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* <B>&quot;Optional Data&quot;:</B><BR> Enter the optional material data in these [[Glossary:Glossary-1D | tables]] (if required).<BR> &nbsp;<BR> The optional material data comprise the moisture storage function of the material, the liquid transport coefficients, the moisture-dependent thermal conductivity and the moisture-dependent vapor diffusion resistance factor.<BR> &nbsp;<BR> The optional data are always entered in [[Glossary:Glossary-1D | tables]]. However, you can have WUFI automatically create some of these tables by entering other data from which the tables can be [[Glossary:Glossary-1D | generated]].<BR>
* <B>&quot;Optional Data&quot;:</B><BR> Enter the optional material data in these [[Glossary:Glossary-1D | tables]] (if required).<BR> &nbsp;<BR> The optional material data comprise the moisture storage function of the material, the liquid transport coefficients, the moisture-dependent thermal conductivity and the moisture-dependent vapor diffusion resistance factor.<BR> &nbsp;<BR> The optional data are always entered in [[Glossary:Glossary-1D | tables]]. However, you can have WUFI automatically create some of these tables by entering other data from which the tables can be [[Glossary:Glossary-1D | generated]].<BR>
&nbsp;<BR>
&nbsp;<BR>
* <B>&quot;Moisture Storage Function&quot;:</B>
* <B>&quot;Moisture Storage Function&quot;:</B><BR> Enter the [[Details:MoistureStorageFunction | moisture storage function]] of the material, i.e. the moisture contents [kg/m&sup3;] which result from exposition to certain relative humidities (0..1).<BR> &nbsp;<BR> If detailed tabulated data are not available, but the moisture storage function of the material can be adequately described by an [[Details:MoistureStorageFunction | approximation function]], you can check the option <B>&quot;Approximate&quot;</B> and enter<BR> &nbsp;<BR>
            </TD>
** the sorption moisture corresponding to 0.8 RH, w<SMALL>80</SMALL> (<B>&quot;Reference Water Content [kg/m&sup3;]&quot;</B>, nowadays determined according to German standard DIN 52620) and<BR> &nbsp;<BR>
        </TR>
** the &quot;Free Water Saturation [kg/m&sup3;]&quot; w<SMALL>f</SMALL><BR> &nbsp;<BR>  
        <TR><TD>&nbsp;</TD>
in the additional table <B>&quot;Optional Parameters&quot;</B>. WUFI then uses an [[Details:MoistureStorageFunction | analytical moisture storage function]] which passes through these two points and zero.
            <TD><P>
For non-hygroscopic materials, you may just leave the table of the moisture storage function empty. For numerical reasons, however, WUFI needs a defined moisture storage function; it then internally uses a [[Details:MoistureStorageFunction | default function]] which allows for the very low sorption moisture of non-hygroscopic materials.<BR>
                Enter the <A HREF="MoistureStorageFunction.htm">moisture storage
&nbsp;<BR>
                function</A> of the material, i.e. the moisture contents [kg/m&sup3;]
                which result from exposition to certain relative humidities (0..1).
                </P>
                <P>
                If detailed tabulated data are not available, but the moisture storage
                function of the material can be adequately described by an
                <A HREF="MoistureStorageFunction.htm">approximation function</A>, you
                can check the option <B>&quot;Approximate&quot;</B> and enter
                </P>
                <UL>
                    <LI>
                        the sorption moisture corresponding to 0.8 RH,
                        w<SMALL>80</SMALL> (<B>&quot;Reference Water Content
                        [kg/m&sup3;]&quot;</B>, nowadays determined according to
                        German standard DIN 52620) and<BR>
                        &nbsp;<BR>
                    </LI>
                    <LI>
                        the &quot;Free Water Saturation [kg/m&sup3;]&quot;
                        w<SMALL>f</SMALL>
                    </LI>
                </UL>
                <P>
                in the additional table <B>&quot;Optional Parameters&quot;</B>. WUFI
                then uses an <A HREF="MoistureStorageFunction.htm">analytical
                moisture storage function</A> which passes through these two points and
                zero.
                </P>
                <P>
                For non-hygroscopic materials, you may just leave the table of the
                moisture storage function empty. For numerical reasons, however, WUFI
                needs a defined moisture storage function; it then internally uses a
                <A HREF="MoistureStorageFunction.htm">default function</A> which allows
                for the very low sorption moisture of non-hygroscopic materials.<BR>
                &nbsp;<BR>
            </TD>
        </TR>


        <TR><TD>&nbsp;</TD>
* <B>&quot;Liquid Transport Coefficient - Suction&quot;</B><BR> <B>&quot;Liquid Transport Coefficient - Redistribution&quot;:</B>
            <TD><B>&quot;Liquid Transport Coefficient - Suction&quot;</B><BR>
Enter the [[Details:LiquidTransportCoefficients | liquid transport coefficients]] in this [[Glossary:Glossary-1D | table]] - separately for suction and redistribution.<BR> &nbsp;<BR> If the liquid transport coefficients for the material at hand are not known, you can have WUFI automatically generate a table by estimating the coefficients from the [[Details:LiquidTransportCoefficients | water absorption coefficient (A-value)]] which is known for most materials or at least easily measurable.<BR> &nbsp;<BR> To this end, check the option <B>&quot;Generate&quot;</B> and enter the A-value in the additional table <B>&quot;Optional Parameters&quot;</B> (<I>in [kg/m&sup2;<FONT FACE="SYMBOL">&#214;</FONT>s]; the relevant German standard uses the non-SI units [kg/m&sup2;<FONT FACE="SYMBOL">&#214;</FONT>h]. Division by 60 converts such values to SI</I>). WUFI automatically generates a three-line table with the corresponding estimated liquid transport coefficients.<BR> &nbsp;<BR> Please note that only a rough estimate is possible which proves successful in many cases, but which is not necessarily useful for all materials. Especially, there may be inaccuracies in the <I>shape</I> of the suction profiles. Generating is just meant to be some assistance; you should not blindly rely on it. Future WUFI versions are planned to offer more sophisticated methods.<BR> &nbsp;<BR> Remarks on generating:
                <B>&quot;Liquid Transport Coefficient - Redistribution&quot;:</B>
            </TD>
        </TR>
        <TR><TD>&nbsp;</TD>
            <TD><P>
                Enter the
                <A HREF="LiquidTransportCoefficients.htm">liquid transport
                coefficients</A> in this <A HREF="Glossary.htm#table">table</A> -
                separately for suction and redistribution.
                </P>
                <P>
                If the liquid transport coefficients for the material at hand are not
                known, you can have WUFI automatically generate a table by estimating
                the coefficients from the
                <A HREF="LiquidTransportCoefficients.htm">water absorption coefficient
                (A-value)</A> which is known for most materials or at least
                easily measurable.
                </P>
                <P>
                To this end, check the option <B>&quot;Generate&quot;</B> and enter
                the A-value in the additional table <B>&quot;Optional Parameters&quot;</B>
                (<I>in [kg/m&sup2;<FONT FACE="SYMBOL">&#214;</FONT>s]; the relevant
                German standard uses the non-SI units
                [kg/m&sup2;<FONT FACE="SYMBOL">&#214;</FONT>h]. Division by 60 converts
                such values to SI</I>). WUFI automatically generates a three-line table with
                the corresponding estimated liquid transport coefficients.
                </P>
                <P>
                Please note that only a rough estimate is possible which proves
                successful in many cases, but which is not necessarily useful for all
                materials. Especially, there may be inaccuracies in the <I>shape</I> of
                the suction profiles. Generating is just meant to be some assistance;
                you should not blindly rely on it. Future WUFI versions are planned to
                offer more sophisticated methods.
                </P>
                <P>
                Remarks on generating:
                </P>
                <TABLE>
                <TR><TD WIDTH="10">&nbsp;</TD>
                    <TD><P>
                        The <A HREF="LiquidTransportCoefficients.htm">estimate</A> of
                        the liquid transport coefficients from the A-value also uses
                        the moisture contents
                        <A HREF="MoistureStorageFunction.htm">w<SMALL>80</SMALL> and
                        w<SMALL>f</SMALL></A>. If the moisture storage function is
                        already being approximated from w<SMALL>80</SMALL> and
                        w<SMALL>f</SMALL> (see above), the two needed values are
                        directly taken from these two entries; otherwise they are
                        calculated from the corresponding table - by interpolation, if
                        necessary.
                        </P>
                        <P>
                        If no moisture storage function has been defined as yet,
                        generating is not possible - the table remains empty (but you
                        can already enter the A-value).
                        </P>
                        <P>
                        If the moisture storage function is modified after generating,
                        the generated table for the liquid transport coefficients adapts
                        automatically. Please note, therefore, that modification of a
                        material property can also change another property as a <B>side
                        effect</B> without this being immediately evident.
                        </P>
                        <P>
                        If you want to generate both the tables for suction and those
                        for redistribution, both must of course be derived from the
                        same A-value - the two tables therefore share this text box.
                        Note that here, too, a modification in one spot may entail
                        changes elsewhere (if you are generating only one of the tables
                        and editing the other one by hand, the non-generated table is not
                        affected by a modification of the water absorption factor, of
                        course).<BR>
                        &nbsp;<BR>
                        </P>
                    </TD>
                </TR>
                </TABLE>


            </TD>
The [[Details:LiquidTransportCoefficients | estimate]] of the liquid transport coefficients from the A-value also uses the moisture contents [[Details:MoistureStorageFunction | w<SMALL>80</SMALL> and w<SMALL>f</SMALL>]]. If the moisture storage function is already being approximated from w<SMALL>80</SMALL> and w<SMALL>f</SMALL> (see above), the two needed values are directly taken from these two entries; otherwise they are calculated from the corresponding table - by interpolation, if necessary.
        </TR>
If no moisture storage function has been defined as yet, generating is not possible - the table remains empty (but you can already enter the A-value).
If the moisture storage function is modified after generating, the generated table for the liquid transport coefficients adapts automatically. Please note, therefore, that modification of a material property can also change another property as a <B>side effect</B> without this being immediately evident.
If you want to generate both the tables for suction and those for redistribution, both must of course be derived from the same A-value - the two tables therefore share this text box. Note that here, too, a modification in one spot may entail changes elsewhere (if you are generating only one of the tables and editing the other one by hand, the non-generated table is not affected by a modification of the water absorption factor, of course).<BR>
&nbsp;<BR>


   
* <B>&quot;Thermal Conductivity, Moisture-dependent&quot;:</B>
        <TR><TD>&nbsp;</TD>
Enter the tabulated [[Details:HeatConductivityMoistureDependent | heat conductivity]] of the material as a function of its moisture content if you want to allow for this dependence.
            <TD><B>&quot;Thermal Conductivity, Moisture-dependent&quot;:</B>
If you are satisfied with a simple linear dependence of the heat conductivity on the moisture content, you can have WUFI automatically [[Glossary:Glossary-1D | generate]] a two-line table by entering the [[Details:HeatConductivityMoistureDependent | moisture-induced heat conductivity supplement]].
            </TD>
To this end, check the option <B>&quot;Generate&quot;</B> and enter the supplement in the additional table <B>&quot;Optional Parameters&quot;</B> (in [%/m-%]). WUFI automatically generates a two-line table with the heat conductivities resulting for the dry condition and the maximum water content. Heat conductivities for intermediate moisture contents are linearly interpolated during the calculation.
        </TR>
Remarks on Generating:
        <TR><TD>&nbsp;</TD>
The [[Details:HeatConductivityMoistureDependent | evaluation]] of the heat conductivity for maximum water content also uses the basic material properties [[Details:BasicMaterialData | bulk density]], [[Details:BasicMaterialData | porosity]] and [[Details:BasicMaterialData | heat conductivity dry]]. If these values are modified after generating, the generated table adapts automatically. Please note, therefore, that modification of a material property can also change another property as a <B>side effect</B> without this being immediately evident.
            <TD><P>
If the required basic material data have not all been defined as yet, generating is not possible - the table remains empty (but you can already enter the supplement).<BR>
                Enter the tabulated
&nbsp;<BR>
                <A HREF="ThermalConductivityMoistureDependent.htm">heat conductivity</A>
* <B>&quot;Water Vapor Diffusion Resistance Factor, Moisture-dependent&quot;:</B>
                of the material as a function of its moisture content if you want to
Enter the [[Details:DiffusionResistanceFactorMoistureDependent | diffusion resistance factor]] of the material as a function of moisture content if you want to allow for this dependence.<BR>
                allow for this dependence.
&nbsp;<BR>
                </P>
General remarks on [[Glossary:Glossary-1D | approximating]] and [[Glossary:Glossary-1D | generating]]:<BR>
                <P>
&nbsp;<BR>
                If you are satisfied with a simple linear dependence of the heat
For all optional material properties - except the diffusion resistance factor - WUFI is holding two tables in memory: one table created by hand (editable), and one generated table (non-editable [##update: derived from...##]). You can work on both tables in parallel; which of both is used for the calculation depends on whether the option <B>&quot;Approximate&quot;</B> or <B>&quot;Generate&quot;</B> is activated at the start of the calculation, or not.
                conductivity on the moisture content, you can have WUFI automatically
                <A HREF="glossary.htm#generate">generate</A> a two-line table by
                entering the
                <A HREF="ThermalConductivityMoistureDependent.htm">moisture-induced heat
                conductivity supplement</A>.
                </P>
                <P>
                To this end, check the option <B>&quot;Generate&quot;</B> and enter
                the supplement in the additional table
                <B>&quot;Optional Parameters&quot;</B> (in [%/m-%]). WUFI automatically
                generates a two-line table with the heat conductivities resulting for the
                dry condition and the maximum water content. Heat conductivities for
                intermediate moisture contents are linearly interpolated during
                the calculation.
                </P>
                <P>
                Remarks on Generating:
                </P>
                <TABLE>
                <TR><TD WIDTH="10">&nbsp;</TD>
                    <TD><P>
                        The <A HREF="ThermalConductivityMoistureDependent.htm">
                        evaluation</A> of the heat conductivity for
                        maximum water content also uses the basic material properties
                        <A HREF="BasicMaterialData.htm#bulkdensity">bulk density</A>,
                        <A HREF="BasicMaterialData.htm#porosity">porosity</A> and
                        <A HREF="BasicMaterialData.htm#heatconductivity">heat
                        conductivity dry</A>. If these values are modified after
                        generating, the generated table adapts automatically. Please
                        note, therefore, that modification of a material property can
                        also change another property as a <B>side effect</B> without
                        this being immediately evident.
                        </P>
                        <P>
                        If the required basic material data have not all been defined
                        as yet, generating is not possible - the table remains empty
                        (but you can already enter the supplement).<BR>
                        &nbsp;<BR>
                        </P>
                    </TD>
                </TR>
                </TABLE>
 
            </TD>
        </TR>
 
 
        <TR><TD>&nbsp;</TD>
            <TD><B>&quot;Water Vapor Diffusion Resistance Factor,
                  Moisture-dependent&quot;:</B>
            </TD>
        </TR>
        <TR><TD>&nbsp;</TD>
            <TD>Enter the
                <A HREF="DiffusionResistanceFactorMoistureDependent.htm">diffusion
                resistance factor</A> of the material as a function of moisture content
                if you want to allow for this dependence.<BR>
                &nbsp;<BR>
                <HR>
            </TD>
        </TR>
 
        <TR><TD>&nbsp;</TD>
            <TD>General remarks on
                <A HREF="Glossary.htm#approximate">approximating</A> and
                <A HREF="Glossary.htm#generate">generating</A>:<BR>
                &nbsp;<BR>
            </TD>
        </TR>
        <TR><TD>&nbsp;</TD>
            <TD><P>
                For all optional material properties - except the diffusion resistance
                factor - WUFI is holding two tables in memory: one table created by
                hand (editable), and one generated table (non-editable [##update: derived from...##]).
                You can work on both tables in parallel; which of both is used for the
                calculation depends on whether the option <B>&quot;Approximate&quot;</B>
                or <B>&quot;Generate&quot;</B> is activated at the start of the
                calculation, or not.
                </P>
                <P>
                By activating or deactivating the option, you can switch between the two
                kinds of tables. The unused table remains inactive in background.
                </P>
                <P>
                You can use the <B>&quot;Copy&quot;</B> button to copy the generated
                table line by line to the editable table and work on it there by hand.<BR>
                &nbsp;<BR>
                </P>
            </TD>
        </TR>
        </TABLE>
    </TD>
</TR>
 
<TR><TD>&nbsp;</TD>
    <TD><B>&quot;Typical Built-In Moisture [kg/m&sup3;]&quot;:</B>
    </TD>
</TR>
<TR><TD>&nbsp;</TD>
    <TD>A typical application for WUFI is a calculation to determine the time it takes
        a newly-built wall to dry out. If a typical initial moisture content for the
        current material is known, you can enter it here. Assigning the initial moisture
        contents to the individual layers then only takes one click on a button in the
        <A HREF="DialogInitialConditions.htm">&quot;Initial Conditions&quot; dialog</A>.<BR>
        &nbsp;<BR>
    </TD>
</TR>
 
<TR><TD>&nbsp;</TD>
    <TD><B>&quot;Color&quot;:</B>
    </TD>
</TR>
<TR><TD>&nbsp;</TD>
    <TD>Select the color of the material for the
        <A HREF="DialogAssembly.htm">graphical assembly display</A>.<BR>
        &nbsp;<BR>
    </TD>
</TR>
</TABLE>


By activating or deactivating the option, you can switch between the two kinds of tables. The unused table remains inactive in background.
You can use the <B>&quot;Copy&quot;</B> button to copy the generated table line by line to the editable table and work on it there by hand.<BR>
&nbsp;<BR>
* <B>&quot;Typical Built-In Moisture [kg/m&sup3;]&quot;:</B>
A typical application for WUFI is a calculation to determine the time it takes a newly-built wall to dry out. If a typical initial moisture content for the current material is known, you can enter it here. Assigning the initial moisture contents to the individual layers then only takes one click on a button in the [[1D:Dialog_InitialConditions | &quot;Initial Conditions&quot; dialog]].<BR>
&nbsp;<BR>
* <B>&quot;Color&quot;:</B>
Select the color of the material for the [[1D:Dialog_Assembly | graphical assembly display]].<BR>
&nbsp;<BR>


<H3>&quot;Thicknesses&quot;:</H3>
=== &quot;Thicknesses&quot;: ===


<IMG SRC="pics/DialogDatabaseMaterialsNewMaterialThicknesses_02.gif" WIDTH="472"
[[Bild:DialogDatabaseMaterialsNewMaterialThicknesses_02.gif]]
HEIGHT="331" VSPACE="0" HSPACE="0" ALT="">


<P>
<P>
If there exist typical thicknesses for this building material, enter them into this
If there exist typical thicknesses for this building material, enter them into this
list. They will be displayed on the
list. They will be displayed on the
<A HREF="DialogMaterialDatabase.htm">database screen</A> and you can assign a selected
[[1D:Dialog_MaterialDatabase | database screen]] and you can assign a selected thickness to the highlighted [[1D:Dialog_Assembly | assembly layer]] together with the material data, so you need not edit the thickness manually in the [[1D:Dialog_Assembly | assembly dialog]].<BR>
thickness to the highlighted <A HREF="DialogAssembly.htm">assembly layer</A> together
with the material data, so you need not edit the thickness manually in the
<A HREF="DialogAssembly.htm">assembly dialog</A>.<BR>
&nbsp;<BR>
&nbsp;<BR>
</P>
</P>


<H3>&quot;Info-Text&quot;:</H3>
=== &quot;Info-Text&quot;: ===


<IMG SRC="pics/DialogDatabaseMaterialsNewMaterialInfoText_02.gif" WIDTH="472"
[[Bild:DialogDatabaseMaterialsNewMaterialInfoText_02.gif]]
HEIGHT="331" VSPACE="0" HSPACE="0" ALT="">


<P>
<P>
Zeile 325: Zeile 98:




<H3>&quot;Assign Catalog&quot;:</H3>
=== &quot;Assign Catalog&quot;: ===


<IMG SRC="pics/DialogDatabaseMaterialsNewMaterialAssignCatalog_02.gif" WIDTH="472"
[[Bild:DialogDatabaseMaterialsNewMaterialAssignCatalog_02.gif]]
HEIGHT="331" VSPACE="0" HSPACE="0" ALT="">


<P>
<P>
Zeile 341: Zeile 113:
Use the <B>&quot;Delete Catalog&quot;</B> button to remove the highlighted catalog
Use the <B>&quot;Delete Catalog&quot;</B> button to remove the highlighted catalog
from this list (in order to <I>delete the catalog from the database</I>, use the
from this list (in order to <I>delete the catalog from the database</I>, use the
<A HREF="DialogDatabaseMaterials.htm">&quot;Edit Catalog&quot;</A> dialog.
[[1D:Dialog_DatabaseMaterials | &quot;Edit Catalog&quot;]] dialog.
</P>
</P>



Aktuelle Version vom 29. September 2008, 13:34 Uhr

Dialog: Database Materials - New Material

DialogDatabaseMaterialsNewMaterialMaterialData 02.gif

This subdialog serves to create or edit a user-defined material in the material database. It contains several tab sheets.


"Name":

The name of the material.
 


"Material Data":

In this tab sheet you can enter, edit or view the data for the highlighted material.

For a detailed discussion of the material data, please consult the reference: Material Data.

  • "Basic Values":
    • "Bulk Density [kg/m³]",
    • "Porosity [m³/m³]",
    • "Specific Heat Capacity, Dry [J/kgK]",
    • "Thermal Conductivity Dry [W/mK]",
    • "Water Vapor Diffusion Resistance Factor [-]":
       
      These basic material data are required as a minimum for a calculation.

 

  • "Optional Parameters":
    Some of the material data in the following section "Optional Data" are difficult to acquire, but WUFI offers means to approximate or generate them from standard data which can easier be collected. These standard data are then entered in the table "Optional Parameters" if they are required, depending on the settings in the "Optional Data" dialog.
     
    The optional parameters are discussed in the respective topics of the following section:

 

  • "Optional Data":
    Enter the optional material data in these tables (if required).
     
    The optional material data comprise the moisture storage function of the material, the liquid transport coefficients, the moisture-dependent thermal conductivity and the moisture-dependent vapor diffusion resistance factor.
     
    The optional data are always entered in tables. However, you can have WUFI automatically create some of these tables by entering other data from which the tables can be generated.

 

  • "Moisture Storage Function":
    Enter the moisture storage function of the material, i.e. the moisture contents [kg/m³] which result from exposition to certain relative humidities (0..1).
     
    If detailed tabulated data are not available, but the moisture storage function of the material can be adequately described by an approximation function, you can check the option "Approximate" and enter
     
    • the sorption moisture corresponding to 0.8 RH, w80 ("Reference Water Content [kg/m³]", nowadays determined according to German standard DIN 52620) and
       
    • the "Free Water Saturation [kg/m³]" wf
       

in the additional table "Optional Parameters". WUFI then uses an analytical moisture storage function which passes through these two points and zero. For non-hygroscopic materials, you may just leave the table of the moisture storage function empty. For numerical reasons, however, WUFI needs a defined moisture storage function; it then internally uses a default function which allows for the very low sorption moisture of non-hygroscopic materials.
 

  • "Liquid Transport Coefficient - Suction"
    "Liquid Transport Coefficient - Redistribution":

Enter the liquid transport coefficients in this table - separately for suction and redistribution.
 
If the liquid transport coefficients for the material at hand are not known, you can have WUFI automatically generate a table by estimating the coefficients from the water absorption coefficient (A-value) which is known for most materials or at least easily measurable.
 
To this end, check the option "Generate" and enter the A-value in the additional table "Optional Parameters" (in [kg/m²Ös]; the relevant German standard uses the non-SI units [kg/m²Öh]. Division by 60 converts such values to SI). WUFI automatically generates a three-line table with the corresponding estimated liquid transport coefficients.
 
Please note that only a rough estimate is possible which proves successful in many cases, but which is not necessarily useful for all materials. Especially, there may be inaccuracies in the shape of the suction profiles. Generating is just meant to be some assistance; you should not blindly rely on it. Future WUFI versions are planned to offer more sophisticated methods.
 
Remarks on generating:

The estimate of the liquid transport coefficients from the A-value also uses the moisture contents w80 and wf. If the moisture storage function is already being approximated from w80 and wf (see above), the two needed values are directly taken from these two entries; otherwise they are calculated from the corresponding table - by interpolation, if necessary. If no moisture storage function has been defined as yet, generating is not possible - the table remains empty (but you can already enter the A-value). If the moisture storage function is modified after generating, the generated table for the liquid transport coefficients adapts automatically. Please note, therefore, that modification of a material property can also change another property as a side effect without this being immediately evident. If you want to generate both the tables for suction and those for redistribution, both must of course be derived from the same A-value - the two tables therefore share this text box. Note that here, too, a modification in one spot may entail changes elsewhere (if you are generating only one of the tables and editing the other one by hand, the non-generated table is not affected by a modification of the water absorption factor, of course).
 

  • "Thermal Conductivity, Moisture-dependent":

Enter the tabulated heat conductivity of the material as a function of its moisture content if you want to allow for this dependence. If you are satisfied with a simple linear dependence of the heat conductivity on the moisture content, you can have WUFI automatically generate a two-line table by entering the moisture-induced heat conductivity supplement. To this end, check the option "Generate" and enter the supplement in the additional table "Optional Parameters" (in [%/m-%]). WUFI automatically generates a two-line table with the heat conductivities resulting for the dry condition and the maximum water content. Heat conductivities for intermediate moisture contents are linearly interpolated during the calculation. Remarks on Generating: The evaluation of the heat conductivity for maximum water content also uses the basic material properties bulk density, porosity and heat conductivity dry. If these values are modified after generating, the generated table adapts automatically. Please note, therefore, that modification of a material property can also change another property as a side effect without this being immediately evident. If the required basic material data have not all been defined as yet, generating is not possible - the table remains empty (but you can already enter the supplement).
 

  • "Water Vapor Diffusion Resistance Factor, Moisture-dependent":

Enter the diffusion resistance factor of the material as a function of moisture content if you want to allow for this dependence.
 
General remarks on approximating and generating:
 
For all optional material properties - except the diffusion resistance factor - WUFI is holding two tables in memory: one table created by hand (editable), and one generated table (non-editable [##update: derived from...##]). You can work on both tables in parallel; which of both is used for the calculation depends on whether the option "Approximate" or "Generate" is activated at the start of the calculation, or not.

By activating or deactivating the option, you can switch between the two kinds of tables. The unused table remains inactive in background. You can use the "Copy" button to copy the generated table line by line to the editable table and work on it there by hand.
 

  • "Typical Built-In Moisture [kg/m³]":

A typical application for WUFI is a calculation to determine the time it takes a newly-built wall to dry out. If a typical initial moisture content for the current material is known, you can enter it here. Assigning the initial moisture contents to the individual layers then only takes one click on a button in the "Initial Conditions" dialog.
 

  • "Color":

Select the color of the material for the graphical assembly display.
 

"Thicknesses":

DialogDatabaseMaterialsNewMaterialThicknesses 02.gif

If there exist typical thicknesses for this building material, enter them into this list. They will be displayed on the database screen and you can assign a selected thickness to the highlighted assembly layer together with the material data, so you need not edit the thickness manually in the assembly dialog.
 

"Info-Text":

DialogDatabaseMaterialsNewMaterialInfoText 02.gif

Here you may enter any info or remarks on the material.
 


"Assign Catalog":

DialogDatabaseMaterialsNewMaterialAssignCatalog 02.gif

The material needs to be assigned to (at least) one of the catalogs. This tab sheet displays a list of All Catalogs that are user-defined (you cannot assign a material to one of the predefined catalogs).

Double-click on the catalog(s) to which you want to assign the material. These catalogs are transferred to the "Material is in Catalog" list. The material will be assigned to all catalogs in this list.
Use the "Delete Catalog" button to remove the highlighted catalog from this list (in order to delete the catalog from the database, use the "Edit Catalog" dialog.

The material will be added to the database when you close this dialog with the "OK" button.