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EGGER Natural Clermont Oak 4V
EGGER Natural Clermont Oak 4V.jpg
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{ps}{i}02vHI8i_TiIfpfRDgFufkR{n}ProductsOfCombustionMaterialProperties{sk}I{p}{n}SpecificHeatCapacity{d}Specific heat of the products of combustion: heat energy absorbed per temperature unit.Usually measured in[J / kg K].{v}#-#IfcSpecificHeatCapacityMeasure{k}U{r}RW{/p}{p}{n}N20Content{d}Nitrous Oxide (N2O) content of the products of combustion. This is measured in weight of N2O per unit weight and is therefore unitless.{v}#-#IfcPositiveRatioMeasure{k}U{r}RW{/p}{p}{n}COContent{d}Carbon monoxide (CO) content of the products of combustion.This is measured in weight of CO per unit weight and is therefore unitless.{v}#-#IfcPositiveRatioMeasure{k}U{r}RW{/p}{p}{n}CO2Content{d}Carbon Dioxide (CO2) content of the products of combustion. This is measured in weight of CO2 per unit weight and is therefore unitless.{v}#-#IfcPositiveRatioMeasure{k}U{r}RW{/p}{/ps}{ps}{i}0edBuVYjnKIB_DX1kUvUe_{n}WaterMaterialProperties{sk}I{p}{n}IsPotable{d}If TRUE, then the water is considered potable.{v}#-#IfcBoolean{k}U{r}RW{/p}{p}{n}Hardness{d}Water hardness as positive, multivalent ion concentration in the water (usually concentrations of calcium and magnesium ions in terms of calcium carbonate).{v}#-#IfcIonConcentrationMeasure{k}U{r}RW{/p}{p}{n}AlkalinityConcentration{d}Maximum alkalinity concentration (maximum sum of concentrations of each of the negative ions substances measured as CaCO3).{v}#-#IfcIonConcentrationMeasure{k}U{r}RW{/p}{p}{n}AcidityConcentration{d}Maximum CaCO3 equivalent that would neutralize the acid.{v}#-#IfcIonConcentrationMeasure{k}U{r}RW{/p}{p}{n}ImpuritiesContent{d}Fraction of impurities such as dust to the total amount of water. This is measured in weight of impurities per weight of water and is therefore unitless.{v}#-#IfcNormalisedRatioMeasure{k}U{r}RW{/p}{p}{n}PHLevel{d}Maximum water ph in a range from 0-14.{v}#-#IfcPHMeasure{k}U{r}RW{/p}{p}{n}DissolvedSolidsContent{d}Fraction of the dissolved solids to the total amount of water. This is measured in weight of dissolved solids per weight of water and is therefore unitless.{v}#-#IfcNormalisedRatioMeasure{k}U{r}RW{/p}{/ps}{ps}{i}0pXQzBrQExIv_Dc7bebj5i{n}GeneralMaterialProperties{sk}I{p}{n}MolecularWeight{d}Molecular weight of material (typically gas), measured in g/mole.{v}#-#IfcMolecularWeightMeasure{k}U{r}RW{/p}{p}{n}Porosity{d}The void fraction of the total volume occupied by material (Vbr - Vnet)/Vbr [m3/m3].{v}#-#IfcNormalisedRatioMeasure{k}U{r}RW{/p}{p}{n}MassDensity{d}Material mass density, usually measured in [kg/m3].{v}#-#IfcMassDensityMeasure{k}U{r}RW{/p}{/ps}{ps}{i}1VNrydXaDsI9x1q6mC9np0{n}MechanicalMaterialProperties{sk}I{p}{n}DynamicViscosity{d}A measure of the viscous resistance of the material.{v}#-#IfcDynamicViscosityMeasure{k}U{r}RW{/p}{p}{n}YoungModulus{d}A measure of the Young’s modulus of elasticity of the material.{v}#-#IfcModulusOfElasticityMeasure{k}U{r}RW{/p}{p}{n}ShearModulus{d}A measure of the shear modulus of elasticity of the material.{v}#-#IfcModulusOfElasticityMeasure{k}U{r}RW{/p}{p}{n}PoissonRatio{d}A measure of the lateral deformations in the elastic range.{v}#-#IfcPositiveRatioMeasure{k}U{r}RW{/p}{p}{n}ThermalExpansionCoefficient{d}A measure of the expansion coefficient for warming up the material about one Kelvin.{v}#-#IfcThermalExpansionCoefficientMeasure{k}U{r}RW{/p}{/ps}{ps}{i}1sCWqQpK8MIQEV2cDNBEQ4{n}ARCHline.XP Common{sk}A{p}{n}Name{d}IFC name of the object{v}#-#IfcLabel{k}U{r}RW{/p}{p}{n}Description{d}Description of the object{v}#-#IfcLabel{k}U{r}RW{/p}{p}{n}Manufacturer{d}Manufacturer{v}#-#IfcLabel{k}U{r}RW{/p}{p}{n}ArticleNumber{d}ArticleNumber{v}#-#IfcLabel{k}U{r}RW{/p}{p}{n}Price{d}Price{v}#-#IfcLabel{k}U{r}RW{/p}{/ps}{ps}{i}2$g$q3BFhCGuxXeqz0k_fF{n}HygroscopiMaterialProperties{sk}I{p}{n}UpperVaporResistanceFactor{d}The vapor permeability relationship of air/material (typically value > 1), measured in high relative humidity (typically in 95/50 % RH).{v}#-#IfcPositiveRatioMeasure{k}U{r}RW{/p}{p}{n}LowerVaporResistanceFactor{d}The vapor permeability relationship of air/material (typically value > 1), measured in low relative humidity (typically in 0/50 % RH).{v}#-#IfcPositiveRatioMeasure{k}U{r}RW{/p}{p}{n}IsothermalMoistureCapacity{d}Based on water vapor density, usually measured in [m3/ kg].{v}#-#IfcIsothermalMoistureCapacityMeasure{k}U{r}RW{/p}{p}{n}VaporPermeability{d}Usually measured in [kg/s m Pa].{v}#-#IfcVaporPermeabilityMeasure{k}U{r}RW{/p}{p}{n}MoistureDiffusivity{d}Usually measured in [m3/s].{v}#-#IfcMoistureDiffusivityMeasure{k}U{r}RW{/p}{/ps}{ps}{i}2BZbzQhDIVHOGrObZRSq94{n}Showroom{sk}C{p}{n}Reference{d}Reference ID for this specified type in this project (e.g. type 'A-1'){v}#-#IfcIdentifier{k}U{r}RW{/p}{p}{n}Name{d}Name{v}EGGER Natural Clermont Oak 4V#-#IfcText{k}U{r}RW{/p}{p}{n}Nev{d}Name{v}EGGER Natural Clermont Oak 4V#-#IfcText{k}U{r}RW{/p}{p}{n}Description{d}Description{v}Egger laminated flooring. German quality and reliability. Egger 235725
#-#IfcText{k}U{r}RW{/p}{p}{n}Leiras{d}Leírás{v}Kiváló minőségű termékek, hitelesített termelési folyamatok és fenntarthatóság – azaz EGGER Laminált Padló! A stílus nem csupán ízlés kérdése, az alakításában a pillanatnyi divatirányzatok és a helyi hagyományok is közrejátszanak. A termékek mindegyike az új, gyors, valamint könnyű burkolást eredményező „Uni fit” összepattintós rendszerrel készült.
10 mm vastag
15 év garancia
Padlófűtésre tehető
W31 besorolás
Egger 235725
EGGER Laminált Padló – „Made in Germany”
#-#IfcText{k}U{r}RW{/p}{p}{n}Termekcsalad{d}Termékcsalád{v}Comfort Classic Parafa padló#-#IfcText{k}U{r}RW{/p}{/ps}{ps}{i}2ds8o2MFfZJucGSIFyuUXA{n}OpticalMaterialProperties{sk}I{p}{n}VisibleTransmittance{d}Transmittance at normal incidence (visible). Defines the fraction of the visible spectrum of solar radiation that passes through per unit area, perpendicular to the surface.{v}#-#IfcPositiveRatioMeasure{k}U{r}RW{/p}{p}{n}SolarTransmittance{d}Transmittance at normal incidence (solar). Defines the fraction of solar radiation that passes through per unit area, perpendicular to the surface.{v}#-#IfcPositiveRatioMeasure{k}U{r}RW{/p}{p}{n}ThermalIrTransmittance{d}Thermal IR transmittance at normal incidence. Defines the fraction of thermal energy that passes through per unit area, perpendicular to the surface.{v}#-#IfcPositiveRatioMeasure{k}U{r}RW{/p}{p}{n}ThermalIrEmissivityBack{d}Thermal IR emissivity: back side. Defines the fraction of thermal energy emitted per unit area to blackbody at the same temperature, through the back side of the material.{v}#-#IfcPositiveRatioMeasure{k}U{r}RW{/p}{p}{n}ThermalIrEmissivityFront{d}Thermal IR emissivity: front side. Defines the fraction of thermal energy emitted per unit area to blackbody at the same temperature, through the front side of the material.{v}#-#IfcPositiveRatioMeasure{k}U{r}RW{/p}{p}{n}VisibleReflectanceBack{d}Reflectance at normal incidence (visible): back side. Defines the fraction of the solar ray in the visible spectrum that is reflected and not transmitted when the ray passes from one medium into another, at the back side of the other material, perpendicular to the surface.Dependent on material and surface characteristics.{v}#-#IfcPositiveRatioMeasure{k}U{r}RW{/p}{p}{n}VisibleReflectanceFront{d}Reflectance at normal incidence (visible): front side. Defines the fraction of the solar ray in the visible spectrum that is reflected and not transmitted when the ray passes from one medium into another, at the front side of the other material, perpendicular to the surface.Dependent on material and surface characteristics.{v}#-#IfcPositiveRatioMeasure{k}U{r}RW{/p}{p}{n}SolarReflectanceFront{d}Reflectance at normal incidence (solar): front side. Defines the fraction of the solar ray that is reflected and not transmitted when the ray passes from one medium into another, at the front side of the other material, perpendicular to the surface. Dependent on material and surface characteristics.{v}#-#IfcPositiveRatioMeasure{k}U{r}RW{/p}{p}{n}SolarReflectanceBack{d}Reflectance at normal incidence (solar): back side. Defines the fraction of the solar ray that is reflected and not transmitted when the ray passes from one medium into another, at the back side of the other material, perpendicular to the surface. Dependent on material and surface characteristics.{v}#-#IfcPositiveRatioMeasure{k}U{r}RW{/p}{/ps}{ps}{i}3Kf8wLriKAH85De0hspCZm{n}ThermalMaterialProperties{sk}I{p}{n}SpecificHeatCapacity{d}Defines the specific heat of the material: heat energy absorbed per temperature unit.Usually measured in[J / kg K]. {v}#-#IfcSpecificHeatCapacityMeasure{k}U{r}RW{/p}{p}{n}BoilingPoint{d}The boiling point of the material (fluid). Usually measured in Kelvin.{v}#-#IfcThermodynamicTemperatureMeasure{k}U{r}RW{/p}{p}{n}FreezingPoint{d}he freezing point of the material (fluid). Usually measured in Kelvin.{v}#-#IfcThermodynamicTemperatureMeasure{k}U{r}RW{/p}{p}{n}ThermalConductivity{d}The rate at which thermal energy is transmitted through the material.Usually in [W/m K].{v}#-#IfcThermalConductivityMeasure{k}U{r}RW{/p}{/ps}{ps}{i}3hdNb8UpSqGvZw97p$wsJw{n}FuelMaterialProperties{sk}I{p}{n}CombustionTemperature{d}Combustion temperature of the material when air is at 298 K and 100 kPa.{v}#-#IfcThermodynamicTemperatureMeasure{k}U{r}RW{/p}{p}{n}CarbonContent{d}The carbon content in the fuel. This is measured in weight of carbon per unit weight of fuel and is therefore unitless.{v}#-#IfcPositiveRatioMeasure{k}U{r}RW{/p}{p}{n}LowerHeatingValue{d}Lower Heating Value is defined as the amount of energy released (MJ/kg) when a fuel is burned completely, and H2O is in vapor form in the combustion products.{v}#-#IfcHeatingValueMeasure{k}U{r}RW{/p}{p}{n}HigherHeatingValue{d}Higher Heating Value is defined as the amount of energy released (MJ/kg) when a fuel is burned completely, and H2O is in liquid form in the combustion products.{v}#-#IfcHeatingValueMeasure{k}U{r}RW{/p}{/ps}
1559643004
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