Strong and ductile steel via high dislocation density and heterogeneous nano/ultrafine grains

Niu, Gang; Tang, Qibo; Zurob, Hatem S.; Wu, Huibin; Xu, Lixiong; Gong, Na

doi:10.1016/j.msea.2019.04.112

Cited by 55 publications

(12 citation statements)

References 53 publications

Supporting

Mentioning

Contrasting

Unclassified

Order By: Relevance

“…The appearance of twins and the greater dislocation density generated by cold deformation following TMP improve the alloy's strength and ductility. [ 39,40 ] As can be seen in Figure 5, the volume percent of the misorientation angle increases sharply when the orientation angle is near 60°, indicating the occurrence of twins in the HEA.…”

Section: Resultsmentioning

confidence: 89%

Investigation of the Effect of the Thermo‐Mechanical Processing of Additively Manufactured CoCrFeNiAl_0.4 High‐Entropy Alloy

Chen

Zhang

et al. 2022

Adv Eng Mater

View full text Add to dashboard Cite

Thermomechanical processing (TMP) is a significant route to tune the microstructure and mechanical properties of high‐entropy alloy (HEA), which employs plastic deformation and heat treatment. Herein, bulk CoCrFeNiAl0.4 high‐entropy alloy has been fabricated by powder plasma arc additive manufacturing (PPA‐AM), which was subjected to TMP including different extents of plastic deformations and followed by annealing. The evolution of microstructure and mechanical properties of the HEAs during TMP is studied, and the contribution of strengthening mechanisms to the improvement of mechanical properties is quantified. By increasing the plastic deformation of TMP, the hardness and yield strength of the alloys increase by 94% and 105%, respectively, and are accompanied by a strain of 29.1%. Based on analysis and calculations, it is found that grain boundary strengthening significantly contributes to the improved performance of bulk CoCrFeNiAl0.4 HEA fabricated by PPA‐AM + TMP. PPA‐AM + TMP synthesis is an innovative way to prepare bulk HEAs with a refined microstructure and better mechanical properties.

show abstract

Section: Resultsmentioning

confidence: 89%

Investigation of the Effect of the Thermo‐Mechanical Processing of Additively Manufactured CoCrFeNiAl_0.4 High‐Entropy Alloy

Chen

Zhang

et al. 2022

Adv Eng Mater

View full text Add to dashboard Cite

show abstract

“…Â ðàáîòàõ [12,17,23] ïîêàçàíî, ÷òî ñìåøàííûå ñòðóêòóðû, ñîñòîÿùèå èç ìàðòåíñèòà è áåéíèòà, ìîãóò îáåñïå÷èòü íàèëó÷øåå ñî÷åòàíèå ïðî÷íîñòè è ïëàñòè÷íîñòè ñòàëåé. Ïðè ýòîì îñíîâíûìè ôàêòîðàìè, îïðåäåëÿþùèìè óðîâåíü ìåõàíè÷åñêèõ ñâîéñòâ ñòàëåé, ÿâëÿþòñÿ îáúåìíûå äîëè ñòðóêòóðíûõ ñîñòàâëÿþùèõ [24 -26], ìîðôîëîãèÿ ôàç è ïëîòíîñòü äèñëîêàöèé [18,27].…”

Section: ââåäåíèåunclassified

“…Ñëåäóåò îòìåòèòü, ÷òî îòíîñèòåëüíîå óäëèíåíèå ñòàëè, ñîäåðaeàùåé ïðåèìóùåñòâåííî ìàðòåíñèò â ñòðóêòóðå ïîñëå îáðàáîòêè ïî ðåaeèìó QT, òàêaeå äîñòàòî÷íî âûñîêîå. Ìîaeíî ïðåäïîëîaeèòü, ÷òî ýòî ñâÿçàíî ñ ÷àñòè÷íûì îòïóñêîì ìàðòåíñèòà [27].…”

Section: ìåòîäèêà ïðîâåäåíèß èññëåäîâàíèéunclassified

Влияние Прерывистой Закалки На Микроструктуру, Механические Свойства И Плотность Дислокаций Стали AISI 4340

Налджаджы

Айдын²,

Йилмаз³

et al. 2022

МиТОМ

View full text Add to dashboard Cite

Исследовано влияние прерывистой закалки на микроструктуру, механические свойства и плотность дислокаций стали AISI 4340. Проведены металлографический и рентгеноструктурный анализы, испытания на растяжение, определена твердость стали по Викерсу. Рассчитана плотность дислокаций. Рассмотрено влияние длительности выдержки при 300 °C в процессе прерывистой закалки на структуру и свойства стали. Установлено формирование дуплексной микроструктуры, состоящей в основном из мартенсита и бейнита, после прерывистой закалки по всем исследованным режимам. Показано положительное влияние дуплексной структуры на механические свойства стали AISI 4340. Установлено, что наиболее высокие значения плотности дислокаций, предела прочности и твердости получены в стали, содержащей 34,7 % бейнита, 55 % мартенсита и 10,3 % остаточного аустенита, после прерывистой закалки с выдержкой при 300 °C, 5 мин.

show abstract

“…Dislokasyon olarak tanımlanan çizgisel boyuttaki atomik diziliş hatalarının birim hacim başına toplam uzunluğu dislokasyon yoğunluğunu ifade etmektedir [20,21]. Önceki çalışmalarda malzemelerdeki faz hacim [22] ve deformasyon oranlarına [23,24] göre dislokasyon yoğunluğunun değiştiği ve bu durumun malzemenin mekanik [25] ve fiziksel özellikleri [26] üzerinde etkili olduğu belirtilmiştir. Machi ve arkadaşları ve Vershinina ve arkadaşları tarafından yapılan çalışmalarda martenzit dönüşümünün dislokasyon yoğunluğunda birkaç kat artış oluşturduğunu bildirilmişlerdir [22,27].…”

Section: Gi̇ri̇ş (Introduction)unclassified

Çift Fazlı (α + M) Küresel Grafitli Dökme Demirlerde Martenzit Hacim Oranı-Mekanik Özellikler-Dislokasyon Yoğunluğu Arasındaki İlişkilerin İncelenmesi

2022

View full text Add to dashboard Cite

show abstract

Strong and ductile steel via high dislocation density and heterogeneous nano/ultrafine grains

Cited by 55 publications

References 53 publications

Investigation of the Effect of the Thermo‐Mechanical Processing of Additively Manufactured CoCrFeNiAl_0.4 High‐Entropy Alloy

Investigation of the Effect of the Thermo‐Mechanical Processing of Additively Manufactured CoCrFeNiAl_0.4 High‐Entropy Alloy

Влияние Прерывистой Закалки На Микроструктуру, Механические Свойства И Плотность Дислокаций Стали AISI 4340

Çift Fazlı (α + M) Küresel Grafitli Dökme Demirlerde Martenzit Hacim Oranı-Mekanik Özellikler-Dislokasyon Yoğunluğu Arasındaki İlişkilerin İncelenmesi

Contact Info

Product

Resources

About

Strong and ductile steel via high dislocation density and heterogeneous nano/ultrafine grains

Cited by 55 publications

References 53 publications

Investigation of the Effect of the Thermo‐Mechanical Processing of Additively Manufactured CoCrFeNiAl0.4 High‐Entropy Alloy

Investigation of the Effect of the Thermo‐Mechanical Processing of Additively Manufactured CoCrFeNiAl0.4 High‐Entropy Alloy

Влияние Прерывистой Закалки На Микроструктуру, Механические Свойства И Плотность Дислокаций Стали AISI 4340

Çift Fazlı (α + M) Küresel Grafitli Dökme Demirlerde Martenzit Hacim Oranı-Mekanik Özellikler-Dislokasyon Yoğunluğu Arasındaki İlişkilerin İncelenmesi

Contact Info

Product

Resources

About

Investigation of the Effect of the Thermo‐Mechanical Processing of Additively Manufactured CoCrFeNiAl_0.4 High‐Entropy Alloy

Investigation of the Effect of the Thermo‐Mechanical Processing of Additively Manufactured CoCrFeNiAl_0.4 High‐Entropy Alloy