Material characteristics of Duroplast and Technopolymer

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Duroplast Technopolymer Elastomers Thermoplastic Elastomers This group includes plastic materials With increasing temperature and The group of elastomers includes which solidify by chemical reactions. once the softening point is exceeded, materials which can be stretched and They closely crosslink into spatial this group of Technopolymer melts, bent without exerting great force. lattice patterns of macromolecules can be heat distorted and solidifies Once the deforming force relaxes or which gives Duroplast material high again after cooling. This process can no longer acts at all, the parts take mechanical strength and surface be repeated any number of times. Un- their original shape. hardness. Their elasticity is low, how- like Duroplast, there is no chemical In chemical terms, these are macro- ever. reaction during processing. molecules which are interconnected The curing process is irreversible. Technopolymer materials can be sub- by only a few chemical crosslinking Unlike Technopolymer, Duroplast divided into amorphous and partially bridges. cannot be melted because it is rigid crystalline plastics. The disordered By way of modification, elastomers up to degradation temperature. Phe- structure of amorphous materials al- can be made in varying degrees of nolic resins are among the most com- lows the production of transparent hardness. They can be dyed easily by monly used Duroplast materials. components by injection moulding adding colour pigments. right through to crystal-clear parts. In general, the molecular crosslinking Partially crystalline Technopolymer of Duroplast creates good chemical have a structure resulting in enhan- stability. ced mechanical properties and tem- The colouring options of components peratures of use. made of Duroplast are limited. The wide variety of diGerent Tech- nopolymer and their options of mo- difications allow the production of “tailor-made” construction materials with respect to mechanical proper- ties, chemical resistance, tempera- ture resistance and diGerent colours.

Information

The above details are general values without claiming to be complete. Material properties may vary widely through addi- tives, modifications and environmental influence factors. The details are unsuitable as the sole basis for constructions. The data may not be used in place of tests to determine the VXLWDELOLW\RIDPDWHULDOIRUDVSHFLıFSXUSRVH5HIHUHQFHLVPDGHDWWKLVSRLQWWRWKHPHFKDQLFDOVWUHQJWKYDOXHVRIYDULRXV plastic products which have been determined by tests. ɵ3DJHij No warranty or liability will be accepted fort the above specifications and details. 7KHHVVHQWLDOSODVWLFPDWHULDOVXVHGIRU*$17(5(/(6$SURGXFWVDUHOLVWHGLQWKHWDEOHVEHORZ

Technical information | Page 1141 Material characteristics of Duroplast and Technopolymer

Duroplast Technopolymer Symbol PF 31 PA 6 PA 6 GF30 PA-T Description Polyamide with Polyamide Phenolic resin Polyamide 30 % glass fibre transparent Specimen condition dry / dry / – – air humid air humid Yield stress – 80 / 50 – / – 90 Tensile strength in MPa * 60 – / – 180 / 110 – Tension-E-Module in MPa * 9000 3000 / 1500 9000 / 6500 2800 Ball indentation hardness 250 150 / 70 220 / 150 140 in MPa * Temperature resistance: šPD[VKRUWWHUP 180 °C 180 °C 200 °C 180 °C

šPD[ORQJWHUP 140 °C 90 °C 120 °C 90 °C šPLQDSSOLFDWLRQWHPSHUDWXUH –20 °C –40 °C –40 °C –30 °C Resistance to: š2LOJUHDVHV + + + + š6ROYHQWV 7UL3HU o + / + + / + + / + š$FLGV ZHDNVWURQJ + / – o / – o / – – / – š$ONDOLQHV ZHDNVWURQJ + / – + / o o / – + / + š3HWURO + + + + š$OFRKRO + + + – š+RWZDWHU o o o – š89OLJKWZHDWKHUH[SRVXUH – o o o Fire behaviour (UL 94) V-0 HB HB V-2 General This Duroplast The material group polyamide 6 (partially crystalline) oGers material on phenolic universal materials for mechanical function components in resin basis with mechanical engineering. organic filler has the Polyamides are: following properties: - cold-temperature resistant

- impact stress resilient and impact resistant High stiGness and - abrasion resistant hardness, low tendency to creep, 5HLQIRUFHGSRO\DPLGHVVXFKDV3$*)FRPELQHKLJK high heat forming stiGness and rigidity with extreme impact strength, properties resistance, low ther- which make them highly robust under mechanical stress. mal linear expan- sion, high surface Polyamide PA-T (amorphous) is translucent with a slightly yel- slip resilience, low low transparency. Typically used for oil level sight glass. flammability.

Phenolic resins are available only in dark colour shades. They are not suitab- le for use with food.

Typical applications include thermally insulating operating elements.

*MPa = Megapascal, + resistant, o conditionally resistant, – non-resistant

Page 1142 | Technical information Material characteristics of Duroplast and Technopolymer

Technopolymer Symbol PP GF20 PC POM-C POM-H Description Polypropylene with Polyacetal Polyacetal Polycarbonate 20 % glass fibre (Copolymer) (Homopolymer) Specimen condition – – – –

Yield stress 33 63 65 72 Tensile strength in MPa * – – – 70 Tension-E-Module in MPa * 2900 2400 2700 3100 Ball indentation hardness 80 110 145 174 in MPa * Temperature resistance:

šPD[VKRUWWHUP 140 °C 140 °C 140 °C 140 °C šPD[ORQJWHUP 100 °C 125 °C 90 °C 80 °C

šPLQDSSOLFDWLRQWHPSHUDWXUH 0 °C – 100 °C –50 °C –50 °C Resistance to: š2LOJUHDVHV + o + + š6ROYHQWV 7UL3HU o/o –/– –/+ –/+ š$FLGV ZHDNVWURQJ +/+ +/– +/– +/– š$ONDOLQHV ZHDNVWURQJ +/+ –/– +/+ +/+ š3HWURO + – + + š$OFRKRO + o + + š+RWZDWHU + – + o š89OLJKWZHDWKHUH[SRVXUH o o o o Fire behaviour (UL 94) – V-2 HB HB General Propylenes (parti- Polycarbonates Polyacetals (partially crystalline) are ally crystalline) are (amorphous) are universal materials used in function universal standard translucent plastic components for precision engineering plastic materials with materials with fol- and in apparatus construction. balanced property lowing properties: levels: They feature excellent properties: High strength, in Average strength, particular high - low friction resistance stiGness, impact re- impact resistance, - good abrasion resistance sistance, low density, good optical - good resilience excellent chemical properties, self- - good fatigue resistance resistance but very extinguishing. - good chemical resistance bad cold temperature properties. Typical applications include snap-fit But: elements (form-locking connecting sensitive to che- elements). Embedded glass micals and stress fibre, e.g. PP GF20, cracking, not enhances stiGness suitable for high and strength. dynamic stress loads, notch sen- Typical applications sitive at edges and for propylenes are corners. armatures.

*MPa = Megapascal, + resistant, o conditionally resistant, – non-resistant

Technical information | Page 1143