TECAFORM AH RP natural

Reprocessed POM-C

TECAFORM AH RP natural (polyoxymethylene (copolymer)) is one of our environmentally friendly alternatives to our conventional TECAFORM AH natural. Made from reprocessed POM-C, this material offers an excellent balance between performance and sustainability. It is produced with a reduced environmental impact in mind, supporting our efforts to minimise our carbon footprint. However, it is not POM recycling, but the reprocessing of POM by-products that are derived from customer returns as part of Ensinger's take-back program.

Like the fossil variant, TECAFORM AH RP natural is an unfilled, porosity-free POM-C copolymer with exceptional physical properties. It impresses with its high mechanical strength and rigidity, low wear behavior, minimal moisture absorption and excellent dimensional stability. These properties therefore qualify TECAFORM AH RP natural for a wide range of demanding applications in various industries. In addition, the reprocessed POM material exhibits high toughness and excellent chemical resistance even at low temperatures.

Ensinger produces TECAFORM AH RP in the form of POM tubes, POM plates and POM rods made from reprocessed POM plastic.

TECAFORM AH RP natural is part of Ensinger's "Reuse for Tomorrow" initiative and an important step towards a more sustainable future by conserving valuable resources through reprocessing.

Facts

Chemical designation

POM-C (Polyacetal (Copolymer))

Color

white

Density

1.41 g/cm3

Main Features

from reprocessed by-products/ production residues with optimized PCF
stiff
high strength
resistent to cleaning agents
high toughness
very good electrical insulation
good machinability
good slide and wear properties

Target industries

mechanical engineering

automotive industry

aircraft and aerospace technology

electronics

food technology

oil and gas industry

Downloads

Datasheet (PDF)

Technical details

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Mechanical properties

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Mechanical properties	Value	Unit	Condition	Test Method
Tensile strength at yield	67	MPa	50mm/min	DIN EN ISO 527-2
Tensile strength	67	MPa	50mm/min	DIN EN ISO 527-2
Modulus of elasticity (tensile test)	2800	MPa	1mm/min	DIN EN ISO 527-2
Elongation at break (tensile test)	32	%	50mm/min	DIN EN ISO 527-2
Flexural strength	91	MPa	2mm/min, 10 N	DIN EN ISO 178
Modulus of elasticity (flexural test)	2600	MPa	2mm/min, 10 N	DIN EN ISO 178
Ball indentation hardness	165	MPa		ISO 2039-1
Compression modulus	2300	MPa	5mm/min, 10 N	EN ISO 604
Impact strength (Charpy)	150	kJ/m2	max. 7,5J	DIN EN ISO 179-1eU
Elongation at yield (tensile test)	9	%	50mm/min	DIN EN ISO 527-2
Shore hardness	82		D	DIN EN ISO 868
Compression strength	20/35/68	MPa	1% / 2% / 5%	EN ISO 604

Thermal properties

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Thermal properties	Value	Unit	Condition	Test Method
Glass transition temperature	-60	C		DIN EN ISO 11357
Melting temperature	166	C		DIN EN ISO 11357
Thermal conductivity	0.39	W/(k*m)		ISO 22007-4:2008
Specific heat	1.4	J/(g*K)		ISO 22007-4:2008
Heat distortion temperature		C	HDT, Method A	ISO-R 75 Method A
Thermal expansion (CLTE)	13	10-5*1/K	23-60°C, long.	DIN EN ISO 11359-1;2
Service temperature	140	C	short term	NN
Service temperature	100	C	long term	NN
Thermal expansion (CLTE)	14	10-5*1/K	23-100°C, long.	DIN EN ISO 11359-1;2

Electrical properties

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Electrical properties	Value	Unit	Condition	Test Method
surface resistivity	10¹⁴	Ω	Silver electrode, 23°C, 12% r.h.	-
volume resistivity	10¹³	Ω*cm	Silver electrode, 23°C, 12% r.h.	-

Other properties

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Other properties	Value	Unit	Condition	Test Method
Resistance to hot water/ bases	(+)			-
Resistance to weathering	-			-
Flammability (UL94)	HB		corresponding to	DIN IEC 60695-11-10;
HZ-Catalogue	yes	-		-
HZ Brochure for traders	yes	lbs/in^2		-
HZ Technical guidelines	yes	lbs/in^2		-
HZ Aerospace Brochure	yes	-		-
HZ Food technology	yes	-		-
Water absorption	0.05 - 0.1	%	24h / 96h (23°C)	DIN EN ISO 62
Water absorption		%	saturation (23°C)	DIN EN ISO 62