TECAFORM AD EF natural

POM-H Bio-based

TECAFORM AD EF natural is a mass-balanced bioplastic, presenting a sustainable alternative to fossil-based POM-H (Homopolymer Acetal). This biopolymer combines a reduced carbon footprint with impressive physical properties, including outstanding sliding characteristics and excellent wear resistance, along with great strength and fatigue resistance.
Furthermore, TECAFORM AD EF natural offers a slightly higher density, hardness, and strength compared to POM-C while also offering a reduction in non-renewable fossil resource usage. This bio Acetal Homopolymer excels in excellent electrical insulation properties and is easily machinable. Consequently, this biobased plastic is ideal for applications in power transmission such as gears in electronic motors, or food processing as well as a variety of other industries.

As a Bio POM Homopolymer by Ensinger, TECAFORM AD EF natural is available in the form of bio POM-H plates and bio POM-H rods.

TECAFORM AD EF natural is part of Ensinger's "Reuse for Tomorrow" solutions, which includes carefully developed products that contribute significantly to environmental protection through their reduced carbon footprint. Find here further information about our mass-balanced bioplastics.

Facts

Chemical designation

POM-H (Polyacetal (Homopolymer))

Colour

white

Density

1.43 g/cm3

Main Features

from bio-based/ biomass-balanced raw materials with optimized PCF
good slide and wear properties
high strength
electrically insulating
good chemical resistance
difficult to bond
good machinability
not hot water resistant over 60°C

Target industries

mechanical engineering

aircraft and aerospace technology

electronics

food technology

automotive industry

Downloads

Datasheet (PDF)

Product handling (PDF)

Technical details

Mechanical properties

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Mechanical properties	Value	Unit	Parameter	Norm
Modulus of elasticity (tensile test)	3400	MPa	1mm/min	DIN EN ISO 527-2
Tensile strength	79	MPa	50mm/min	DIN EN ISO 527-2
Tensile strength at yield	79	MPa	50mm/min	DIN EN ISO 527-2
Elongation at yield (tensile test)	37	%	50mm/min	DIN EN ISO 527-2
Elongation at break (tensile test)	45	%	50mm/min	DIN EN ISO 527-2
Flexural strength	106	MPa	2mm/min, 10 N	DIN EN ISO 178
Modulus of elasticity (flexural test)	3600	MPa	2mm/min, 10 N	DIN EN ISO 178
Compression modulus	2700	MPa	5mm/min, 10 N	EN ISO 604
Compression strength	19/33/69	MPa	1% / 2% / 5%	EN ISO 604
Impact strength (Charpy)	n.b.	kJ/m2	max. 7,5J	DIN EN ISO 179-1eU
Notched impact strength (Charpy)	15	kJ/m2	max. 7,5J	DIN EN ISO 179-1eA
Shore hardness	85		D	DIN EN ISO 868

Thermal properties

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Thermal properties	Value	Unit	Parameter	Norm
Glass transition temperature	-60	C		DIN EN ISO 11357
Melting temperature	182	C		DIN EN ISO 11357
Heat distortion temperature		C	HDT, Method A	ISO-R 75 Method A
Thermal conductivity	0.43	W/(k*m)		ISO 22007-4:2008
Specific heat	1.3	J/(g*K)		ISO 22007-4:2008
Service temperature	150	C	short term	NN
Service temperature	110	C	long term	NN
Thermal expansion (CLTE)	12	10-5*1/K	23-60°C, long.	DIN EN ISO 11359-1;2
Thermal expansion (CLTE)	13	10-5*1/K	23-100°C, long.	DIN EN ISO 11359-1;2

Electrical properties

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Electrical properties	Value	Unit	Norm
surface resistivity	10¹⁴	Ω	-
volume resistivity		O*cm	DIN IEC 60093
Dielectric strength		kV/mm	DIN 53483-1

Other properties

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Other properties	Value	Unit	Parameter	Norm
Resistance to hot water/ bases	-			-
Flammability (UL94)	HB		corresponding to	DIN IEC 60695-11-10;
Resistance to weathering	-			-
Water absorption	0.05 / 0.1	%	24h / 96h (23°C)	DIN EN ISO 62
Water absorption		%	saturation (23°C)	DIN EN ISO 62

Relative costs

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Relative costs	Value	Unit	Parameter	Norm
Relative costs EU from € to €€€€€€	€