α phase
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2022 ◽  
Vol 103 ◽  
pp. 29-33
Author(s):  
Cong Wu ◽  
Qinyang Zhao ◽  
Shixing Huang ◽  
Yongqing Zhao ◽  
Lei Lei ◽  
...  
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2022 ◽  
Vol 892 ◽  
pp. 162234
Author(s):  
Fabien Briffod ◽  
Liu Hanqing ◽  
Takayuki Shiraiwa ◽  
Manabu Enoki ◽  
Satoshi Emura

Author(s):  
Atsushi Kogo ◽  
Kohei Yamamoto ◽  
Takurou N MURAKAMI

Abstract Although the all-inorganic perovskite CsPbI3 exhibits superior thermal- and photo-stability compared with organic-inorganic perovskites, formation of the photoactive α-phase requires sintering at approximately 320 oC. Herein, we report the partial substitution of Ge2+ ions for Pb2+ as a means of tuning the stability of the material and enabling α-phase formation at 90 oC.


CORROSION ◽  
10.5006/3877 ◽  
2022 ◽  
Author(s):  
Qian Wang ◽  
Liang Zhang ◽  
Junwei Zhang

In this paper, laser cladding technology was used to prepare a Fe-based coating on H13 steel substrate and its corrosion behavior in molten zinc was studied. The results show that laser-cladding Fe-based coating can effectively protect the substrate from the corrosion of molten zinc, which is mainly related to its microstructure. The typical microstructure of the coating is composed of α-(Fe, Cr) solid solution matrix and CrFeB eutectic phases continuously distribute around the matrix. When molten zinc contacts with the surface of the coating, it corrodes the α phase matrix preferentially and CrFeB eutectic phases with better corrosion resistance interweave with each other to form a three-dimensional skeletal structure, which can play the role of diffusion barrier and slow down the diffusion rate of liquid zinc. The corrosion by molten zinc leads to the formation of a transition layer and an outer corrosion layer above the coatings. With the prolongation of the corrosion time, a large number of micro cracks are generated inside the transition layer and fracture gradually occurs under the action of thermal stress. The partial spalling of the transition layer and the corrosion of α phase matrix occur at the same time, making the corrosion depth of the coating increase continuously. However, the dense corrosion layer above the coating and the dispersed boride fragments can still function as a barrier to the inward diffusion of molten zinc.


Author(s):  
Shishi Feng ◽  
Yu-Chen Wang ◽  
WanZhen Liang ◽  
Yi Zhao

The vibrationally resolved absorption spectra and ultrafast exciton dynamics in the α-phase and β-phase zinc phthalocyanine (ZnPc) aggregates are theoretically investigated by using a non-Markovian stochastic Schrödinger equation combined with...


2022 ◽  
Vol 207 ◽  
pp. 114261
Author(s):  
Jianwen Liu ◽  
Kai Zhang ◽  
Yi Yang ◽  
Hao Wang ◽  
Yuman Zhu ◽  
...  

2022 ◽  
Vol 2155 (1) ◽  
pp. 012009
Author(s):  
Mikhail Merezhko ◽  
Diana Merezhko

Abstract The reduction of ductility of austenitic stainless steels as a result of long-term operation in the nuclear reactor core is an important problem of modern radiation materials science. Understanding the mechanisms of the effect of neutron irradiation on the mechanical properties of austenitic steels is impossible without research of localization processes occurring during the deformation. In this paper, it was found that the value of the true local deformation corresponding to the onset of neck formation in face-centered cubic structured metals decreases with an increase in the radiation dose, while the true stress remains almost constant. Additional hardening of AISI 304 steel due to the intensive formation of the martensitic α’-phase increases not only the stress at which a neck is formed in this alloy, but also the true local deformation. As a result, the uniform elongation increases and remains high after neutron irradiation to 0.05 dpa. The forehanded formation of the martensitic α’-phase in sufficient quantity before the necking onset can be considered as an additional deformation mechanism that will increase the ability of the material to deform uniformly.


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