材料工程
材料工程
재료공정
JOURNAL OF MATERIALS ENGINEERING
2009年
7期
39-42
,共4页
代永娟%唐荻%米振莉%江海涛%吕建崇
代永娟%唐荻%米振莉%江海濤%呂建崇
대영연%당적%미진리%강해도%려건숭
层错能%TWIP钢%锰含量%变形机制
層錯能%TWIP鋼%錳含量%變形機製
층착능%TWIP강%맹함량%변형궤제
stacking fault energy%TWIP steel%manganese content%deformation mechanism
根据层错能的热力学模型,计算了Fe-XMn-3Si-3Al 系高强度高塑性TWIP钢的层错能.计算结果表明,随锰含量增加Fe-XMn-3Si-3Al系 TWIP钢层错能增加,在此基础上讨论了锰含量对Fe-XMn-3Si-3Al 系TWIP钢变形机制、力学性能和微观组织的影响.在合金中Mn含量的提高使层错能增加,而层错能的增加使Fe-XMn-3Si-3Al系钢表现出不同的变形机制,即逐渐由TRIP效应变为TWIP效应;同时随着Mn含量的提高,合金的抗拉强度降低,而塑性提高.
根據層錯能的熱力學模型,計算瞭Fe-XMn-3Si-3Al 繫高彊度高塑性TWIP鋼的層錯能.計算結果錶明,隨錳含量增加Fe-XMn-3Si-3Al繫 TWIP鋼層錯能增加,在此基礎上討論瞭錳含量對Fe-XMn-3Si-3Al 繫TWIP鋼變形機製、力學性能和微觀組織的影響.在閤金中Mn含量的提高使層錯能增加,而層錯能的增加使Fe-XMn-3Si-3Al繫鋼錶現齣不同的變形機製,即逐漸由TRIP效應變為TWIP效應;同時隨著Mn含量的提高,閤金的抗拉彊度降低,而塑性提高.
근거층착능적열역학모형,계산료Fe-XMn-3Si-3Al 계고강도고소성TWIP강적층착능.계산결과표명,수맹함량증가Fe-XMn-3Si-3Al계 TWIP강층착능증가,재차기출상토론료맹함량대Fe-XMn-3Si-3Al 계TWIP강변형궤제、역학성능화미관조직적영향.재합금중Mn함량적제고사층착능증가,이층착능적증가사Fe-XMn-3Si-3Al계강표현출불동적변형궤제,즉축점유TRIP효응변위TWIP효응;동시수착Mn함량적제고,합금적항랍강도강저,이소성제고.
The stacking fault energy of the Fe-XMn-3Si-3Al system alloys was calculated according to the thermodynamic model of stacking fault energy. The calculated results showed that the stacking fault energy of Fe-XMn-3Si-3Al system alloys increased with increasing manganese content. The influence of Manganese content on the deformation mechanisms, mechanical properties and microstructure of Fe-XMn-3Si-3Al system alloys was discussed based on above results. With the increasing of manganese content, the Fe-XMn-3Si-3Al system alloys show different deformation mechanisms from the TRIP effect turns to the TWIP effect. At the same time, the strength decreasing and the elongation increasing.
