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Thermal-induced inverse γ/α′ phase transformation in surface nanocrystallization layer of 304 stainless steel

机译：304不锈钢表面纳米晶层中的热诱导γ/α'逆相变

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Thermal stability of the surface nanocrystallization layer of 304 stainless steel prepared by surface mechanical attrition was studied. The XRD results revealed that the surface nanocrystalline layer was composed of γ austenite and α′ martensite phase, and the nanocrystalline kept good size stability under the thermal treatment as high as 773 K. However, according to the Mössbauer spectroscopy analysis, the α′ martensite could be subdivided into three types (M1, M2 and M3) with different magnetic hyperfine fields, H hf, which were characterized by the coordination number of alloying atoms in the environment of Fe atom. It indicated that the M3 was partly decomposed into the M1 and austenite after annealing at 573 K. However, when thermal treatment temperature was high up to 773 K, both the M3 and M2 were completely transformed into the M1 and austenite. The alloying atoms in the M3 and M2 were redistributed and enriched in the austenite accompanied with the inverse γ/α′ phase transformation.

机译：研究了通过表面机械磨损制备的304不锈钢表面纳米晶化层的热稳定性。 XRD结果表明，表面纳米晶层由γ奥氏体和α'马氏体相组成，纳米晶在773K的高温下仍保持良好的尺寸稳定性。然而，根据Mössbauer光谱分析，α'马氏体可以将超细磁场H hf分为三种类型（M1，M2和M3），它们的特征是Fe原子环境中合金原子的配位数。这表明M3在573K退火后部分分解为M1和奥氏体。但是，当热处理温度高达773K时，M3和M2都完全转变为M1和奥氏体。 M3和M2中的合金原子被重新分布并富集在奥氏体中，并伴有逆γ/α'相变。

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Chen AY; Zhang JB; Song HW; Lu J;
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年度 2007
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1. Thermal-induced inverse gamma/alpha ' phase transformation in surface nanocrystallization layer of 304 stainless steel [J] . Chen AY, Zhang JB, Song HW, Surface & Coatings Technology . 2007,第16a17期

机译：304不锈钢表面纳米晶层中的热诱导逆γ/α'相转变
2. Necking propagated deformation behavior of layer-structured steel prepared by co-warm rolled surface nanocrystallized 304 stainless steel [J] . A.Y. Chen, J.B. Zhang, J. Lu, Materials Letters . 2007,第30期

机译：共温轧制表面纳米结晶304不锈钢制备的层状结构钢的颈缩扩展变形行为
3. Characterization of the phase transformation in a nanostructured surface layer of 304 stainless steel induced by high-energy shot peening [J] . Ni ZC., Wang XW., Wang JY., Physica, B. Condensed Matter . 2003,第1a2期

机译：高能喷丸引起的304不锈钢纳米结构表层相变的表征
4. Pulsed laser beam welding of 304 to 304L stainless steel: effects of welding parameters on cracking and phase transformations [C] . Patrick W. Hochanadel, Mark J. Cola, Ann M. Kelly, Materials Solutions on Joining of Advanced and Specialty Materials Conference . 2002

机译：脉冲激光束焊接为304至304L不锈钢：焊接参数对开裂和相变的影响
5. Influences of Grain boundaries and Surface Nanocrystallization on stainless steel on Psedomonas aeruginosa Biofilm's adherence. [D] . Yu, Bin. 2011

机译：晶界和表面纳米化对不锈钢对铜绿假单胞菌生物膜粘附的影响。
6. Phase formation in selected surface-roughened plasma-nitrided 304 austenite stainless steel [O] . Gajendra Prasad Singh, Alphonsa Joseph, Prakash Manohar Raole, 2008

机译：选定的表面粗糙化等离子氮化304奥氏体不锈钢中的相形成
7. Necking propagated deformation behavior of layer-structured steel prepared by co-warm rolled surface nanocrystallized 304 stainless steel [O] . Chen AY, Zhang JB, Lu J, 2007

机译：共温轧制表面纳米结晶304不锈钢制备的层状结构钢的颈缩扩展变形行为
8. Hydrogen-Induced Phase Transformations in Type 304L Stainless Steels [R] . Holzworth, M. L., Louthan, M. R. 1968

机译：304L不锈钢中的氢致相变

Thermal-induced inverse γ/α′ phase transformation in surface nanocrystallization layer of 304 stainless steel

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