DAI Yongjuan
,
TANG Di
,
MI Zhenli
,
L Jianchong
钢铁研究学报(英文版)
Abstract: The present paper investigated deformatiom microstructure characteristcsl of the Fe-Mn-C TWIP steel .The results showed that the hot rolled – cold rolled - annealed sample of Fe-Mn-C TWIP steels has excellent mechanical properties, the true stress-strain curve from tension tests exhibit repeated serrations. The deformed microstructure exhibited the typical planar glide characteristics such as no cell formation, dislocation pile ups on a single slip plane, mechanical twins and stacking faults. There are equiaxial and deep dimple structures in the fractograph, it is a typical ductile fracture. microcrack initiated from inclusions and twin-twin intersections, Its deformation and mfracture processes were the formation, growth and coalescence of microvoids. Because of high amount of anganese, there are many inclusions of strip MnS, the quantity of sulphur should be controlled during steelmaking.
关键词:
planar glide;deformed twinning;stack fault energy;ductile fracture
JIANG Hai-tao
,
DING Wei
,
TANG Di
,
HUANG Wei
钢铁研究学报(英文版)
Mechanical properties and microstructure in high strength hot dip galvanizing TRIP steel were investigated by optical microscope (OM), transmission electron microscope (TEM), X-ray diffraction (XRD), dilatometry and mechanical testing. On the heat treatment process of different intercritical annealing (IA) temperatures, isothermal bainitic transformation (IBT) temperatures and IBT time, this steel shows excellent mechanical properties with tensile strength over 780 MPa and elongation more than 22%. IBT time is a crucial factor in determining the mechanical properties as it confirms the bainite transformation process, as well as the microstructure of the steel. The microstructure of the hot dip galvanizing TRIP steel consisted of ferrite, bainite, retained austenite and martensite during the short IBT time. The contents of ferrite, bainite, retained austenite and martensite with different IBT time were calculated. The results showed that when IBT time increased from 20 to 60 s, the volume of bainite increased from 14.31% to 16.95% and the volume of retained austenite increased from 13.64% to 16.28%; meanwhile, the volume of martensite decreased from 7.18% to 1.89%. Both the transformation induced plasticity of retained austenite and the hardening of martensite are effective, especially, the latter plays a dominant role in the steel containing 7.18% martensite which shows similar strength characteristics as dual-phase steel, but a better elongation. When martensite volume decreases to 1.89%, the steel shows typical mechanical properties of TRIP, as so small amount of martensite has no obvious effect on the mechanical properties.
关键词:
TRIP steel
,
isothermal bainitic transformation
,
martensite
,
mechanical property
ZHAO Cai
,
TANG Di
,
JIANG Haitao
,
ZHAO Songshan
,
LI Hui
钢铁研究学报(英文版)
The quenching and partitioning (Q&P) process was experimentally investigated on the thermomechanical simulator (Gleeble3800). The microstructure and fracture mechanism of the sheets were investigated by means of TEM. It was found that the microstructure of quenched and partitioned steel consists of fine lath martensite and thin interlath austenite films. The optimum quenching temperature of producing the maximum amount of retained austenite after final quenching at room temperature was predicted by Matlab software package. It was found that the calculations by Matlab software can provide guidance for experimental processing design reliably. The volume fraction of retained austenite at room temperature was approximately 8%, which was measured easily by the software VC60++ programming. The results verified that quenched and partitioned steel possesses a good combination of strength and plasticity due to its fine microstructure. This steel exhibited high ultimate tensile strength (exceeding 1 000 MPa) and good elongation of 25%. The results showed that the fracture mechanism of the sheets is typical tough fracture under the condition of tensile failure.
关键词:
Q&P;Matlab software;microstructure;mechanical property
ZHANG Kun
,
TANG Di
,
WU Hui-bin
钢铁研究学报(英文版)
The alloy was reheated to 580 ℃ for tempering at rates of 2, 5, 10, 20, and 40 ℃/s, respectively, after quenching. The amount, distribution, and stability of reversed austenite were investigated by X-ray diffraction (XRD) and electron back scatter diffraction (EBSD). The microstructure and cryogenic impact energy were studied by scanning electron microscope (SEM), transmission electron microscope (TEM) and Charpy V-notch (CVN) tests. The results showed that when the sample was heated at 10 ℃/s, the volume fraction of reversed austenite exhibited maximum of 8%; the reversed austenite was uniform along all kinds of boundaries; the reversed austenite contained higher concentration of carbon which enabled it to be more stable. The cryogenic toughness of the alloy was greatly improved when heated at 10 ℃/s, as the fracture surface observation showed that it mainly fractured in ductile rupture mode, which was consistent with the results of cryogenic impact energy.
关键词:
9Ni steel
,
heating rate
,
reversed austenite
,
cryogenic toughness
ZHANG Kun
,
WU Hui-bin
,
TANG Di
钢铁研究学报(英文版)
The high temperature deformation behavior of the 9Ni steel has been studied by the Gleeble-3500 tester. The relationship between deformation resistance and deformation degree, deformation temperature and deformation rate was revealed. The results show that when the deformation degree is less than 02, the deformation resistance increases by about 70 to 200 MPa, while the deformation degree varied between 02 and 04, the deformation resistance increases by about 30-40 MPa, when the deformation degree is larger than 04, the deformation resistance increases slowly, some become stable gradually. The influence of deformation temperature on deformation resistance is larger, and deformation resistance at higher temperature is about 160 MPa smaller than at lower temperature. Higher deformation rate leads to larger deformation resistance. The deformation resistance increases about 70 to 110 MPa with the increase of the deformation rate. A new and highly accurate mathematical model of the steel was established to describe the deformation behavior during rolling.
关键词:
9Ni steel
,
high temperature deformation resistance
,
mathematical model
