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- Chlorsulfoniertes Polyethylen (CSM oder CSPE)
- Ethylen-Acrylat-Kautschuk (AEM)
- FFKM (Perfluorkautschuk)
- FKM (Fluorelastomere)
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- Fluorkautschuk (FPM)
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- Polyacetal oder Polyoxymethylen (POM)
- Polychloropren (CR)
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- Polyorganophosphazen (PPZ)
- Silikon (SI)
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- Strukturformel FKM-basenresistente Elastomere
- Strukturformel FKM-Niedrigtemperatur Elastomer
- thermoplastisches Polybutadien-Elastomer (TPE)
- Elastomer, Duroplast
- Acrylnitrilbutadienkautschuk (Buna-N) (NBR)
- Brombutyl-Kautschuk (BIIR)
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- Chlor-Isobuten-Isopren–Kautschuk (Chlorbutyl Kautschuk, CIIR)
- Chloropren-Kautschuk (CR)
- Epichlorhydrin-Kautschuk (CO und ECO; CO = Homopolymer; ECO = Copolymer)
- Ethylen-Propylen-(Dien-)Kautschuk (EPM und EPDM; EPM = Copolymer; EPDM = Terpolymer)
- Isobuten-Isopren-Kautschuk (Butyl-Kautschuk IIR)
- Isopren-Kautschuk (Polyisopren IR)
- Melamin-Formaldehyd (MF)
- Naturkautschuk (NR)
- Polyesterurethan (AU)
- Polyisobutylen (Butyl-Kautschuk)
- Polynorbornen (PNB)
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- Styrol-Butadien-Kautschuk (SBR)
- Ionomer
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- Acryl-Butadien-Styrol-Copolymere (ABS)
- Ethylen-Chlortrifluorethylen-Fluorcopolymer (ECTFE)
- Ethylen-Tetrafluorethylen-Fluorcopolymer (ETFE)
- Ethylen-Tetrafluorethylen-Hexafluorpropylen Fluorterpolymer (EFEP)
- Ethylen-Vinyl-Alkohol-Copolymer (EVOH)
- Hochdichte-Polyethylen (HDPE)
- Hochdichte-Polyethylen, HDPE (hard PE)
- Minimaldichte-Polyethylen (ULDPE)
- Niedrigdichte-Polyethylen (LDPE)
- Parylen
- Perfluordimethyl-dioxol/Tetrafluorethylen-Copolymer (PDD/TFE)
- Polyacrylsäure
- Polyacrylsäureamid
- Polyacrylsäurenitril
- Polyamid (PA)
- Polyamidimid (PAI)
- Polyarylat (PAR)
- Polybuten (Polybutylen, PB)
- Polybutylenterephthalat (PBT)
- Polycarbonate (PC)
- Polychlorierte Terphenyle (PCT)
- Polychlortrifluorethylen (PCTFE)
- Polycyclohexylendimethylen-ethylen-terephthalat (PETG)
- Polyester
- Polyether-Block-Amid (PEBA)
- Polyetheretherketon (PEEK)
- Polyetherimid (PEI)
- Polyethersulfon (PESU)
- Polyetherurethan (EU)
- Polyethylen (PE)
- Polyethylenglykol
- Polyethylennaphthalat (PEN)
- Polyethylensuccinat
- Polyethylenterephthalat (PET)
- Polyketon (PK)
- Polymethylmethacrylat (PMMA)
- Polyphenylenoxid (PPO)
- Polyphenylensulfid (PPS)
- Polypropylen (PP)
- Polystyrol (PS)
- Polysulfon (PSU)
- Polytetrafluorethylen (PTFE)
- Polyvinylacetat
- Polyvinylalkohol (PVA)
- Polyvinylchlorid (PVC)
- Polyvinylfluorid (PVF)
- Polyvinylidenchlorid (PVDC)
- Polyvinylidenfluorid (PVDF)
- Saure Acrylsäureionomere des Ethylens
- Schäumbares Polystyrol (EPS)
- Strukturformel FKM-Terpolymer
- Styrol-Acrylnitril-Copolymer (SAN)
- Styrol-Butadien-Copolymer (SB)
- Tetrafluorethylen-Hexafluorpropylen-Copolymer (FEP)
- Tetrafluorethylen-Hexafluorpropylen-Vinylidenfluorid- Fluorterpolymer (TFB)
- Tetrafluorethylen-Perfluordimethyldioxol- Fluorcopolymer (TFE/PDD)
- Tetrafluorethylen-Perfluorpropylvinylether-Fluorcopolymer (PFA)
- Tetrafluorethylen-Perfluorvinylsulfonsäure- Fluorcopolymer (TFE/PVS)
- Tetrafluoroethylen (TFE)
- Vinylfluorid Tetrafluorethylen Fluorcopolymer (VF/TFE)
- Vinylidenfluorid Hexafluorbutylen Fluorcopolymer (VDF/hexafluorbutylen)
- Vinylidenfluorid Trifluorethylen Fluorcopolymer (VDF/TrFE)
- Vinylidenfluorid-Chlortrifluorethylen-Fluoropolymer (VDF/CTFE)
- Vinylidenfluorid-Hexafluorpropylen-Fluorcopolymer (VDF/HFP)
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Liquid-Crystal-Polymers (LCP)
Description:
In principle, LCPs are composites consisting of an organig matrix in which fibers of the same kind of polymer are implemented. They feature good bending and expansion qualities at high temperatures as well as chemical stability and resistance to weather, radiation and fire.
Usage:
Their biggest application potential covers the electrical engeneering, but LCPs are also used for producing supporting parts for autombiles and airplanes. Some special modifications of LCPs are also used for optical applications.
Category:
Aromatic Thermoplastic