Bulk Glass Fabrication and Properties

AbstractThe use of energy-dispersive X-ray fluorescence analysis (XES) for the routine identification of three tephras (Mazama, Bridge River, Mount St. Helens Yn) commonly found in archeological sites in British Columbia has been investigated. Researchers have often assumed that chemical analysis of bulk samples of glass separates would be hampered by contamination and weathering effects. Our results indicate that XES of bulk glass separates provides a very reliable method for rapidly identifying the three tephras in question, even with a very simple sample preparation. This should enable persons not skilled in geology or in tephrochronology to collect and to identify samples of these tephras. Finally, as a part of the study, similar measurements were made on the separated glass portions of these three tephras and of three others (Glacier Peak B and G, White River) from northwest North America. The results suggest that this method may provide tephrochronologists with a useful additional tool for studying tephras in other regions.

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Enhancing ductility in bulk metallic glasses by straining during cooling

Communications Materials ◽

10.1038/s43246-021-00127-0 ◽

2021 ◽

Vol 2 (1) ◽

Author(s):

Rodrigo Miguel Ojeda Mota ◽

Ethen Thomas Lund ◽

Sungwoo Sohn ◽

David John Browne ◽

Douglas Clayton Hofmann ◽

...

Keyword(s):

Metallic Glasses ◽

Energy Landscape ◽

Bulk Metallic Glasses ◽

Bulk Glass ◽

Liquid Cooling ◽

Fictive Temperature ◽

Cooling Method ◽

Potential Energy Landscape ◽

Major Shortcoming ◽

Processing Techniques

AbstractMost of the known bulk metallic glasses lack sufficient ductility or toughness when fabricated under conditions resulting in bulk glass formation. To address this major shortcoming, processing techniques to improve ductility that mechanically affect the glass have been developed, however it remains unclear for which metallic glass formers they work and by how much. Instead of manipulating the glass state, we show here that an applied strain rate can excite the liquid, and simultaneous cooling results in freezing of the excited liquid into a glass with a higher fictive temperature. Microscopically, straining causes the structure to dilate, hence “pulls” the structure energetically up the potential energy landscape. Upon further cooling, the resulting excited liquid freezes into an excited glass that exhibits enhanced ductility. We use Zr44Ti11Cu10Ni10Be25 as an example alloy to pull bulk metallic glasses through this excited liquid cooling method, which can lead to tripling of the bending ductility.

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Theoretical analysis of effects of linear birefringence inside sensing head upon bulk glass current sensors" performance

10.1117/12.573712 ◽

2005 ◽

Cited By ~ 1

Author(s):

Zheng Ping Wang ◽

Qing Bo Li ◽

Xiao Yu Liu ◽

Feng Wang ◽

Zong Jun Huang ◽

...

Keyword(s):

Theoretical Analysis ◽

Linear Birefringence ◽

Bulk Glass ◽

Glass Current ◽

Current Sensors

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Glass Formation and Glass Forming Ability of Alloys Near Eutectic Composition

MRS Proceedings ◽

10.1557/proc-644-l3.4 ◽

2000 ◽

Vol 644 ◽

Cited By ~ 1

Author(s):

Y. Li

Keyword(s):

Glass Transition ◽

Glass Formation ◽

Eutectic Composition ◽

Glass Forming Ability ◽

Critical Section ◽

Bulk Glass ◽

Melting Behaviour ◽

Eutectic Alloys ◽

Section Thickness ◽

Glass Forming

AbstractOnset temperature, Tm and offset temperature (liquidus) Tl of melting of a series of bulk glass forming alloys based on La, Mg, and Pd have been measured by studying systematically the melting behaviour of these alloys using DTA or DSC. Bulk metallic glass formation has been found to be most effective at or near their eutectic points and less effective for off-eutectic alloys. Reduced glass transition temperature Trg given by Tg/Tl is found to show a stronger correlation with critical cooling rate or critical section thickness for glass formation than Trg given by Tg/Tm.

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