Semi-empirical models to describe the absorption of liquid water in natural stones employed in built heritage before and after the application of water repellent treatments

Transition from planar MOSFET structures to FinFET 3D structures ensures various radiation type resistance. However, the characteristics of radiation-exposed devices made at different factories vary considerably and it is hard to explain FinFET structures’ radiation resistance dependence on variations of their physical and topological parameters and electrical modes. In this work, a RAD-TCAD model of FinFET on bulk silicon was developed. Additional semi-empirical radiation dependences specific to FinFET structures were introduced into the basic model of a nanometer MOSFET: the charge carrier effective mobility, the traps concentration in the SiO2 and HfO2 oxides and at the Si / SiO2 interface. The model was implemented in the Sen-taurus Synopsys TCAD environment. The model was validated on a test set of FinFET structures with a channel length from 60 nm to 7 nm before and after exposure to gamma irradiation in the dose range up to 1 Mrad. Comparison of the modeled and experimental I-V characteristics has shown an error of no more than 15 %.

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Curing Time and Water Repellent Properties of Dammar-Titanium Dioxide Thin Film

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.1112.359 ◽

2015 ◽

Vol 1112 ◽

pp. 359-362

Author(s):

Aisyah Nor Hasnan ◽

Azizah Hanom Ahmad

Keyword(s):

Contact Angle ◽

Titanium Dioxide ◽

Contact Angle Measurement ◽

Angle Measurement ◽

Water Repellent ◽

Coating System ◽

Curing Time ◽

Coating Surface ◽

Natural Resin ◽

Before And After

Dammar plant resin is a local natural resin that can be bled from Dipterocaupacea sp of tree. It can be found abundantly in Malaysia’s tropical forest especially in Sarawak. Dammar and Titanium Dioxide was mixed in a various wt% to produce Dammar-modified Titanium Dioxide coating system. The modified coating systems were then spin-coated onto Aluminium Q-panel as the substrate. Coated Q-panels were left to cure at room temperature. The curing time was evaluated using dust free stage. The addition of Titanium Dioxide into the coating system fastens the curing time taken for the coated Q-panel to be cure. It only took about 11-12 minutes to dry compared to the coating system before the addition of Titanium Dioxide where a quite long duration required, 32 minutes. Contact angle measurement was also carried out in order to determine the wettability of the coating system. The surface coated with dammar-modified titanium dioxide found to be hydrophobic where a quite large contact angle obtained for the sample with 3 wt% of Titanium Dioxide (PDT3). The water droplets actually rest on the coating surface without wetting the surface. Water absorption test was done to strengthen the contact angle results where coated substrate was soaked into distilled water for 24 hours and being weighed before and after soaking. The difference of before and after soaking weigh showed that the coating surface does not absorb that much water where only approximately 0.02% of water being absorbed by the coating system for 3 wt%. It proved that the coating systems applied are hydrophobic.

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Combination of the First-Principles and Semi-Empirical Models for a Complete Description of the Electronic Properties of the Doped Crystals

Theoretical Spectroscopy of Transition Metal and Rare Earth Ions ◽

10.1201/9780429278754-10 ◽

2019 ◽

pp. 389-421

Author(s):

Mikhail G. Brik ◽

Chong-Geng Ma

Keyword(s):

Electronic Properties ◽

First Principles ◽

Empirical Models ◽

Semi Empirical

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Contribution to the Study of Solid-Solid Thermal Contact Resistances--A Comparative Study

Annales de Chimie Science des Matériaux ◽

10.18280/acsm.450401 ◽

2021 ◽

Vol 45 (4) ◽

pp. 267-272

Author(s):

Rahmouna Cheriet ◽

Bourassia Bensaad ◽

Fatiha Bouhadjela ◽

Soufyane Belhenini ◽

Mohammed Belharizi

Keyword(s):

Contact Resistance ◽

Contact Pressure ◽

Mixed Method ◽

Thermal Contact Resistance ◽

Low Cost ◽

Thermal Contact ◽

Three Dimensional ◽

Empirical Models ◽

Three Dimensional Finite Element ◽

Semi Empirical

This study presents a mixed numerical / semi-empirical approach that primarily aimed to estimate the thermal contact resistance between two solids. The results obtained by this mixed method were compared and validated by experimental measurements of this resistance. Three semi-empirical models were used, namely the Mikic model, the Yovanovich model and the Antonetti model. The three-dimensional finite element numerical simulation was used to estimate the contact pressure between the two solids. Then this contact pressure obtained numerically was compared to the hardness of the solids in contact. The findings indicated that the numerically obtained contact pressures were close to hardness. Therefore, the hardness, which is usually used as an input variable in semi-empirical models, was replaced by the contact pressure. The thermal contact resistance obtained by this mixed method was then compared with the experimental one. The outcomes obtained from this comparison turned out to be very conclusive and can therefore be used to reinforce our approach which can actually be viewed as a reliable and low-cost method for estimating the thermal contact resistance between solids in contact.

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Combined Use of Theoretical and Semi-Empirical Models of Radar Backscattering to Estimate Characteristics of Vegetated Canopies

[Proceedings] IGARSS '92 International Geoscience and Remote Sensing Symposium ◽

10.1109/igarss.1992.578879 ◽

2005 ◽

Author(s):

L. Prevot ◽

T. Schmugge

Keyword(s):

Empirical Models ◽

Combined Use ◽

Radar Backscattering ◽

Semi Empirical

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Prediction of the Dynamic Behaviour of Iron and Sulphur During Nickel-Copper Matte Conversion Using Semi-Empirical Models

IFAC Proceedings Volumes ◽

10.1016/s1474-6670(17)33222-6 ◽

2001 ◽

Vol 34 (18) ◽

pp. 291-296

Author(s):

G.A. Georgalli ◽

J.J. Eksteen ◽

D.K. Anderson

Keyword(s):

Dynamic Behaviour ◽

Empirical Models ◽

Copper Matte ◽

Nickel Copper ◽

Semi Empirical

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Analytical and Semi-empirical Models of Tornadoes and Downbursts

The Oxford Handbook of Non-Synoptic Wind Storms ◽

10.1093/oxfordhb/9780190670252.013.32 ◽

2021 ◽

Author(s):

Djordje Romanic ◽

Horia Hangan

Keyword(s):

Numerical Simulations ◽

Stokes Equations ◽

Empirical Models ◽

Navier Stokes ◽

Mean Flow ◽

Navier Stokes Equations ◽

Boundary Layer Equations ◽

Simplifying Assumptions ◽

The Individual ◽

Semi Empirical

Analytical and semi-empirical models are inexpensive to run and can complement experimental and numerical simulations for risk analysis-related applications. Some models are developed by employing simplifying assumptions in the Navier-Stokes equations and searching for exact, but many times inviscid solutions occasionally complemented by boundary layer equations to take surface effects into account. Other use simple superposition of generic, canonical flows for which the individual solutions are known. These solutions are then ensembled together by empirical or semi-empirical fitting procedures. Few models address turbulent or fluctuating flow fields, and all models have a series of constants that are fitted against experiments or numerical simulations. This chapter presents the main models used to provide primarily mean flow solutions for tornadoes and downbursts. The models are organized based on the adopted solution techniques, with an emphasis on their assumptions and validity.

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