A transient liquid-like phase in the displacement cascades of zircon, hafnon and thorite

The study of radiation effects in solids is important for the development of 'radiation-resistant' materials for fission-reactor applications'. The effects of heavy-ion irradiation in the isostructural orthosilicates zircon (ZrSiO4), hafnon (HfSiO4) and thorite (ThSiO4) are particularly important because these minerals are under active investigation for use as a waste form for plutonium-239 resulting from the dismantling of nuclear weapons(2-4). During ion irradiation, localized 'cascades' of displaced atoms can form as a result of ballistic collisions in the target material, and the temperature inside these regions may for a short time exceed the bulk melting temperature. Whether these cascades do indeed generate a localized liquid state(5-8) has, however, remained unclear. Here we investigate the irradiation-induced decomposition of zircon and hafnon, and find evidence for formation of a liquidlike state in the displacement cascades. Our results explain the frequent occurrence of ZrO2 in natural amorphous zircong(9-12) Moreover, we conclude that zircon-based nuclear waste forms should be maintained within strict temperature Limits, to avoid potentially detrimental irradiation-induced amorphization or phase decomposition of the zircon.Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/62853/1/395056a0.pd

Lithium ion battery degradation: what you need to know

The expansion of lithium-ion batteries from consumer electronics to larger-scale transport and energy storage applications has made understanding the many mechanisms responsible for battery degradation increasingly important. The literature in this complex topic has grown considerably; this perspective aims to distil current knowledge into a succinct form, as a reference and a guide to understanding battery degradation. Unlike other reviews, this work emphasises the coupling between the different mechanisms and the different physical and chemical approaches used to trigger, identify and monitor various mechanisms, as well as the various computational models that attempt to simulate these interactions. Degradation is separated into three levels: the actual mechanisms themselves, the observable consequences at cell level called modes and the operational effects such as capacity or power fade. Five principal and thirteen secondary mechanisms were found that are generally considered to be the cause of degradation during normal operation, which all give rise to five observable modes. A flowchart illustrates the different feedback loops that couple the various forms of degradation, whilst a table is presented to highlight the experimental conditions that are most likely to trigger specific degradation mechanisms. Together, they provide a powerful guide to designing experiments or models for investigating battery degradation

An in-vivo study exploring correlations between early-to-moderate disc degeneration and flexion mobility in the lumbar spine

Purpose: Early disc degeneration (DD) has been thought to be associated with loss of spine 6 stability. However, before this can be understood in relation to back pain, it is necessary to 7 know the relationship between DD and intervertebral motion in people without pain. This 8 study aimed to find out if early to moderate DD is associated with intervertebral motion in 9 people without back pain. 10 Methods: Ten pain free adults, aged 51-71 received recumbent and weight bearing MRI 11 scans and quantitative fluoroscopy (QF) screenings during recumbent and upright lumbar 12 flexion. Forty individual level and 10 composite (L2-S1) radiographic and MRI DD gradings 13 were recorded and correlated with intervertebral flexion ROM, translation, laxity, and 14 motion sharing inequality and variability for both positions. 15 Results: Kinematic values were similar to previous control studies. DD was evidenced up to 16 moderate levels by both radiographic and MRI grading. Disc height loss correlated slightly, 17 but negatively with flexion during weight bearing flexion (R=-0.356, p=0.0.025). Composite 18 MRI DD and T2 signal loss evidenced similar relationships (R= -0.305, R= -0.267) but did not 19 reach statistical significance (p=0.056, p=0.096). No significant relationships between any 20 other kinematic variables and DD were found. 21 Conclusion: This study found only small, indefinite associations between early-to-moderate 22 DD and intervertebral motion in healthy controls. Motion sharing in the absence of pain 23 was also not related to early DD, consistent with previous control studies. Further research 24 is needed to investigate these relationships in patients. 25 Key words: back pain, disc degeneration, instability, imagin