Measuring the shock Hugoniot data of liquid nitrogen using a cryogenic system for shock compression

Akram, Muhammad Sabeeh; Fan, Zhuo-Ning; Ming-Jian, Zhang; Liu, Qi‐Jun; Liu, Fusheng

doi:10.1063/5.0029911

Cited by 7 publications

(1 citation statement)

References 31 publications

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“…N 2 remains molecular in the thermodynamic range of detonation products (below 6000 K). We have retained the many shock data (P,V) and (P,T) have been collected along the main Hugoniots between 3 and 28 Gpa [25,26,[38][39][40]. For low temperatures, we have used static experiments at high pressure: sound velocities between 500 and 700 K [41] and volumes between 473 and 1000 K [42].…”

Section: Dinitrogenmentioning

confidence: 99%

Using maximum likelihood estimation approach to adjust parameters of CARTE thermochemical code.

Dubois,

Bidault,

Sorin

2024

Propellants Explo Pyrotec

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Using thermochemical codes to predict the properties of detonation products and the parameters for detonation modeling of explosives requires the use of very precise theoretical equations of state (EoS). We share the updates to the thermochemical code CARTE, which allows the calculation of thermodynamic properties and chemical compositions of detonation products over a wide range of temperatures and densities. In this paper, we focus on the theoretical EoS of pure fluids, based on the KLRR perturbation method and EXP‐6 potentials. We propose a maximum likelihood approach to fit the EXP‐6 parameters by matching a combination of shock data and static compression data. We present the results obtained on the detonation properties on nitric oxide.

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Section: Dinitrogenmentioning

confidence: 99%

Using maximum likelihood estimation approach to adjust parameters of CARTE thermochemical code.

Dubois,

Bidault,

Sorin

2024

Propellants Explo Pyrotec

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Molecular insights into the compression response of nitrogen/tetrafluoromethane liquid mixture from ab initio molecular dynamics

Zhou

Qiu

2023

Journal of Molecular Liquids

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Simulation based study of magnetic velocity induction system by using Analysis System Electromagnetics Suite

Akram

Liu

et al. 2021

Review of Scientific Instruments

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The magnetic velocity induction system (MAVIS) is commonly used for velocimetry in shock compression experiment. Due to some discrepancies, the variation in induced voltage amplitude is ambiguous, which makes the simulation of this experiment particularly significant. In this work, we have designed a MAVIS, which was used to determine the induced voltage amplitude and flyer velocity. We built a three-dimensional model of MAVIS and performed the simulations using the Analysis System Electromagnetics Suite. Additionally, we performed some experiments and compared the results of both studies on the basis of flyer thickness, radius, and velocity. It was established that the flyer velocity influenced the induced electromotive force (EMF) in the pick-up coils. The increase in flyer radius led to the increase in the induced EMF. The cut-off radius for flyers was also discussed in detail by computing the lowest induced EMFs at discrete flyer velocities and radii. Due to the eddy current loss, experimental data laid slightly lower than simulations. The simulation data have proved its accuracy within the experimental error range. Thus, it can be applied as an economical framework to calculate projectile velocity precisely, regardless of its geometry, and to estimate the trigger level of the oscilloscope before performing the experiments. In order to enhance the quality of induced voltage, we also proposed a new design consisting of three pick-up coils. This redesigned MAVIS contributed significantly in signal narrowing as well as controlled the loss in amplitude peaks that reduced the experimental uncertainty in flyer velocity <0.4%.

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Measuring the shock Hugoniot data of liquid nitrogen using a cryogenic system for shock compression

Cited by 7 publications

References 31 publications

Using maximum likelihood estimation approach to adjust parameters of CARTE thermochemical code.

Using maximum likelihood estimation approach to adjust parameters of CARTE thermochemical code.

Molecular insights into the compression response of nitrogen/tetrafluoromethane liquid mixture from ab initio molecular dynamics

Simulation based study of magnetic velocity induction system by using Analysis System Electromagnetics Suite

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