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Key words:
acousto-electronics acousto-optical activity coefficient alkaline alloy aluminophosphate aluminum amorphous atomic weight bandgap boiling point Brillouin-zone caloric caloric ceramics chemical coatings cobalt composite conductivity electrical copper corrosive crack creep critical magnetic field critical temperature of transition to the superconducting state crystal structural crystal structure type crystal system Curie point decomposition temperature density dielectric constant dielectric losses diffusion elastic elastic coefficients elastic wave attenuation elastic wave velocity elasto-optical coefficient electrical electroceramic material electrochemical electron diffraction electronegativity electronic electronic structure electro-optical energetic energy ionization enthalpy enthalpy atomization enthalpy melting entropy falammability fatigue ferrous metals forbidden zone width framework composition gas dynamics gas-phase Gibbs energy glass Hall effect hardness heat capacity high-purity hydrogen impurity distribution coefficient incommensurate phase inorganic compound interatomic potential intermolecular potential ion diffusion kinetic lattice parameter luminescent magnesium magnetic magnetic susceptibility mechanical melting point metal Miller coefficients mineral modulus compression modulus Young molecular beam molecular spectroscopy molecular weight nano-composite neutral gas nickel non-ferrous metals nonlinear optical nuclear nuclear fuel nuclide optical organic template oxide permittivity phase diagram physical piezoelectric piezo-optical coefficient pig iron porosity powder power factor quantum mechanical calculations quartz radiative radius Raman spectra refractive index rupture rupture rupture stress safety salt Seebeck coefficient Sellmeier coefficients semiconducting silicon single crystal solubility space group spectra spring steel strength structure dimension superconducting surface tension temperature Debye tensility thermal conductivity thermal expansion thermodynamical thermoelectric thermoelectromotive thermophysical titanium toughness toxicity transparency band transport viscosity wear welding zeolite zinc


Database by keywords list

Name (Abbreviation)AddressContactsComments
121Software and data package for the calculation of phase equilibria and thermodynamic properties in minerals
[see details...]
Website:
Phone:
Fax:
e-Mail: morgynov@uiggm.nsc.ru
122Materials properties repository from ab initio calculations
(AFLOWLIB.ORG)
[see details...]
Website: http://www.aflowlib.org/
Phone: (+1)9196605506
Fax: (+1)9196608963
e-Mail: stefano@duke.edu
123Bilbao Crystallographic Server
[see details...]
Website: http://www.cryst.ehu.es
Phone:
Fax:
e-Mail: cryst@wm.lc.ehu.es
124Crystallography Open Database
(COD)
[see details...]
Website: http://www.crystallography.net
Phone:
Fax:
e-Mail: grazulis@ibt.lt
125American mineralogist crystallographic database
[see details...]
Website: http://rruff.geo.arizona.edu/AMS/amcsd.php
Phone:
Fax:
e-Mail: downs@geo.arizona.edu
126DB of Computation-Ready 2D Zeolitic Slabs
[see details...]
Website: http://sholl.chbe.gatech.edu/databases.html
Phone:
Fax:
e-Mail: david.sholl@chbe.gatech.edu
127Materials Platform for Data Science
(MPDS)
[see details...]
Website: https://mpds.io
Phone: (+372)6094147
Fax: (+372)6094147
e-Mail: admin@mpds.io
128Raman Open Database
(ROD)
[see details...]
Website: http://solsa.crystallography.net/rod
Phone:
Fax:
e-Mail: yassine.elmendili@ensicaen.fr
DB is integrated with DB COD (http://www.crystallography.net)
129DB of novel magnetic materials
(Novamag)
[see details...]
Website: http://www.novamag.eu/
Phone:
Fax:
e-Mail:
130DB on thermodynamic properties of materials for nuclear power
(NUCLEA)
[see details...]
Website: http://thermodata.online.fr/nuclea/Nuclea03-1.htm
Phone: (+33) 4 76 42 76 90
Fax:
e-Mail: thermodata@grenet.fr
The database is intended for thermodynamic modeling of emergency situations at nuclear power plants, in particular, for modeling the corium
131DB on thermodynamic properties of substances
(ThermoChimie)
[see details...]
Website: https://www.thermochimie-tdb.com/
Phone:
Fax:
e-Mail: consortium-tc3-tech@thermochimie-tdb.com
DB and thermodynamic modeling make it possible to assess the consequences of the possible spread of radionuclides in soil and water bodies of chemical elements and their compounds that pollute the environment.
132Nuclear Materials Thermo-physical Property DB
(THERPRO)
[see details...]
Website: http://therpro.hanyang.ac.kr/top/
Phone: (+8)2.2.2220.1296
Fax: (+8)2.2.2281.5131
e-Mail: webmaster@therpro.hanyang.ac.kr
133DB on the properties of materials used in nuclear energetics
[see details...]
Website:
Phone:
Fax:
e-Mail:
134Materials Project
(MP)
[see details...]
Website: http://www.materialsproject.org
Phone:
Fax:
e-Mail:
The database contains the results of calculations by the density functional theory (DFT) method and is equipped with means for calculating properties by DFT and machine learning methods
135UCSB-MRL Thermoelectric Database
[see details...]
Website: http://www.mrl.ucsb.edu:8080/datamine/thermoelectric.jsp
Phone:
Fax:
e-Mail: seshadri@mrl.ucsb.edu
136The Open Quantum Materials Database
(OQMD)
[see details...]
Website: http://oqmd.org
Phone:
Fax:
e-Mail: c-wolverton@northwestern.edu
137An international thermodynamic database for nuclear fuels applications
(TAF-ID)
[see details...]
Website: https://www.oecd-nea.org/science/taf-id/
Phone:
Fax:
e-Mail:
The database is intended for thermodynamic modeling
138A database of new zeolite-like materials
[see details...]
Website: http://www.hypotheticalzeolites.net/
Phone: (480) 965-5359
Fax: (480) 965-7954
e-Mail: treacy@asu.edu
The database contains the results of calculations by the Monte Carlo method

Records found: 138. 1-20, 21-40, 41-60, 61-80, 81-100, 101-120, 121-138


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