Institut für Holztechnologie Dresden gemeinnützige GmbH (Datenlieferant)

Solid Wood Panel

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Kategorie Nichtmetalle > Organisch > Pflanzliche Stoffe > Holz > Holzwerkstoff > Vollholzwerkstoff

alternative Namen

Deutsch: Massivholzplatte

Versuchsaufbau

Characteristic Values of wood based panels are 5-percentiles for strength values (f) and mean values for elastic properties (E, G). If necessary the 5-percentile values of the elastic properties can be calculated as 0.85 times the specified mean values.
Indices are given in the following way:
1st index: indicates bending, tension, compression, shear or rolling shear as “m”, “t”, “c”, “v” or “r”
2nd index: indicates orientation of stress to grain direction of outermost layers/veneers as “0” or”90”, if relevant
3rd index: indicates, if in plane or out of plane; in plane is given as “edge”, out of plane is given as “flat” only in the case of stresses perpendicular to the grain and shear
4th index: indicates characteristic “k” or mean value “mean”

Physikalische Eigenschaften

Name	Wert	Bemerkung	Messverfahren und -bedingungen
Dichte	> 410 kg/m³	nominal thickness: 12mm – 80mm	EN 12369-3
Differentielle Schwindung	0.62 %/%		DIN EN 13353, thickness
	0.008 – 0.035 %/%		DIN EN 13353, length
	0.024 – 0.067 %/%		DIN EN 13353, width
Gleichgewichtsfeuchte	8.7 – 8.9 %		DIN EN 13353, relative humidity: 30 %
	12.2 – 12.8 %		DIN EN 13353, relative humidity: 65 %
	7.4 – 18.1 %		DIN EN 13353, relative humidity: 85 %
Modifikationsbeiwert	0.6	Service Class 1	DIN EN 13353; DIN EN 1995-1-1/NA, permanent
	0.7	Service Class 1	DIN EN 13353; DIN EN 1995-1-1/NA, long term
	0.8	Service Class 1	DIN EN 13353; DIN EN 1995-1-1/NA, medium term
	0.9	Service Class 1	DIN EN 13353; DIN EN 1995-1-1/NA, short term
	1.1	Service Class 1	DIN EN 13353; DIN EN 1995-1-1/NA, instantaneous
	0.6	Service Class 2	DIN EN 13353; DIN EN 1995-1-1/NA, permanent
	0.7	Service Class 2	DIN EN 13353; DIN EN 1995-1-1/NA, long term
	0.8	Service Class 2	DIN EN 13353; DIN EN 1995-1-1/NA, medium term
	0.9	Service Class 2	DIN EN 13353; DIN EN 1995-1-1/NA, short term
	1.1	Service Class 2	DIN EN 13353; DIN EN 1995-1-1/NA, instantaneous
Verformungsbeiwert	0.6	Service Class 1	DIN EN 13353; DIN EN 1995-1-1/NA
	0.8	Service Class 2	DIN EN 13353; DIN EN 1995-1-1/NA
Wasserdampf-Diffusionswiderstandszahl	50	wet cup µ	DIN EN 13986; DIN EN 13353, density: 300 kg/m³
	150	dry cup µ	DIN EN 13986; DIN EN 13353, density: 300 kg/m³
	70	wet cup µ	DIN EN 13986; DIN EN 13353, density: 500 kg/m³
	200	dry cup µ	DIN EN 13986; DIN EN 13353, density: 500 kg/m³
	90	wet cup µ	DIN EN 13986; DIN EN 13353, density: 700 kg/m³
	220	dry cup µ	DIN EN 13986; DIN EN 13353, density: 700 kg/m³
	110	wet cup µ	DIN EN 13986; DIN EN 13353, density: 1000 kg/m³
	250	dry cup µ	DIN EN 13986; DIN EN 13353, density: 1000 kg/m³
Mechanische Eigenschaften

Biege-Elastizitätsmodul	10000 MPa	nominal thickness: 12mm – 20mm	EN 12369-3, E[m,0,flat,mean] (perpendicular to plane)
	650 MPa	nominal thickness: 12mm – 20mm	EN 12369-3, E[m,90,flat,mean] (perpendicular to plane)
	6000 MPa	nominal thickness: 12mm – 20mm	EN 12369-3, E[m,0,edge,mean] (in plane)
	4000 MPa	nominal thickness: 12mm – 20mm	EN 12369-3, E[m,90,edge,mean] (in plane)
	10000 MPa	nominal thickness: > 20mm – 30mm	EN 12369-3, E[m,0,flat,mean] (perpendicular to plane)
	800 MPa	nominal thickness: > 20mm – 30mm	EN 12369-3, E[m,90,flat,mean] (perpendicular to plane)
	5000 MPa	nominal thickness: > 20mm – 30mm	EN 12369-3, E[m,0,edge,mean] (in plane)
	4000 MPa	nominal thickness: > 20mm – 30mm	EN 12369-3, E[m,90,edge,mean] (in plane)
	8000 MPa	nominal thickness: > 30mm – 80mm	EN 12369-3, E[m,0,flat,mean] (perpendicular to plane)
	1800 MPa	nominal thickness: > 30mm – 80mm	EN 12369-3, E[m,90,flat,mean] (perpendicular to plane)
	4000 MPa	nominal thickness: > 30mm – 80mm	EN 12369-3, E[m,0,edge,mean] (in plane)
	4000 MPa	nominal thickness: > 30mm – 80mm	EN 12369-3, E[m,90,edge,mean] (in plane)
Biegefestigkeit	30 MPa	nominal thickness: 12mm – 20mm	EN 12369-3, f[m,0,k] (perpendicular to plane)
	5 MPa	nominal thickness: 12mm – 20mm	EN 12369-3, f[m,90,k] (perpendicular to plane)
	25 MPa	nominal thickness: 12mm – 20mm	EN 12369-3, f[m,0,edge,k] (in plane)
	12 MPa	nominal thickness: 12mm – 20mm	EN 12369-3, f[m,90,edge,k] (in plane)
	27 MPa	nominal thickness: > 20mm – 30mm	EN 12369-3, f[m,0,k] (perpendicular to plane)
	5 MPa	nominal thickness: > 20mm – 30mm	EN 12369-3, f[m,90,k] (perpendicular to plane)
	18 MPa	nominal thickness: > 20mm – 30mm	EN 12369-3, f[m,0,edge,k] (in plane)
	12 MPa	nominal thickness: > 20mm – 30mm	EN 12369-3, f[m,90,edge,k] (in plane)
	20 MPa	nominal thickness: > 30mm – 80mm	EN 12369-3, f[m,0,k] (perpendicular to plane)
	10 MPa	nominal thickness: > 30mm – 80mm	EN 12369-3, f[m,90,k] (perpendicular to plane)
	12 MPa	nominal thickness: > 30mm – 80mm	EN 12369-3, f[m,0,edge,k] (in plane)
	12 MPa	nominal thickness: > 30mm – 80mm	EN 12369-3, f[m,90,edge,k] (in plane)
Druck-Elastizitätsmodul	6000 MPa	nominal thickness: 12mm – 20mm	EN 12369-3, E[c,0,mean] (in plane)
	4000 MPa	nominal thickness: 12mm – 20mm	EN 12369-3, E[c,90,edge,mean] (in plane)
	3500 MPa	nominal thickness: > 20mm – 30mm	EN 12369-3, E[c,0,mean] (in plane)
	2500 MPa	nominal thickness: > 20mm – 30mm	EN 12369-3, E[c,90,edge,mean] (in plane)
	2500 MPa	nominal thickness: > 30mm – 80mm	EN 12369-3, E[c,0,mean] (in plane)
	2500 MPa	nominal thickness: > 30mm – 80mm	EN 12369-3, E[c,90,edge,mean] (in plane)
Druckfestigkeit	18 MPa	nominal thickness: 12mm – 20mm	EN 12369-3, f[c,0,k] (in plane)
	12 MPa	nominal thickness: 12mm – 20mm	EN 12369-3, f[c,90,edge,k] (in plane)
	16 MPa	nominal thickness: > 20mm – 30mm	EN 12369-3, f[c,0,k] (in plane)
	10 MPa	nominal thickness: > 20mm – 30mm	EN 12369-3, f[c,90,edge,k] (in plane)
	10 MPa	nominal thickness: > 30mm – 80mm	EN 12369-3, f[c,0,k] (in plane)
	10 MPa	nominal thickness: > 30mm – 80mm	EN 12369-3, f[c,90,edge,k] (in plane)
Scherfestigkeit	4 MPa	nominal thickness: 12mm – 20mm	EN 12369-3, f[v,0,edge,k] (perpendicular to plane)
	4 MPa	nominal thickness: 12mm – 20mm	EN 12369-3, f[v,90,edge,k] (perpendicular to plane)
	1 MPa	nominal thickness: 12mm – 20mm	EN 12369-3, f[v,0,flat,k] (in plane)
	1 MPa	nominal thickness: 12mm – 20mm	EN 12369-3, f[v,90,flat,k] (in plane)
	4 MPa	nominal thickness: > 20mm – 30mm	EN 12369-3, f[v,0,edge,k] (perpendicular to plane)
	4 MPa	nominal thickness: > 20mm – 30mm	EN 12369-3, f[v,90,edge,k] (perpendicular to plane)
	1 MPa	nominal thickness: > 20mm – 30mm	EN 12369-3, f[v,0,flat,k] (in plane)
	1 MPa	nominal thickness: > 20mm – 30mm	EN 12369-3, f[v,90,flat,k] (in plane)
	2.5 MPa	nominal thickness: > 30mm – 80mm	EN 12369-3, f[v,0,edge,k] (perpendicular to plane)
	2.5 MPa	nominal thickness: > 30mm – 80mm	EN 12369-3, f[v,90,edge,k] (perpendicular to plane)
	1 MPa	nominal thickness: > 30mm – 80mm	EN 12369-3, f[v,0,flat,k] (in plane)
	1 MPa	nominal thickness: > 30mm – 80mm	EN 12369-3, f[v,90,flat,k] (in plane)
Schubmodul	450 MPa	nominal thickness: 12mm – 80mm	EN 12369-3, G[0,edge,mean] (perpendicular to plane)
	450 MPa	nominal thickness: 12mm – 80mm	EN 12369-3, G[90,edge,mean] (perpendicular to plane)
	50 MPa	nominal thickness: 12mm – 80mm	EN 12369-3, G[0,flat,mean] (in plane)
	50 MPa	nominal thickness: 12mm – 80mm	EN 12369-3, G[90,flat,mean] (in plane)
Zug-Elastizitätsmodul	6000 MPa	nominal thickness: 12mm – 20mm	EN 12369-3, E[t,0,mean]
	4000 MPa	nominal thickness: 12mm – 20mm	EN 12369-3, E[t,90,edge,mean]
	5000 MPa	nominal thickness: > 20mm – 30mm	EN 12369-3, E[t,0,mean]
	4000 MPa	nominal thickness: > 20mm – 30mm	EN 12369-3, E[t,90,edge,mean]
	4000 MPa	nominal thickness: > 30mm – 80mm	EN 12369-3, E[t,0,mean]
	4000 MPa	nominal thickness: > 30mm – 80mm	EN 12369-3, E[t,90,edge,mean]
Zugfestigkeit	12 MPa	nominal thickness: 12mm – 20mm	EN 12369-3, f[t,0,k]
	3 MPa	nominal thickness: 12mm – 20mm	EN 12369-3, f[t,90,edge,k]
	9 MPa	nominal thickness: > 20mm – 30mm	EN 12369-3, f[t,0,k]
	3 MPa	nominal thickness: > 20mm – 30mm	EN 12369-3, f[t,90,edge,k]
	6 MPa	nominal thickness: > 30mm – 80mm	EN 12369-3, f[t,0,k]
	3 MPa	nominal thickness: > 30mm – 80mm	EN 12369-3, f[t,90,edge,k]
Thermische Eigenschaften

Wärmeleitfähigkeit	0.09 W/(m*K)		DIN EN 13986; DIN EN 13353, density: 300 kg/m³
	0.13 W/(m*K)		DIN EN 13986; DIN EN 13353, density: 500 kg/m³
	0.17 W/(m*K)		DIN EN 13986; DIN EN 13353, density: 700 kg/m³
	0.24 W/(m*K)		DIN EN 13986; DIN EN 13353, density: 1000 kg/m³

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Institut für Holztechnologie Dresden gemeinnützige GmbH

Institut für Holztechnologie Dresden gemeinnützige GmbH Steffen Tobisch
+493514662257
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Quelle

Tobisch, S. (2023). Physical-Mechanical Properties of Wood-Based Materials. In: Niemz, P., Teischinger, A., Sandberg, D. (eds) Springer Handbook of Wood Science and Technology. Springer Handbooks. Springer, Cham.

Haftungsausschluss

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Solid Wood Panel

Physikalische Eigenschaften

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