Microstructure evolution of zircaloy-4 during Ne ion irradiation and annealing: An<i>in situ</i>TEM investigation

Shen, Huahai; Peng, Shu Ming; Zhou, Xiao; Sun, Kai; Wang, Lu Ming; Zu, Xu

doi:10.1088/1674-1056/23/3/036102

Cited by 10 publications

(4 citation statements)

References 35 publications

(47 reference statements)

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“…The ion implantation energy was set at 400 keV with the sample normal direction, which would result in a projected range of 1330 nm that was calculated by SRIM code. [33,34] The SRIM code was also used to simulate the He irradiation induced damage and He concentrations in the Ti 3 SiC 2 matrix and the used displacement energies were 25 eV, 25 eV, and 28 eV for Ti, Si, and C, [12,35] respectively. The helium fluence was in a range from 0.5 × 10 17 He + /cm 2 to 2.0 × 10 17 He + /cm 2 , and the helium flux was set at 0.78 × 10 14 He + /(cm 2 •s) to avoid the severe irradiation heating.…”

Section: Helium Irradiationmentioning

confidence: 99%

Effects of helium irradiation dose and temperature on the damage evolution of Ti₃SiC₂ ceramic*

Shen

Zhang

et al. 2019

Chinese Phys. B

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The effects of 400 keV helium ion irradiation dose and temperature on the microstructure of the Ti3SiC2 ceramic were systematically investigated by grazing incidence x-ray diffraction, scanning electron microscopy, and transmission electron microscopy. The helium irradiation experiments were performed at both room temperature (RT) and 500 °C with a fluence up to 2.0 ×1017 He+/cm2 that resulted in a maximum damage of 9.6 displacements per atom. Our results demonstrate that He irradiations produce a large number of nanometer defects in Ti3SiC2 lattice and then cause the dissociation of Ti3SiC2 to TiC nano-grains with the increasing He fluence. Irradiation induced cell volume swelling of Ti3SiC2 at RT is slightly higher than that at 500 °C, suggesting that Ti3SiC2 is more suitable for use in a high temperature environment. The temperature dependence of cell parameter evolution and the aggregation of He bubbles in Ti3SiC2 are different from those in Ti3AlC2. The formation of defects and He bubbles at the projected depth would induce the degradation of mechanical performance.

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Section: Helium Irradiationmentioning

confidence: 99%

Effects of helium irradiation dose and temperature on the damage evolution of Ti₃SiC₂ ceramic*

Shen

Zhang

et al. 2019

Chinese Phys. B

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“…Titanium film has the advantages of good hydrogen absorption performance, high thermal stability, and low room temperature equilibrium pressure. Ti film has been used as a metal hydride in the solid phase and has played an important role in the fields of hydrogen storage [35], solar thermal energy storage [36], and nuclear energy storage [4,37,38,39]. It has been reported that the surface morphology and grain size of Ti film on a Mo substrate was severely affected by the heterogeneity of polycrystalline Mo [4,38,40].…”

Section: Introductionmentioning

confidence: 99%

Effect of Thickness of Molybdenum Nano-Interlayer on Cohesion between Molybdenum/Titanium Multilayer Film and Silicon Substrate

et al. 2019

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Titanium (Ti) film has been used as a hydrogen storage material. The effect of the thickness of a molybdenum (Mo) nano-interlayer on the cohesive strength between a Mo/Ti multilayer film and a single crystal silicon (Si) substrate was investigated by X-ray diffraction (XRD), scanning electron microscopy (SEM), and nano-indenter. Four groups of Si/Mo/Ti multilayer films with different thicknesses of Mo and Ti films were fabricated. The XRD results showed that the introduction of the Mo layer suppressed the chemical reaction between the Ti film and Si substrate. The nano-indenter scratch results demonstrated that the cohesion between the Mo/Ti film and Si substrate decreased significantly with increasing Mo interlayer thickness. The XRD stress analysis indicated that the residual stress in the Si/Mo/Ti film was in-plane tensile stress which might be due to the lattice expansion at a high film growth temperature of 700 °C and the discrepancy of the thermal expansion coefficient between the Ti film and Si substrate. The tensile stress in the Si/Mo/Ti film decreased with increasing Mo interlayer thickness. During the cooling of the Si substrate, a greater decrease in tensile stress occurred for the thicker Mo interlayer sample, which became the driving force for reducing the cohesion between the Mo/Ti film and Si substrate. The results confirmed that the design of the Mo interlayer played an important role in the quality of the Ti film grown on Si substrate.

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“…Defects and damage induced by energetic heavy ion irradiation in materials have been an interesting research subject. [5][6][7][8][9] Mica is one of the earliest materials to be used to investigate the irradiation effects of swift heavy ions (SHIs) and highly charged ions (HCIs). Etching tracks on mica induced by charged particles were observed first by Price in the 1960s.…”

Section: Introductionmentioning

confidence: 99%

Structural modification in swift heavy ion irradiated muscovite mica

et al. 2017

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Two-layer monoclinic (2M) muscovite mica sheets with a thickness of 12 µm are irradiated with Sn ions at room temperature with electronic energy loss (dE/dx) e of 14.7 keV/nm. The ion fluence is varied between 1×10 11 and 1×10 13 ions/cm 2 . Structural transition in irradiated mica is investigated by x-ray diffraction (XRD). The main diffraction peaks shift to the high angles, and the inter-planar distance decreases due to swift heavy ion (SHI) irradiation. Dehydration takes place in mica during SHI irradiation and mica with one-layer monoclinic (1M) structure is thought to be generated in 2M mica after SHI irradiation. In addition, micro stress and damage cross section in irradiated mica are analyzed according to XRD data. High resolution transmission electron microscopy (HRTEM) is used on the irradiated mica to obtain the detailed information about the latent tracks and structural modifications directly. The latent track in mica presents an amorphous zone surrounded by strain contrast shell, which is associated with the residual stress in irradiated mica.

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Microstructure evolution of zircaloy-4 during Ne ion irradiation and annealing: Anin situTEM investigation

Cited by 10 publications

References 35 publications

Effects of helium irradiation dose and temperature on the damage evolution of Ti₃SiC₂ ceramic*

Effects of helium irradiation dose and temperature on the damage evolution of Ti₃SiC₂ ceramic*

Effect of Thickness of Molybdenum Nano-Interlayer on Cohesion between Molybdenum/Titanium Multilayer Film and Silicon Substrate

Structural modification in swift heavy ion irradiated muscovite mica

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Microstructure evolution of zircaloy-4 during Ne ion irradiation and annealing: Anin situTEM investigation

Cited by 10 publications

References 35 publications

Effects of helium irradiation dose and temperature on the damage evolution of Ti3SiC2 ceramic*

Effects of helium irradiation dose and temperature on the damage evolution of Ti3SiC2 ceramic*

Effect of Thickness of Molybdenum Nano-Interlayer on Cohesion between Molybdenum/Titanium Multilayer Film and Silicon Substrate

Structural modification in swift heavy ion irradiated muscovite mica

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Product

Resources

About

Effects of helium irradiation dose and temperature on the damage evolution of Ti₃SiC₂ ceramic*

Effects of helium irradiation dose and temperature on the damage evolution of Ti₃SiC₂ ceramic*