험후발현:재화학성분상동적조건하,립상패씨체강적강도최저,인소성최호;판조패씨체강판적강도최고,인소성최차:유립상패씨체+판조패씨체조성적강,기강도、인소성거중.유차가지,종랭온도대열알강판적현미조직화역학성능영향흔대,통과대중온전변조직적공제,취가이진일보제고저탄패씨체강적종합역학성능.
Low-carbon bainitic steel is a new type steel with high strength, high toughness and multiple uses, its emergency is an inevitable result of social demand and the development of modern metallurgical technology. At present, the low-carbon bainitic steel is extensively used in construction machinery. However, the low-carbon bainitic steel is usually composed of several kinds of microstructures, so the corresponding relation between the mechanical performances of the steel and bainite structure cannot be directly reflected. In view of this situation, controlled rolling and cooling experiments of low-carbon Mn-B-Cr-Mo-Nb steel are carried out in a domestic iron and steel corporation. By the control of final cooling temperature, three low-carbon bainitic steels with different microstructure are obtained. They are respectively composed of granular bainite, lath bainite, and granular bainite + lath bainite. After tensile and impact tests, the results indicate that under the condition of identical chemical composition, the granular bainitic steel is the lowest in strength and is the best in toughness and plasticity, the lath bainitic steel is the highest in strength and is the weakest in toughness and plasticity, and the steel composed of granular bainite and lath bainite is medium in strength, toughness and plasticity. So it can be known that the final cooling temperature plays an important role in microstructure and mechanical performances of hot rolled plate. Accordingly, the comprehensive mechanical performances of low-carbon bainitic steel can be further improved by the control of medium-temperature transformation microstructure.