THE INFLUENCE OF NITROGEN PRESSURE ON THE
... the arrow in Fig. 6) and blur of diffractional reflexes with the decrease of PN can be associated with the formation of packaging defects at shifting of the lattice planes with unstabilized nitrogen saturation [29]. The reason for this is high energy of the metal particles, bombarding the coating a ...
... the arrow in Fig. 6) and blur of diffractional reflexes with the decrease of PN can be associated with the formation of packaging defects at shifting of the lattice planes with unstabilized nitrogen saturation [29]. The reason for this is high energy of the metal particles, bombarding the coating a ...
Accepted version - Queen Mary University of London
... electric field,23 which is linked to the observed antiferroelectric-like P-E loops. The temperature range within which these reversible electric field-induced transitions take place is dependent on composition. The widening of this temperature range could be beneficial for energy storage application ...
... electric field,23 which is linked to the observed antiferroelectric-like P-E loops. The temperature range within which these reversible electric field-induced transitions take place is dependent on composition. The widening of this temperature range could be beneficial for energy storage application ...
Glossary
... Poisson´s ratio. Elastic deformation: A change in dimention directly proportional to and in phase with an increase or decrease in applied force. ...
... Poisson´s ratio. Elastic deformation: A change in dimention directly proportional to and in phase with an increase or decrease in applied force. ...
ASTM and the Metals Industry
... standardized test method for steel used to manufacture railroad components, a concerned group of scientists and engineers formed ASTM and its founding committee, A01 on Steel, in 1898. Utilizing the consensus process that is still the hallmark of ASTM today, the early A01 members responded quickly t ...
... standardized test method for steel used to manufacture railroad components, a concerned group of scientists and engineers formed ASTM and its founding committee, A01 on Steel, in 1898. Utilizing the consensus process that is still the hallmark of ASTM today, the early A01 members responded quickly t ...
Journal of Materials for optical and electronic devices www.rsc.org/MaterialsC
... vibration-free cooling technologies. It is based on the process of anti-Stokes uorescence (Fig. 1) in which a material emits light at wavelength ~lf aer being excited by a laser at slightly longer ...
... vibration-free cooling technologies. It is based on the process of anti-Stokes uorescence (Fig. 1) in which a material emits light at wavelength ~lf aer being excited by a laser at slightly longer ...
Composite Thermoplastic
... reduce the overall cost of ownership of the system. Vibration Dampening: Another major benefit of composite thermoplastics is vibration dampening. Unlike metals, polymer plastics are less subject to harmonic resonance due to their lighter weight and inherent attenuating properties. Which means threa ...
... reduce the overall cost of ownership of the system. Vibration Dampening: Another major benefit of composite thermoplastics is vibration dampening. Unlike metals, polymer plastics are less subject to harmonic resonance due to their lighter weight and inherent attenuating properties. Which means threa ...
What`s New in Electrotechnologies for Industrial Process Heating?
... Primary induction heating applications in the metals industry fall into four major categories: heating prior to metal working, heat treating, welding, and metal melting. Induction technologies are not limited to heating conductive materials such as metal alloys or graphite, since the use of a suscep ...
... Primary induction heating applications in the metals industry fall into four major categories: heating prior to metal working, heat treating, welding, and metal melting. Induction technologies are not limited to heating conductive materials such as metal alloys or graphite, since the use of a suscep ...
Laboratory experiments, high angular
... to be mapped with <1 micron spatial resolution. HR-EBSD mapping reveals stress heterogeneities on the order of differential stresses applied during deformation. Stresses averaged over each map are in reasonable agreement with the outcome of stress-dip tests. Third, we implement an elasto-visco-plast ...
... to be mapped with <1 micron spatial resolution. HR-EBSD mapping reveals stress heterogeneities on the order of differential stresses applied during deformation. Stresses averaged over each map are in reasonable agreement with the outcome of stress-dip tests. Third, we implement an elasto-visco-plast ...
Thermoanalytical characterization of carbon/carbon hybrid material
... In the temperature range ca. 473–673 K, the mass loss occurs monotonously for AWC800 and AWC1200, and the mass loss rate is the same for all the heating rates. In the temperature range ca. 673–973 K for AWC800, the mass loss is higher for lower heating rates, and in temperatures higher than 973 K, t ...
... In the temperature range ca. 473–673 K, the mass loss occurs monotonously for AWC800 and AWC1200, and the mass loss rate is the same for all the heating rates. In the temperature range ca. 673–973 K for AWC800, the mass loss is higher for lower heating rates, and in temperatures higher than 973 K, t ...
Synthesis of a new alkali metal-organic solvent
... The value of the ordered magnetic moment of Fe amounts to 3.31 µB at 11K, which is the largest among all known iron based superconductors [4,5,6]. Recent µSR [7], STM [8] and Raman [9] studies showed a mutual relation between superconductivity and magnetism in these materials. It has been also noted ...
... The value of the ordered magnetic moment of Fe amounts to 3.31 µB at 11K, which is the largest among all known iron based superconductors [4,5,6]. Recent µSR [7], STM [8] and Raman [9] studies showed a mutual relation between superconductivity and magnetism in these materials. It has been also noted ...
Shape-memory alloy
A shape-memory alloy (SMA, smart metal, memory metal, memory alloy, muscle wire, smart alloy) is an alloy that ""remembers"" its original shape and that when deformed returns to its pre-deformed shape when heated. This material is a lightweight, solid-state alternative to conventional actuators such as hydraulic, pneumatic, and motor-based systems. Shape-memory alloys have applications in industries including automotive, aerospace, biomedical and robotics.