Knowledge about the rate of moisture flow in materials is of importance for many practical considerations in construction. To this end, heat, air and moisture (HAM) transport models are increasingly applied to assist in understanding the hygric and thermal behavior of building materia ls and structures. Since modeling of building performance is quite a young research subject and the material properties available are often based on classical methods, the applicability of current computer codes is still limited. Thus, there is a real need to introduce new methods for material characterization. This will enhance the future use of computer models dealing with issues such as shrinkage, swelling, hysteresis, bypass flow, dual porosity, mobile and immobile water, salt transport, and numerous related durability applications. To do this, however, we need to develop a solid foundation of material characterization.

Utility of a HAM model depends on three elements: (1) the description of constituent governing physical processes by the model, (2) the description of boundary conditions (climate) and (3) by the use of appropriate material properties (adequately representing both the material and all transport characteristics used in the governing equations). The last aspect of HAM modeling is discussed here. Authors recommend a minimum set of hygric characteristics that provide a unique characterization for each material.

See also:

Grunewald, J., Plagge, R. and H?upl, P., 2002, A two-levelled hygrothermal material database for the numerical simulation program DELPHIN4

• HAM: material properties : good paper
• material properties: hygrothermal
• measurement: hygrothermal properties

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1. A comparison of different techniques to quantify moisture content profiles in porous building materials
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3. A quasi-steady state implementation of air convection in a transient heat and moisture building component model
4. Description of the moisture capacity of building materials
5. Determination of the isothermal moisture transport properties of porous building materials
6. Determination of the liquid water diffusivity from transient moisture transfer experiments
7. Determination of the moisture capacity of porous building materials
8. Impact, absorption and evaporation of raindrops on building facades
9. In situ determination of the moisture buffer potential of room enclosures
10. Microscopic analysis of imbibition processes in oolitic limestone
11. Modeling fluid flow in fractured media using continuum, network and discrete aproaches
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14. Simulating non-isothermal water vapour transfer: an experimental validation on multi-layered building components
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