Javad Mehrmashhadi scite author profile

AbstractIce-like crystal compounds, which are formed in low-temperature and high-pressure thermodynamic conditions and composed of a combination of water molecules and guest gas molecules, are called gas hydrates. Since its discovery and recognition as the responsible component for blockage of oil and gas transformation line, hydrate has been under extensive review by scientists. In particular, the inhibition techniques of hydrate crystals have been updated in order to reach the more economically and practically feasible methods. So far, kinetic hydrate inhibition has been considered as one of the most effective techniques over the past decade. This review is intended to classify the recent studies regarding kinetic hydrate inhibitors, their structure, mechanism, and techniques for their performance evaluation. In addition, this communication further analyzes the areas that are more in demand to be considered in future research.

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Uncovering the dynamic fracture behavior of PMMA with peridynamics: The importance of softening at the crack tip

Mehrmashhadi

Wang

Bobaru

2019

Engineering Fracture Mechanics

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A stochastically homogenized peridynamic model for intraply fracture in fiber-reinforced composites

Mehrmashhadi

Chen

Zhao

et al. 2019

Composites Science and Technology

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The quasi-static transverse fracture behavior in unidirectional fiber-reinforced composites (FRCs) is investigated using a new intermediately-homogenized peridynamic (IH-PD) model and a fully homogenized peridynamic (FH-PD) model. The novelty in the IH-PD model here is accounting for the topology of the fiber-phase in the transverse sample loading via a calibration to the Halpin-Tsai model.Both models can capture well the measured load-displacement behavior observed experimentally for intraply fracture, without the need for an explicit representation of microstructure geometry of the FRC.The IH-PD model, however, is more accurate and produces crack path tortuosity as well as a nonmonotonic load-crack-opening softening curve, similar to what is observed experimentally. These benefits come from the preservation of some micro-scale heterogeneity, stochastically generated in the IH-PD model to match the composite's fiber volume fraction, while its computational cost is equivalent to that of an FH-PD model. We also present a three-point bending transverse loading case in which the two models lead to dramatically different failure modes: the FH-PD model shows that failure always starts from the off-center pre-notch, while the IH-PD model, when the pre-notch is sufficiently off-center, finds that the composite fails from the center of the sample, not from the pre-notch. Experiments that can confirm these findings are sought.

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The Effect of Solder Joint Microstructure on the Drop Test Failure—A Peridynamic Analysis

Mehrmashhadi

Tang

Zhao

et al. 2019

IEEE Trans. Compon., Packag. Manufact. Technol.

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A stochastic multiscale peridynamic model for corrosion-induced fracture in reinforced concrete

Zhao

Chen

Mehrmashhadi

et al. 2020

Engineering Fracture Mechanics

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Concrete fracture caused by corrosion of reinforcing bars may cause subsequent structure failure. To better predict this process, we introduce a partially-homogenized stochastic peridynamic model with the simplest constitutive relation (linear elastic with brittle failure). The model links microscale information (phase volume fractions of mortar, aggregates, interfaces) to macroscale fracture behavior, while costing the same as a fully homogenized model. We show, and explain why a fully-homogenized peridynamic model fails to capture the correct concrete fracture modes/patterns, while the new model succeeds. The multiscale model predicts the evolution of fracture in reinforced concrete caused by corrosion products expansion in samples with a single or multiple rebars. Non-uniform expansion of corrosion products is enforced here as preset, incremental radial displacements. The computed fracture patterns and the order in which various cracks develop match what is seen in experiments. The model's robustness is tested under different stochastic realizations and discretization grid types.

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Intraply Fracture in Fiber-Reinforced Composites: A Peridynamic Analysis

Bobaru¹,

Mehrmashhadi²,

Chen³

et al. 2018

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Development of pressure-impulse models and residual capacity assessment of RC columns using high fidelity Arbitrary Lagrangian-Eulerian simulation

Zhang

Abedini

Mehrmashhadi

2020

Engineering Structures

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