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Pressure Jump Relaxation Method for the Kinetic Study of Fast Biochemical Reactions
The use of pressure as a perturbing parameter to initiate and understand biochemical reactions has a long history. In the pressure jump technique,... -
Temperature Jump Relaxation Technique for the Kinetic Study of Fast Biochemical Reactions
A unique technique for rapidly disturbing the position of a chemical equilibrium is through a sudden change of temperature of the system and the... -
Simulation features of atom jumps at constant temperature and under different pressure by the Molecular Dynamics
In our work we discuss features of atomic jump simulation. Then we present a new approach (approach of natural thermostat) that fully takes into...
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Electromagnetic Radiation of Dielectrics during High Pressure Torsion
Abstract —The effect of electromagnetic radiation of polycrystalline dielectrics by the example of pure CaCO 3 chalk and chalk with boron or aluminum...
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Steady-state nanoindentation creep test on β-Sn: A modified constant contact pressure method
Constant contact pressure (CCP) nanoindentation method is an emerging approach to studying the creep properties of materials at the micrometer scale....
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High pressure investigations on neutron irradiated ferroboron
This study reports the pressure effect on structural stability of neutron irradiated ferroboron systems. Ferroboron, a mixture of boron and iron, has...
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Oxygen pressure annealing enhances the B-site ordering degree of double perovskite La2CoMnO6 ceramics
The ordering and arrangement of atoms in double perovskite structures play a crucial role in determining their electrical and magnetic properties. In...
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Decrease of steady-state solubility of Ag in Cu by high-pressure torsion at low temperature
During the high pressure torsion (HPT) of a material, a steady-state is reached after a certain number of the plunger revolutions. This steady-state...
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Effect of Pressure and Gravitational Field on the Distribution of Cu during Directed Growth of a Single Crystal of an Al–0.005 wt % Cu Alloy
AbstractThe distribution of the copper concentration in the α-solid solution of Al and the dislocation density in single crystals of the Al–0.005 wt...
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Effects of Forming Specific Pressure and Filling Speed on Microstructure and Mechanical Properties of Thin-Walled CuSn10P1 Alloy Parts by Rheological Squeeze Forming
Semi-solid rheological squeeze forming has distinct advantages over traditional casting and forming techniques. In this study, a high-performance...
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The thermophysical properties of a promising composite adsorbent based on multi-wall carbon nanotubes for heat storage
The use of energy from alternative energy sources as well as the use of waste heat are key elements of an efficient energetics. Adsorption heat...
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Nanoindentation creep testing: Advantages and limitations of the constant contact pressure method
Different loading protocols have been developed in the past to investigate the creep properties of materials using instrumented indentation testing...
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Multiphysics processes in the interfacial transition zone of fiber-reinforced cementitious composites under induced curing pressure and implications for mine backfill materials: A critical review
The mesoscale fiber–matrix interfacial transition zone (FM-ITZ) under induced curing pressure plays a key role in the effectiveness of fiber...
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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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An Integrated Bifunctional Pressure‒Temperature Sensing System Fabricated on a Breathable Nanofiber and Powered by Rechargeable Zinc–Air Battery for Long-Term Comfortable Health Care Monitoring
Bulky external power supplies largely limit the continuous long-term application and miniaturization development of smart sensing devices. Here, we...
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Magnetocaloric effect and phase transition critical behavior of La0.75Sr0.25Mn0.9Co0.1O3 compound synthesized under the high pressure
In this study, a novel method is proposed for producing perovskite rare-earth manganese oxide magnetic refrigeration materials that exhibit superior...
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Investigation of Effect of the Rheological Parameters on the Flow Behavior of ADC12 Al Alloy in Rheo-Pressure Die-casting
In this study, the various rheological behaviors such as shear rate, viscosity, and shear stress of semi-solid slurry of ADC12 Al alloy are...
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Improving density and strength-to-ductility ratio of a 3D-printed Al–Si alloy by high-pressure torsion
Good combination of strength and ductility in metallic materials is always desired. To this end, this study assesses the combination of two modern...
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Primary Phase Morphology of Cooling Slope-Processed A356 Al Alloy and Its Effect on Rheological Properties
A comprehensive study is performed to establish the correlation between microstructural features of the cooling slope-generated slurry (semisolid) of...
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Predicting iodine solubility at high pressure in borosilicate nuclear waste glasses using optical basicity: an experimental study
Constraining the systematic evolution of iodine solubility in borosilicate glasses is required for the formulation of adequate glass matrices able to...