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Three Pearls of High-Pressure Shock Compression of Solids
To honor Prof. Thadhani’s outstanding accomplishments in shock synthesis of inorganic compounds and related subject matters, this paper highlights...
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Map** microstructure to shock-induced temperature fields using deep learning
The response of materials to shock loading is important to planetary science, aerospace engineering, and energetic materials. Thermally activated...
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Capturing Polymer Chain Compression and Shock Driven Decomposition of Polytetrafluoroethylene During Dynamic Shock Compression with In Situ X-Ray Diffraction
Observations of unit cell compression or decomposition during dynamic shock loading requires the implementation of a probe capable of penetrating an...
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The Effect of Shock Compression on the Crystal Structure of Cryptomelane (K-OMS-2)
Cryptomelane K-OMS-2 is a manganese oxide that occurs in low temperature geologic environments and is readily synthesized in the lab. A reflux method...
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Mild shock waves and enhanced optical characteristics of sulphamic acid single crystals doped with pyridine-2-carboxylic acid
Shock damage threshold measurement (SDT), a special approach for studying the behavior of the samples under severe conditions, is used to ascertain...
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Semiconductor Crystals and Device Physics
This chapter focuses on the physics of key components in LED devices to reveal fundamental mechanisms of how LEDs function in converting electrons... -
Aerogels for High-Energy-Density Physics Targets
Aerogels have been exploited in targets for inertial confinement fusion (ICF) and other high-energy-density physics (HEDP) experiments for decades,... -
Sustainability of Existing Phase of Extruded Fiber-Reinforced Polylactic Acid under Dynamic Shock Loading Conditions
This study provides extensive information regarding the resistance of the material to maintain its properties under dynamic loading conditions. The...
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Physics of the Effect of High-Temperature Pulse Heating On Defects in the Surface Layer of a Metal Alloy
Selective laser processing of thin surface layers of metallic alloys selectively affects certain defective areas, such as stress concentrators,...
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X-ray diffraction and optical spectroscopic analysis on the crystallographic phase stability of shock wave loaded L-Valine
Most of the materials undergo phase transitions under shock-loaded conditions while a few of the materials experience lattice deformations. Such...
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Semiconductor Crystals and Device Physics
This chapter focuses on the physics of key components in LED devices to reveal fundamental mechanisms of how LEDs function in converting electrons... -
Transparent Silica Aerogel Blocks for High-Energy Physics Research
Silica aerogels are important to be used as photon radiators in Cherenkov counters for high-energy physics experiments because of their optical... -
Comparison of thermal shock resistance capabilities of the rotary swaged pure tungsten, potassium-doped tungsten, and W-La2O3 alloys
Tungsten-based materials are one of the most important candidates for the plasma facing materials (PFMs) of future fusion reactors, and it is...
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Shock-Driven Multi-phase Interface Evolution
This chapter analyzes the evolution of a multi-phase droplet induced by a shock wave. The interaction of a shock wave and a water droplet embedded... -
Effect of Topology on Transient Dynamic and Shock Response of Polymeric Lattice Structures
Architected cellular materials, such as lattice structures, offer potential for tunable mechanical properties for dynamic applications of energy...
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Shock-Driven Multi-layer Interface Evolution
This chapter analyzes the evolution of successive interfaces impacted by a shock wave. Suppression of the hydrodynamic instabilities involved in the... -
Extrapolation of Almen Control to Laser Shock Processing
Unlike the Almen control available for shot peening, no controlling solutions are proposed for laser shock processing at the industrial level to...
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Modeling of Healing Cylindrical Cavities Exposed to Shock Waves in Crystal Subjected to Shear Deformation
Abstract—Bulk defects in crystals downgrade performance properties of structural materials. Therefore, the problem of reducing the number of...
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Numerical Prediction of Quasi-Static Compression, Indentation Impact and Shock Loading Behaviour of Aluminium Foam Using Idealized Cell Geometry
Three-dimensional model of closed cell foam based on idealized geometry is developed and used to study its response under quasi-static compression,...