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--- basics:building_physics_-_basics:what_defines_thermal_bridge_free_design [2019/02/13 11:50] – cblagojevic
+++ basics:building_physics_-_basics:what_defines_thermal_bridge_free_design [2019/02/21 09:59] – cblagojevic
@@ Line 48: / Line 48: @@
 [{{:picopen:wbfrei_fusspunkt.png?280|Example showing the thermal bridge free connection of the rising exterior masonry wall to the insulated floor slab (with indication of the reference dimension; as agreed, the exterior reference dimension is always used).The heat transfer coefficients were calculated for this detail depending on the base point block used here (based on [AkkP 16]}}]
-[{{:picopen:psi_waermebruecke_fusspunkt_aussenwand.png?400|Dependence of the linear thermal transmittance (Ψ-value) on the thermal conductivity λ of the base point block. If this is smaller than 0.25 W/(mK), then Ψ ≤ 0.01 W/(mK) and consequently the detail will be thermal bridge free. This criterion is indicated by a horizontal blue line. However, one can also see that substantial thermal bridge losses can result with "normal blocks" (λ >0.8 W/(mK)) (taken from **[AkkP 16]**).}}]
+[{{:picopen:psi_waermebruecke_fusspunkt_aussenwand.png?400|Dependence of the linear thermal transmittance (Ψ-value) on the thermal conductivity λ of the base point block. If this is smaller than 0.25 W/(mK), then Ψ ≤ 0.01 W/(mK) and consequently the detail will be thermal bridge free. This criterion is indicated by a horizontal blue line. However, one can also see that substantial thermal bridge losses can result with "normal blocks" (λ >0.8 W/(mK)) (taken from [[basics:building_physics_-_basics:what_defines_thermal_bridge_free_design?#Literature|[AkkP 16] ]]}}]
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