Technical Data 1
Technical Data 2
Technical Data 3

Technical Data 1
	PROPERTIES	POM c	POM h	PET	PA6	PA6 G	PA6 GHR	PA6 Goil	PA 66.6	PA 66	PA6 GF	PA 11	PES	PSU	unit	test met.
1	Density	1,41	1,42	1,38	1,14	1,15	1,15	1,14	1,14	1,14	1,30	1,04	1,36	1,24	g/cm3	ISO.1183 DIN.53479
2	Water.absorption in air 50% r.h.	0,2	0,2	0,2	2,8	2,4	2,2	1,5	2,6	2,6	2	0,9	0,8	0,3	%	-
3	Absorption 23°C in water-saturat.	0,7	0,7	0,5	9,0	7,0	6,0	4,8	8,4	8,0	5,2	2	2,0	0,6	%	-
	MECHANICAL PROPERTIES	POM c	POM h	PET	PA6	PA6 G	PA6 GHR	PA6 Goil	PA 66.6	PA 66	PA6 GF	PA 11	PES	PSU
4	Tensile stress at yeld at break	66	69	85	54 (80)	58 (85)	60 (90)	50 (70)	58 (86)	61 (88)	100 (130)	45	82	70	N/mm²	ISO.527 DIN.53455
5	Elongation at break	50	50	50	180 (60)	100 (20)	100 (20)	120 (35)	160 (45)	150 (40)	20	270	> 50	> 50	%	ISO.527 DIN.53455
6	Tensile Modulus of elasticity	2700	2900	3100	1700 (3000)	1900 (3400)	1900 (3500)	1700 (3100)	1800 (3100)	1900 (3200)	4000	1800	2600	2500	N/mm²	ISO.527 DIN.53455
7	Compressiontest 1% strain 1000h	14	14	20	6 (18)	7 (20)	6 (20)	6 (19)	7 (20)	7 (20)	15 (28)	4	20	13	N/mm²	ISO.899 DIN.53444
8	Impact strength Charpy 7,5 J	n.b.	n.b.	n.b.	n.b	n.b.	n.b.	n.b.	n.b	n.b	n.b	n.b	n.b.	n.b.	KJ/ m²	ISO.R179 DIN.53453
9	Notched impact strength Charpy	9	11	5	25 (5)	23 (5)	23 (5)	25 (8)	20 (5)	18 (5)	10	20	8	15	KJ/m²	ISO179/3C DIN.53453
10	Ball identation hardness	140	150	170	80 (155)	100 (165)	100 (170)	80 (150)	100 (170)	100 (170)	170 (210)	100	150	140	N/mm²	ISO2039.1 DIN.53456
11	Rockwell hardness (dry)	M88	M92	M95	M85	M88	M88	M82	M88	M89	M95	M83	M89	M69	-	ISO2039.2
12	Coefficient of friction to steel	0,30	0,30	0,25	0,42	0,42	0,40	0,34	0,40	0,42	0,50	0,36	0,40	0,45	-	-
	THERMAL PROPERTIES	POM c	POM h	PET	PA6	PA6 G	PA6 GHR	PA6 Goil	PA 66.6	PA 66	PA6 GF	PA 11	PES	PSU
13	Melting point	165	175	255	220	220	220	220	240	255	220	183	A	A	-	-
14	Thermal conductivity	0,30	0,30	0,28	0,25	0,28	0,28	0,28	0,26	0,25	0,25	0,23	0,18	0,26	W/(Km)	DIN.52612
15	Deformation at temp.HDT	115	135	95	83	96	96	90	88	103	150	55	195	174	°C	ISO.75 DIN.53461
16	Linear.expansion coeffic.23-60°C	110	110	70	90	80	80	80	85	85	50	100	60	60	10^-6.K^-1	-
17	Operating.temperature continuously	110	100	115	88	100	100	100	92	95	105	85	180	150	°C	-
18	Operat.temperature short.period-no.load	+140	+145	+170	+150	+160	+160	+160	+160	+165	+170	+120	+220	+180	°C	-
19	Min. operating temperature	-50	-50	-20	-40	-30	-30	-30	-30	-30	-30	-50	-50	-50	°C	-
20	Flammability UL 94 (3-6 mm thickness)	HB	HB	HB	HB- V2	HB V2	HB	HB	HB- V2	HB- V2	HB V2	V2	V0	HB V2	-	UL 94
21	Oxigen index (LOI )	15	15	22	24	25	25	25	27	25	24	22	38	32	%	ISO.4589
	ELECTRICAL PROPERTIES	POM c	POM h	PET	PA6	PA6 G	PA6 GHR	PA6 Goil	PA 66.6	PA 66	PA6 GF	PA 11	PES	PSU
22	Dielectric constant at 1 MHz.	3,8	3,7	3,2	7 (3,6)	7 (3,7)	7 (3,7)	7 (3,7)	8 (4)	7 (3,6)	7 (3,6)	4	3,6	3,1	-	ISO.250 DIN.53483
23	Dielectric strength	50	32	60	25	30	30	30	22	25	25	40	60	25	kV/ mm	ISO.243 DIN.53481
24	Volume resistivity	10¹⁵	10¹⁵	10¹⁶	10¹²	10¹²	10¹²	10¹²	10¹²	10¹²	10¹²	10¹⁵	10¹⁷	5.10¹⁶	Ohm.cm	ISO.93 DIN.53482
25	Dissipation.factor tan.d at 1MHz	0,01	0,01	0,01	0,06	0,05	0,05	0,05	0,06	0,06	0,06	0,05	0,01	0,02	-	ISO.250 DIN.53483

-	Figures relate to specimen conditioned at 23°C and 50% RH. Figures between brackets ( ) relate to dry specimen. Figures for materials marked with * can change according to their moisture content..
-	Figures refer to un-coloured specimen either injection moulded or machined in the easiest way. Tests made on specimen of different sizes give slightly different results.
12	Test on ground steel dry specimen load =0,05 N/mm2 speed =0,6 m/s.
15	Deformation at temperature. HDT at 1,8 N/mm2
17	Operating temperature continuously 5000h From 23 °C upwards the materials' features change in an ununiform and disproportional way due to the heat. The quoted limits are indicative and based on a tensile stress of 50% of the value at 23° C.
18	Operating temperature short period (no load)
19	The mechanical features decrease with a reduction in temperature and are influenced also by other factors (moisture , etc. ). The quoted value does not take into consideration impact conditions or heavy loads.
A	amorphous
-	All values and information provided are based on information currently in our possesion and/or results archivied from tests conducted in our laboratories . They are given in good faith and are not legally binding . For any particular application , the technical staff of Omnia Plastica are at your disposal to assist with solving your problem.

Technical Data 2

	PROPERTIES	PVDF	PTFE	PP	PE 300	PE 500	PE 1000	PVC	PC	PPO m	ABS	PEI	PPS gf40	PEEK	unit	test methods
1	Density	1,78	2,18	0,93	0,95	0,95	0,94	1,40	1,20	1,27	1,06	1,27	1,64	1,32	g/cm3	ISO.1183 DIN.53479
2	Water.absorption in air 50% r.h.	0	0	0	0	0	0	0,1	0,2	0,1	0	0,2	0	0,1	%	-
3	Absorption 23°C in water-saturat.	0	0	0	0	0	0	0,1	0,4	0,3	0,7	1,2	0,1	0,5	%	-
	MECHANICAL PROPERTIES	PVDF	PTFE	PP	PE 300	PE 500	PE 1000	PVC	PC	PPO m	ABS	PEI	PPS gf40	PEEK
4	Tensile stress at yeld at break	55	20	35	28	26	22	55	65	45	45	95	165	92	N/mm²	ISO.527 DIN.53455
5	Elongation at break	300	500	600	500	600	200	20	100	60	25	50	1	50	%	ISO.527 DIN.53455
6	Tensile Modulus of elasticity	2000	700	1100	900	800	780	2600	2300	2300	2500	3100	14000	3600	N/mm²	ISO.527 DIN.53455
7	Compressiontest 1% strain 1000h	3	1,5	4	3	3	3	7	18	16	17	20	35	-	N/mm²	ISO.899 DIN.53444
8	Impact strength Charpy 7,5 J	n.b.	n.b.	n.b.	n.b.	n.b.	n.b.	15	n.b.	n.b.	n.b.	n.b.	40	n.b.	KJ/m²	ISO.R179 DIN.53453
9	Notched impact strength Charpy	7	14	7	30	50	80	4	23	15	14	80	8	80	KJ/m²	ISO.179/3C DIN.53453
10	Ball identation hardness	100	30	75	55	50	40	75	110	100	85	170	400	-	N/mm²	ISO.2039.1 DIN.53456
11	Rockwell hardness (dry)	R62	D53	R64	R60	R60	R60	M97	M75	M84	M82	M109	R123	M109	-	ISO.2039.2
12	Coefficient of friction to steel	0,30	0,10	0,35	0,32	0,32	0,30	0	0,50	0,50	0,50	0,42	0,5	0	-	-
	THERMAL PROPERTIES	PVDF	PTFE	PP	PE 300	PE 500	PE 1000	PVC	PC	PPO m	ABS	PEI	PPS gf40	PEEK
13	Melting point	180	325	160	127	130	130	80	A	A	A	A	285	334	-	-
14	Thermal conductivity	0,11	0,24	0,4	0,4	0,4	0,4	0,15	0,21	0,22	0,15	0,22	0,20	0,25	W/ (Km)	DIN.52612
15	Deformation at temp.HDT	95	50	65	50	50	50	60	135	130	85	195	260	160	°C	ISO.75 DIN.53461
16	Linear.expansion coeffic.23-60°C	130	14	150	200	200	200	80	65	60	90	50	20	47	10^-6.K^-1	-
17	Operating.temperature continuously	140	250	90	80	80	80	60	120	90	90	180	230	230	°C	-
18	Operat.temperature short.period-no.load	+155	+260	+110	+95	+95	+100	+65	+135	+105	+100	+200	+260	300	°C	-
19	Min. operating temperature	- 50	- 200	- 10	- 30	- 30	- 50	- 5	- 50	- 20	- 20	- 30	- 50	-50	°C	-
20	Flammability UL 94 (3-6 mm thickness)	V0	V0	HB	HB	HB	HB	HB	HB V2	HB	HB	V0	V0	V0	-	UL 94
21	Oxigen index (LOI )	43	92	18	18	18	18	-	25	26	19	47	-	49	%	ISO.4589
	ELECTRICAL PROPERTIES	PVDF	PTFE	PP	PE 300	PE 500	PE 1000	PVC	PC	PPO m	ABS	PEI	PPS gf40	PEEK
22	Dielectric constant at 1 MHz.	8	2,1	2,2	2,3	2,3	2,3	3,0	3,0	3,0	3,3	3,2	4	3,3	-	ISO.250 DIN.53483
23	Dielectric strength	120	11	100	50	50	45	50	30	22	20	33	20	20	kV/ mm	ISO.243 DIN.53481
24	Volume resistivity	10¹⁴	10¹⁵	10¹⁷	10¹⁷	10¹⁷	10¹⁷	10¹⁵	10¹⁶	10¹⁵	10¹⁶	7.10¹⁵	10¹⁵	5.10¹⁵	Ohm.cm	ISO.93 DIN.53482
25	Dissipation.factor tan.d at 1MHz	0,06	0,0002	0,004	0,004	0,004	0,004	0,015	0,01	0,02	0,02	0,002	0,004	0.002	-	ISO.250 DIN.53483


-	Figures relate to specimen conditioned at 23°C and 50% RH. Figures between brackets ( ) relate to dry specimen. Figures for materials marked with * can change according to their moisture content..
-	Figures refer to un-coloured specimen either injection moulded or machined in the easiest way. Tests made on specimen of different sizes give slightly different results.
12	Test on ground steel dry specimen load =0,05 N/mm2 speed =0,6 m/s.
15	Deformation at temperature. HDT at 1,8 N/mm2
17	Operating temperature continuously 5000h From 23 °C upwards the materials' features change in an ununiform and disproportional way due to the heat. The quoted limits are indicative and based on a tensile stress of 50% of the value at 23° C.
18	Operating temperature short period (no load)
19	The mechanical features decrease with a reduction in temperature and are influenced also by other factors (moisture , etc. ). The quoted value does not take into consideration impact conditions or heavy loads.
A	amorphous
-	All values and information provided are based on information currently in our possesion and/or results archivied from tests conducted in our laboratories . They are given in good faith and are not legally binding . For any particular application , the technical staff of Omnia Plastica are at your disposal to assist with solving your problem.

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Technical Data 3
-	PROPERTIES	PVDF	PTFE	PP	PE 300	PE 500	PE 1000	PVC	ABS	-	-	unit	test methods
1	Density	1,78	2,18	0,93	0,95	0,95	0,94	1,40	1,06	-	-	g/cm3	ISO.1183 DIN.53479
2	Water.absorption in air 50% r.h.	0	0	0	0	0	0	0,1	0	-	-	%	-
3	Absorption 23°C in water-saturat.	0	0	0	0	0	0	0,1	0,7	-	-	%	-
-	MECHANICAL PROPERTIES	PVDF	PTFE	PP	PE 300	PE 500	PE 1000	PVC	ABS	-	-	-	-
4	Tensile stress at yeld at break	55	20	35	28	26	22	55	45	-	-	N/mm²	ISO.527 DIN.53455
5	Elongation at break	300	500	600	500	600	200	20	25	-	-	%	ISO.527 DIN.53455
6	Tensile Modulus of elasticity	2000	700	1100	900	800	780	2600	2500	-		N/mm²	ISO.527 DIN.53455
7	Compressiontest 1% strain 1000h	3	1,5	4	3	3	3	7	17	-	--	N/mm²	ISO.899 DIN.53444
8	Impact strength Charpy 7,5 J	n.b.	n.b.	n.b.	n.b.	n.b.	n.b.	15	n.b.	-	-	KJ/m²	ISO.R179 DIN.53453
9	Notched impact strength Charpy	7	14	7	30	50	80	4	14	-	-	KJ/m²	ISO.179/3C DIN.53453
10	Ball identation hardness	100	30	75	55	50	40	75	85	-	-	N/mm²	ISO.2039.1 DIN.53456
11	Rockwell hardness (dry)	R62	D53	R64	R60	R60	R60	M97	M82	-	-	-	ISO.2039.2
12	Coefficient of friction to steel	0,30	0,10	0,35	0,32	0,32	0,30	0	0,50	-	-	-	-
-	THERMAL PROPERTIES	PVDF	PTFE	PP	PE 300	PE 500	PE 1000	PVC	ABS	-	-	-	-
13	Melting point	180	325	160	127	130	130	80	A	-	-	-	-
14	Thermal conductivity	0,11	0,24	0,4	0,4	0,4	0,4	0,15	0,15	-	-	W/ (Km)	DIN.52612
15	Deformation at temp.HDT	95	50	65	50	50	50	60	85	-	-	°C	ISO.75 DIN.53461
16	Linear.expansion coeffic.23-60°C	130	14	150	200	200	200	80	90	-	-	10^-6.K^-1	-
17	Operat.temperature continuously	140	250	90	80	80	80	60	90	-	-	°C	-
18	Operat.temperature short period no load	+155	+260	+110	+95	+95	+100	+65	+100	-	-	°C	-
19	Min. operating temperature	- 50	- 200	- 10	- 30	- 30	- 50	- 5	- 20	-	-	°C	-
20	Flammability UL 94 (3-6 mm thickness)	V0	V0	HB	HB	HB	HB	HB	HB	-	-	-	UL 94
21	Oxigen index (LOI )	43	92	18	18	18	18	-	19	-	-	%	ISO.4589
-	ELECTRICAL PROPERTIES	PVDF	PTFE	PP	PE 300	PE 500	PE 1000	PVC	ABS	-	-	-	-
22	Dielectric constant at 1 MHz.	8	2,1	2,2	2,3	2,3	2,3	3,0	3,3	-	-	-	ISO.250 DIN.53483
23	Dielectric strength	120	11	100	50	50	45	50	20	-	-	kV/ mm	ISO.243 DIN.53481
24	Volume resistivity	10¹⁴	10¹⁵	10¹⁷	10¹⁷	10¹⁷	10¹⁷	10¹⁵	10¹⁶	-	-	Ohm.cm	ISO.93 DIN.53482
25	Dissipation.factor tan.d at 1MHz	0,06	0,0002	0,004	0,004	0,004	0,004	0,015	0,02	-	-	-	ISO.250 DIN.53483


-	Figures relate to specimen conditioned at 23°C and 50% RH. Figures between brackets ( ) relate to dry specimen. Figures for materials marked with * can change according to their moisture content..
-	Figures refer to un-coloured specimen either injection moulded or machined in the easiest way. Tests made on specimen of different sizes give slightly different results.
12	Test on ground steel dry specimen load =0,05 N/mm2 speed =0,6 m/s.
15	Deformation at temperature. HDT at 1,8 N/mm2
17	Operating temperature continuously 5000h From 23 °C upwards the materials' features change in an ununiform and disproportional way due to the heat. The quoted limits are indicative and based on a tensile stress of 50% of the value at 23° C.
18	Operating temperature short period (no load)
19	The mechanical features decrease with a reduction in temperature and are influenced also by other factors (moisture , etc. ). The quoted value does not take into consideration impact conditions or heavy loads.
A	amorphous
-	All values and information provided are based on information currently in our possesion and/or results archivied from tests conducted in our laboratories . They are given in good faith and are not legally binding . For any particular application , the technical staff of Omnia Plastica are at your disposal to assist with solving your problem.

Technical Data 1

Technical Data 2

Technical Data 3