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Abaco dei principali nodi costruttivi nelle pareti Argisol – Valori trasmittanze termiche lineiche –
BIOISOTHERM S.r.l.
Via Roma, 14 20842 Besana in Brianza (MB) - Via Longhin, 83 35129 Padova (PD) -
tel. 049.8687216 fax 049.8684624 [email protected] – www.bioisotherm.eu
1
I�DICE DE��E TABE��E DEI ��DI C�STRUTTIVI� SISTE�A ARGIS��
��D� DESCRI�I��E Pag. Tab.
C ��D� DI C�ASSE �C” (Cr�ers)� i�terse"i#�e di due pareti peri'etra(i
C)1a
C)1b
C)1c
A�G��� C��VESS� Argis�� 30�16�5
A�G��� C��VESS� Argis�� 35�16�5
A�G��� C��VESS� Argis�� 30�16�5
1
C)2a
C)2b
C)2c
A�G��� C��CAV� Argis�� 30�16�5
A�G��� C��CAV� Argis�� 35�16�5
A�G��� C��CAV� Argis�� 30�16�5
1
IF ��D� DI C�ASSE �IF” (I�ter�ediate F�rs)� i�terse"i#�e di u� s#(ai# i�ter'edi#
(c#� fu�"i#�e di suddivisi#�e de((’edifici# per pia�i) c#� (a parete peri'etra(e
IF)1a
IF)2a
IF)3a
PARETE Argis�� 30�16�5 – Ter��s��ai� – C�RD��� A SPESS�RE
PARETE Argis�� 30�16�5 – Ter��s��ai� – TRAVE FU�RI SPESS�RE
PARETE Argis�� 30�16�5 – Ter��s��ai� – TRAVE A SPESS�RE
2
IF)1b
IF)2b
IF)3b
PARETE Argis�� 35�16�5 – Ter��s��ai� – C�RD��� A SPESS�RE
PARETE Argis�� 35�16�5 – Ter��s��ai� – TRAVE FU�RI SPESS�RE
PARETE Argis�� 35�16�5 – Ter��s��ai� – TRAVE A SPESS�RE
3
IF)1c
IF)2c
IF)3c
PARETE Argis�� 40�16�5 – Ter��s��ai� – C�RD��� A SPESS�RE
PARETE Argis�� 40�16�5 – Ter��s��ai� – TRAVE FU�RI SPESS�RE
PARETE Argis�� 40�16�5 – Ter��s��ai� – TRAVE A SPESS�RE
4
B ��D� DI C�ASSE �B” (Ba�c�es)� i�terse"i#�e di u� s#(ai# (c#� fu�"i#�e di ba(c#�e)
c#� (a parete peri'etra(e
B)1a
B)4a
PARETE Argis�� 30�16�5 – SBA�%� ��� IS��AT� – C�RD��� A SPESS�RE
PARETE Argis�� 30�16�5 – SBA�%� IS��AT� – C�RD��� A SPESS�RE 5
B)1b
B)4b
PARETE Argis�� 35�16�5 – SBA�%� ��� IS��AT� – C�RD��� A SPESS�RE
PARETE Argis�� 35�16�5 – SBA�%� IS��AT� – C�RD��� A SPESS�RE 6
B)1c
B)4c
PARETE Argis�� 40�16�5 – SBA�%� ��� IS��AT� – C�RD��� A SPESS�RE
PARETE Argis�� 40�16�5 – SBA�%� IS��AT� – C�RD��� A SPESS�RE 7
B)2a
B)5a
PARETE Argis�� 30�16�5 – SBA�%� ��� IS��AT� – TRAVE FU�RI SPESS�RE
PARETE Argis�� 30�16�5 – SBA�%� IS��AT� – TRAVE FU�RI SPESS�RE 8
B)2b
B)5b
PARETE Argis�� 35�16�5 – SBA�%� ��� IS��AT� – TRAVE FU�RI SPESS�RE
PARETE Argis�� 35�16�5 – SBA�%� IS��AT� – TRAVE FU�RI SPESS�RE 9
B)2c
B)5c
PARETE Argis�� 35�16�5 – SBA�%� ��� IS��AT� – TRAVE FU�RI SPESS�RE
PARETE Argis�� 35�16�5 – SBA�%� IS��AT� – TRAVE FU�RI SPESS�RE 10
Abaco dei principali nodi costruttivi nelle pareti Argisol – Valori trasmittanze termiche lineiche –
BIOISOTHERM S.r.l.
Via Roma, 14 20842 Besana in Brianza (MB) - Via Longhin, 83 35129 Padova (PD) -
tel. 049.8687216 fax 049.8684624 [email protected] – www.bioisotherm.eu
2
��D� DESCRI�I��E Pag. Tab.
B)3a
B)6a
PARETE Argis�� 30�16�5 – SBA�%� ��� IS��AT� – TRAVE A SPESS�RE
PARETE Argis�� 30�16�5 – SBA�%� IS��AT� – TRAVE A SPESS�RE 11
B)3b
B)6b
PARETE Argis�� 35�16�5 – SBA�%� ��� IS��AT� – TRAVE A SPESS�RE
PARETE Argis�� 35�16�5 – SBA�%� IS��AT� – TRAVE A SPESS�RE 12
B)3c
B)6c
PARETE Argis�� 40�16�5 – SBA�%� ��� IS��AT� – TRAVE A SPESS�RE
PARETE Argis�� 40�16�5 – SBA�%� IS��AT� – TRAVE A SPESS�RE 13
R ��D� DI C�ASSE �R” (Rfs)� i�terse"i#�e de( s#(ai# (c#� fu�"i#�e di c#pertura)
c#� (a parete peri'etra(e
R)1a
R)1b
R)1c
PARETE Argis�� 30�16�5 – Ter��s��ai� �� IS��AT� – C�RD��� A SPESS�RE
PARETE Argis�� 35�16�5 – Ter��s��ai� �� IS��AT� – C�RD��� A SPESS�RE
PARETE Argis�� 30�16�5 – Ter��s��ai� �� IS��AT� – C�RD��� A SPESS�RE
14
R)4a
R)4b
R)4c
PARETE Argis�� 30�16�5 – Ter��s��ai� IS��AT� – C�RD��� A SPESS�RE
PARETE Argis�� 35�16�5 – Ter��s��ai� IS��AT� – C�RD��� A SPESS�RE
PARETE Argis�� 40�16�5 – Ter��s��ai� IS��AT� – C�RD��� A SPESS�RE
14
R)2a
R)2b
R)2c
PARETE Argis�� 30�16�5 – Ter��s��ai� ��� IS��AT� c�' PARAPETT�
PARETE Argis�� 35�16�5 – Ter��s��ai� ��� IS��AT� c�' PARAPETT�
PARETE Argis�� 40�16�5 – Ter��s��ai� ��� IS��AT� c�' PARAPETT�
15
R)5a
R)5b
R)5c
PARETE Argis�� 30�16�5 – Ter��s��ai� IS��AT� c�' PARAPETT�
PARETE Argis�� 35�16�5 – Ter��s��ai� IS��AT� c�' PARAPETT�
PARETE Argis�� 35�16�5 – Ter��s��ai� IS��AT� c�' PARAPETT�
15
R)3a
R)3b
PARETE Argis�� 30�16�5 – Ter��s��ai� – C�R�ICE ��� IS��ATA
PARETE Argis�� 35�16�5 – Ter��s��ai� – C�R�ICE ��� IS��ATA 16
R)6a
R)6b
PARETE Argis�� 30�16�5 – Ter��s��ai� – C�R�ICE IS��ATA
PARETE Argis�� 35�16�5 – Ter��s��ai� – C�R�ICE IS��ATA 16
R)3c
R)6c
PARETE Argis�� 30�16�5 – Ter��s��ai� – C�R�ICE ��� IS��ATA
PARETE Argis�� 30�16�5 – Ter��s��ai� – C�R�ICE IS��ATA 17
IW ��D� DI C�ASSE �IW” (I�ter�a� Wa��s)� i�terse"i#�e di u�a parete di parti"i#�e
i�ter�a c#� (a parete peri'etra(e
IWa)1 PARETE I�TER�A Argis�� 30�16�5 – C�PERTURA Ter��s��ai� ��� IS��AT� 17
IWa)2 PARETE I�TER�A Argis�� 30�16�5 – C�PERTURA Ter��s��ai� IS��AT� 17
IWb)1a
IWb)1b
IWb)1c
PARETE I�TER�A Argis�� 30�16�5 – PARETE ESTER�A Argis�� 30�16�5
PARETE I�TER�A Argis�� 30�16�5 – PARETE ESTER�A Argis�� 35�16�5
PARETE I�TER�A Argis�� 30�16�5 – PARETE ESTER�A Argis�� 40�16�5
18
Abaco dei principali nodi costruttivi nelle pareti Argisol – Valori trasmittanze termiche lineiche –
BIOISOTHERM S.r.l.
Via Roma, 14 20842 Besana in Brianza (MB) - Via Longhin, 83 35129 Padova (PD) -
tel. 049.8687216 fax 049.8684624 [email protected] – www.bioisotherm.eu
3
��D� DESCRI�I��E Pag. Tab.
P ��D� DI C�ASSE �P” (Pi��ar)� i�terse"i#�e di u� pi(astr# c#� (a parete peri'etra(e
P)1a
P)1b
P)1c
PARETE Argis�� 30�16�5 – PI�ASTR� C�RRE�TE ARRETRAT� A��’I�TER��
PARETE Argis�� 35�16�5 – PI�ASTR� C�RRE�TE ARRETRAT� A��’I�TER��
PARETE Argis�� 40�16�5 – PI�ASTR� C�RRE�TE ARRETRAT� A��’I�TER��
19
P)2b PARETE Argis�� 35�16�5 – PI�ASTR� C�RRE�TE IS��AT� (eps 5c�) 19
P)3c
P)3d
PARETE Argis�� 40�16�5 – PI�ASTR� C�RRE�TE IS��AT� (eps 10c�)
PARETE Argis�� 40�16�5 – PI�ASTR� C�RRE�TE IS��AT� (eps 5c�,eps 5c�) 19
P)4a
P)4b
P)4c
PARETE Argis�� 30�16�5 – PI�ASTR� D’A�G���
PARETE Argis�� 35�16�5 – PI�ASTR� D’A�G���
PARETE Argis�� 40�16�5 – PI�ASTR� D’A�G���
20
P)5b PARETE Argis�� 35�16�5 – PI�ASTR� D’A�G��� (is��at� a��’ester'� eps 5c�) 20
P)6c
P)6d
PARETE Argis�� 40�16�5 – PI�ASTR� D’A�G��� (is��at� a��’ester'� eps 10c�)
PARETE Argis�� 40�16�5 – PI�ASTR� D’A�G��� (is��at� a��’ester'� eps 5c�) 20
PP ��D� DI C�ASSE �PP” (P�ai� Pi�tis)� i�terse"i#�e di u�a parete peri'etra(e c#� u�
s#(ai# (c#� fu�"i#�e di separa"i#�e) di u� a'bie�te �#� risca(dat#
PP)1a
PP)1b
PP)1c
PARETE ARGIS�� 30�16�5 – Ter��s��ai� ��� IS��AT� – TRAVE A SPESS�RE
PARETE ARGIS�� 35�16�5 – Ter��s��ai� ��� IS��AT� – TRAVE A SPESS�RE
PARETE ARGIS�� 40�16�5 – Ter��s��ai� ��� IS��AT� – TRAVE A SPESS�RE
21
PP)2a
PP)2b
PP)2c
PARETE ARGIS�� 30�16�5 – Ter��s��ai� IS��AT� – TRAVE A SPESS�RE
PARETE ARGIS�� 35�16�5 – Ter��s��ai� IS��AT� – TRAVE A SPESS�RE
PARETE ARGIS�� 40�16�5 – Ter��s��ai� IS��AT� – TRAVE A SPESS�RE
21
W ��D� DI C�ASSE �W” (Wi�dws a�d dr pe�i�gs)� i�terse"i#�e di u� i�fiss# c#�
(a parete peri'etra(e
W)1a
W)1b
W)1c
PARETE Argis�� 30�16�5 – I�FISS� I� �UCE – SPA��ETTA
PARETE Argis�� 35�16�5 – I�FISS� I� �UCE – SPA��ETTA
PARETE Argis�� 40�16�5 – I�FISS� I� �UCE – SPA��ETTA
22
W)4a
W)4b
W)4c
PARETE Argis�� 30�16�5 – I�FISS� I� �UCE – ARCHITRAVE
PARETE Argis�� 35�16�5 – I�FISS� I� �UCE – ARCHITRAVE
PARETE Argis�� 40�16�5 – I�FISS� I� �UCE – ARCHITRAVE
22
W)2a
W)2b
W)2c
PARETE Argis�� 30�16�5 – I�FISS� FI�� I�TER�� – SPA��ETTA
PARETE Argis�� 35�16�5 – I�FISS� FI�� I�TER�� – SPA��ETTA
PARETE Argis�� 40�16�5 – I�FISS� FI�� I�TER�� – SPA��ETTA
23
Abaco dei principali nodi costruttivi nelle pareti Argisol – Valori trasmittanze termiche lineiche –
BIOISOTHERM S.r.l.
Via Roma, 14 20842 Besana in Brianza (MB) - Via Longhin, 83 35129 Padova (PD) -
tel. 049.8687216 fax 049.8684624 [email protected] – www.bioisotherm.eu
4
��D� DESCRI�I��E Pag. Tab.
W)5a
W)5b
W)5c
PARETE Argis�� 30�16�5 – I�FISS� FI�� I�TER�� – ARCHITRAVE
PARETE Argis�� 35�16�5 – I�FISS� FI�� I�TER�� – ARCHITRAVE
PARETE Argis�� 40�16�5 – I�FISS� FI�� I�TER�� – ARCHITRAVE
23
W)3a
W)3b
W)3c
PARETE Argis�� 30�16�5 – /���B��CC� I� �ICCHIA
PARETE Argis�� 35�16�5 – /���B��CC� I� �ICCHIA
PARETE Argis�� 40�16�5 – /���B��CC� I� �ICCHIA
24
W)6a
W)6b
W)6c
PARETE Argis�� 30�16�5 – /���B��CC� I� �ICCHIA
PARETE Argis�� 35�16�5 – /���B��CC� I� �ICCHIA
PARETE Argis�� 40�16�5 – /���B��CC� I� �ICCHIA
24
GF ��D� DI C�ASSE �GF” (S(ab;#�;Gr#u�d F(##rs)� i�terse"i#�e de( s#(ai# (c#�
fu�"i#�e di pavi'e�t# c#�tr# terra) c#� (a parete peri'etra(e
GF)1a
GF)1b
GF)1c
PARETE Argis�� 30�16�5 – P�ATEA ��� IS��ATA
PARETE Argis�� 35�16�5 – P�ATEA ��� IS��ATA
PARETE Argis�� 40�16�5 – P�ATEA ��� IS��ATA
25
GF)4a
GF)4b
GF)4c
PARETE Argis�� 30�16�5 – P�ATEA IS��ATA
PARETE Argis�� 35�16�5 – P�ATEA IS��ATA
PARETE Argis�� 40�16�5 – P�ATEA IS��ATA
25
GF)2a
GF)2b
GF)2c
PARETE Argis�� 30�16�5 – Ter��s��ai� ��� IS��AT�
PARETE Argis�� 35�16�5 – Ter��s��ai� ��� IS��AT�
PARETE Argis�� 40�16�5 – Ter��s��ai� ��� IS��AT�
26
GF)5a
GF)5b
GF)5c
PARETE Argis�� 30�16�5 – Ter��s��ai� IS��AT�
PARETE Argis�� 35�16�5 – Ter��s��ai� IS��AT�
PARETE Argis�� 40�16�5 – Ter��s��ai� IS��AT�
26
GF)3a
GF)3b
GF)3c
PARETE Argis�� 30�16�5 – VESPAI� ��� IS��AT�
PARETE Argis�� 35�16�5 – VESPAI� ��� IS��AT�
PARETE Argis�� 40�16�5 – VESPAI� ��� IS��AT�
27
GF)6a
GF)6b
GF)6c
PARETE Argis�� 30�16�5 – VESPAI� IS��AT�
PARETE Argis�� 35�16�5 – VESPAI� IS��AT�
PARETE Argis�� 40�16�5 – VESPAI� IS��AT�
27