xirrus simulation matter^s

Let simulate » material properties!

Have materials' properties calculated — physical properties of organic compounds, polymers, composites and mixtures — instead of tedious measurements, even if the material has not been manufactured yet. Obtaining materials' properties has never been simpler and safer.

Download the complete factsheet and manual as a PDF rather than reading online help ↓ download

Your requirements

• The considered compounds are practically or theoretically known » ?

  type of compound	organic compounds and polymers (also biocompatible or biological), including silicone as well as most of the existing solvents. pure compounds, mixtures and additives and functionalizations often applied chemical elements only (ask in case of doubt) the mixture contains little or no salts (ions). The value of pH isn't extreme (between 5-9 in aqueous solution) or irrelevant. no metallic or ceramic materials
  chemical structure	The chemical structure (the connectivity) of the contained components is known, for polymers the approximate degree of polymerisation is known (below 1500 kDa molecular weight). The conformation may be unknown, it evolves and changes during the simulation.
  phase, state of aggregation	independent of known or unknown The phase evolves in the simulation (solution, melt through environmental conditions). Solid, liquid, gaseous, even mixed phases are possible (mix to complex fluids). We start with a homogeneous, randomly generated mixture.

• The requested material property is unknown or unconfirmed » ?

  hypothetical material, novel material or new situation	The material has not been synthetized or mixed, the material is new or has been prepared in a new mixture, characterization hasn't been done yet.
  no measurements	Experiments to derive the missing value are costly or timely or just impossible compared to simulation.
  no literature data	No literature value has been found, or not for the desired environmental conditions.
  value doubted	Although measured, existing literature data has been doubted. Simulation shall be the independent method to deliver hints about correctness.
  ⇒ For all these reasons a simulation is worthwhile, but it cannot fully replace a perfect measurement!

Proceedings and Results

1st order

Start	start online: www.xirrus.ch/matters
Order	Please transmit your material data (molecular structures of components) and its environmental conditions (pressure and temperature).
Property	Please order simultaneously the desired material properties from the following list. Further properties can only be programmed and analysed on separate request. density in [kg/m3] viscosity (shear viscosity) in [N·s/m2] heat capacity in [kJ/mol/K] thermal conductivity (isotropic) in [kJ/m/K/s] diffusion coefficient in [cm2/s] compressibility (isothermal) in [kJ/mol/l] elasticity modulus in [kN/mm2]
special cases	Please contact us directly in special cases.

2nd confirmation

confirmation validation	We confirm your molecular structures as soon as we have interpreted them, that occasionly sneeked in errors can be removed.
binding amount	We confirm your order with a binding sum.

3rd payment

advance payment	Please transfer the requested amount on our account or your order will be canceled.
literature value is existing	If we can find the requested value in no time in the scientific literature, we will tell you the source and may be don't simulate the system. We will keep the money for the take-over of the literature research.

4th let simulate

simulation	xirrus simulation matters simulates your material at defined environmental conditions (pressure, temperature, provided by you) in microscopic adequate size and time.
period of delivery	Statistical mechanics, thermodynamic simulations in molecular details demand for high computational power. It can take days or weeks, until the result is generated. In best case, you receive the significant result one day after payment and confirmation of the structures.

5th get result(s)

result	xirrus simulation matters analyses, i.e. calculates the desired material property under thermodynamic equilibrium conditions. The output will be, if not otherwise stated, in SI units. Included is the statement of the standard deviation from the calculated values.
accuracy	The accuracy achievable in such simulations is methodically limited (for energies e.g. never better than +/- 0.5 kJ/mol, deviations in densities up to 5% have to be tolerated, and much more). You cannot expect wonders.
guarantee	In case of proofable big deviation* of at least three independently published, but corresponding literature values [scientific sources] and complaint within two months after payment, after announcement and confirmation of the fact, you get your money back. Such a case will help us identify certain model limitations and to fine-tune our models to the requests. *an error will be stated, if the deviation is bigger than one order of magnitude from the usual deviation of comparable calculations.

Why simulate material properties?

scientifically based fundamentals