Termékek poliimid anyagok (35)

Grundsätzlich arbeitet AGK mit hochtemperaturbeständigen Werkstoffen. Im Kunststoffbereich sind dies duroplastische Werkstoffe, die bis zu einer Grenztemperatur von ca. 300°C einsetzbar sind und dabei gleichzeitig formstabil bleiben. Dies ist bei Thermoplasten grundsätzlich nicht so, da sie sich unter Druck verformen. Sie zeigen ein konstruktiv unerwünschtes Fließverhalten. Allerdings gibt es auch qualitativ hochwertige Thermoplaste. Trotzdem kann die AGK - als spanender Bearbeiter - selbstverständlich diese Werkstoffe bearbeiten. AGK - Werkstoff "KU" Thermoplastische Kunststoffe mit hoher Verschleißfestigkeit und geringer Gleitreibung sind die Hochleistungskunststoffe, die unsere duroplastischen Werkstoffe ergänzen. So erhalten Sie bei uns: Polyvinylidenfluorid (PVDF), PolyetheretherKeton (PEEK), Polytetrafluorethylen (PTFE (Teflon)), Polyphenylensulfid (HPV PPS), Polyimid (PI), Polyetylen (PE), PA (Polyamid), PP (Polypropylen), POM (Polyoxymethylen, Polyacetal), und Metall -...

It has similar application areas with PVC. It has chemical resistance to acids and bases. It features weldability. Weldability is more difficult than PVC but more resistant weld seams are obtained. It has higher temperature resistance than polyethylene and PVC. Cost is low and economical since its density is very low. It has a high impact resistance. It can be used on section plates. Mechanical strength values are better compared to Polyethylene.

Wenn Sie ein widerstandsfähiges Kunststoffprofil benötigen, ist der Werkstoff Polyphenylensulfid die perfekte Lösung für Sie. Ein PPS-Kunststoffprofil hält hohen Temperaturen, Druck und der Einwirkung von aggressiven chemischen Substanzen stand. Dieser Hochleistungskunststoff bietet sich vor allem für Anwendungen in den Branchen Automobil, Elektronik, Luftfahrt und Gebäudeausstattung an. Alle notwendigen Normen und Spezifikationen werden von ihm in diesen Bereichen umfassend erfüllt. Dieser Kunststoff ist von Haus aus flammwidrig und somit ein V-0 klassifiziertes Material nach der Brandschutznorm UL94

Anwendungsbeispiele: thixotrop, selbstfließend, Hochofen: Rinnen (thixotrop) auf Basis AL2O3-SiC, Stahlwerk: Pfannen, Eisengießereien: Pfannen KEROXYD-Anwendungsgebiete Stahlindustrie Hochofen Stahlwerk Eisengießerei Kupolofen Pfannen Stahlgießerei Induktionsofen NE-Gießereien Schmelzöfen Warmhalteöfen

Geschlossenzellige Polyäthylenschäume in vernetzter und unvernetzter Ausführung erhältlich. Raumgewichte: von 20 kg/m³- 110 kg/m³

TECASINT 6012 is an unfilled grade for direct forming parts with max. strength and elongation. Lowest modulus and thermal conductivity and optimum electrical properties.

Technical plastic : Polyethylene (Short : PE) Product name Polyethylene (PE or sub groups like PE-HD, PE-LD, PE-HMW, PE-UHMW, PE 300, PE 500, PE 1000 or RCH 1000 and many more) Delivery form Sheets, cuts, milled products, base profiles Specification Polyethylene - technical plastic Polyethylene ( Short: PE ) is a technical plastic that can be processed easil. It has a density of about 0,95g/cm³ and with that it's the second least weighing plastic of all technical plastics and just because of that it offers a very interesting price. The moisture absorbtion of PE is about 0,0 %. The material is really good against lyes and acids , has a self-lubricating effect and is easy to mill ( cut, milling, lathe, water jet cutting and welding ). Furthermore it is a great material for abrasive fraught parts in e.g. machine engineering ( PE UHMW ), as inlay for bulk containers or as a cutting boards in the food industry or households. We would like to advise you which kind of PE RG ist the... Product name:Polyethylene (PE or sub groups like PE-HD, PE-LD, PE-HMW, PE-UHMW, PE 300, PE 500, PE 1000 or RCH 10 Delivery form:Sheets, cuts, milled products, base profiles Colors:Standard nature , black, green , other colors possible Regenerate : Standard black and green Thickness:8 - 280 mm (Thickness > 280 mm possible with welding ) Dimensions:3.000 x 2.500 x 8 - 120 mm* 2.000 x 1.000 x 10 - 280 mm or cuts from these standards Surface:smooth or planed, * checker pate surface possible Minimum order quantity:1 Standard sheet Material:New material or Regenerat in PE HD an PE HMW Colors:Standard nature & black , other colors possible Regenerate : Standard black Thickness:1-30 mm Dimension:2.000 x 1.000 mm 3.000 x 1.500 mm Or cuts out of these standards Surface:smooth, structured, with a foil or Regenerate which could have some flaws Minimum order quantity:20 sheets

Kunststoff-Pulver für das Lasersintern basierend auf PA1212 mit Mineralfaser gefüllt Wir sind Hersteller von Polyamiden aus Sebazinsäure, wir nennen das Produkt PA1212-basiertes Pulver. Bauteile aus diesem Pulver weisen sehr ähnliche Eigenschaften, wie das häufig benutzte PA12-Pulver. Unsere Pulver sind auch durch Fällung hergestellt, wodurch sich sehr gute Fließfähigkeiten der Pulver ergeben. Bauteile aus FS3250MF weisen folgende Eigenschaften auf: Modulus: 6100 MPa Tensile Strenght: 51 MPa Elongation at break: 5%

PDM granül kauçuktan üretildiği için oldukça esnek bir maddedir. Bu nedenler her türlü şarta kolaylıkla ayak uydurabilir. Yazın güneşi ya da kışın soğuğu bu malzemeye hiçbir şekilde zarar veremez. Elastik olmasından dolayı darbelere karşı oldukça fazla dayanıklıdır. Elastik olması malzemenin her şekle girmesine de yardımcı olur. Yapısı gereği çok dayanıklı bir ürün olan EPDM granül, öyle hava şartlarına göre değişiklik göstermez. Her duruma dayanıklı olan bu malzemede esneme, genleşme, büzülme gibi olaylar asla yaşanmaz. Bu sayede yaz sıcağında ve kış soğuğunda kolaylıkla kullanılır. EPDM sonradan renklendirilen bir madde değildir. Boyama yöntemi kullanılmayan bu malzemede renk solması gibi bir durum asla yaşanmaz. Yıllarca renkleri bozulmadan kalabilir. Bu malzemede aklınıza gelebilecek her rengi kullanabilirsiniz. Geniş bir renk seçeneğine sahip olan EPDM granül size istediğiniz rengi seçme şansını verecektir.

Vous êtes en quête d’une entreprise spécialisée pour la fabrication sur mesure de votre formule de fluorure de calcium pour vos charges spéciales ? Implantée à Cenon-sur-Vienne, notre entreprise Alumines Durmax est celle dont vous avez besoin. Avec un savoir-faire acquis depuis plus de 90 ans, nos techniciens maîtrisent à la perfection la conception et la fabrication de formules spécifiques répondant aux besoins de votre entreprise en fluorure de calcium et à la technicité de vos domaines d’application. Soucieux du travail bien fait, nous veillons à vous fournir des produits de haute pureté (aux alentours de 99,99 % de CaF2). Le fluorure de calcium présente de nombreux avantages et, notamment, le fait qu’il ne soit que très peu attaqué par des réactifs. Il s’applique idéalement aux charges pour usages spéciaux. Tout comme pour sa formule chimique, la granulométrie de votre produit peut être réalisée sur mesure, sur simple demande de votre part.

1)Polyimide Film Based FCCL--3 Layer FCCL 2)Adhesiveless Single-Sided Copper Clad Laminate-- 2 Layer FCCL , 2-layer flexible circuit boards 3)Adhesiveless Double-Sided Copper Clad Laminate-- 2 Layer FCCL 4)Conductive Adhesive Film 5)EMI Shielding Film(Electromagnetic Interference Shielding Film) 6)Ultrathin FCCL 7)Ultra-Thin Peelable Copper Foil 8)Composite Lithium-ion Battery Copper Foil 9)TRF Embedded Resistor Film 10)Very Low Profile Copper Film(HVLP) 11)LCP FCCL(Single Side/Double Side)--2L FCCL Yancheng Tiandi Insulation Co.,Ltd. https://www.polyimide-pi.com/polyimide-fccl.htm hsinsulation@aliyun.com , hsinsulation@hotmail.com Tel :+86-139-61986280 Fax : +86-515-69011600

Unser Unternehmen bietet Ihnen ein breitgefächertes Repertoire an flexiblen Elektro-Isolierstoffen für den Elektromaschinen-, Transformatoren- und Generatorenbau an. Diese Produkte kommen außerdem in der Leuchten- und Lampenindustrie sowie in der Medizintechnik zum Einsatz.

Das Gummi NP- Granulat ist frei von kanzerogenen N- Nitrosaminen und Weichmachern.

Der preisgünstige "Allrounder" Aluminiumoxid nimmt bei der Technischen-Keramik eine führende Stellung ein ,das sowohl in seiner Verbreitung und der Anwendungstiefe an erster Stelle steht. Die Gründe dafür sind die guten Allrounder – Werkstoffeigenschaften, einfache Prozesshandhabung, die weltweite breite Verfügbarkeit und der günstige Preis. Besondere Eigenschaften: - Sehr hohe Einsatztemperatur - Sehr gute elektrische Isolation - Sehr hohe Druckfestigkeit - Mittlere mechanische Festigkeit - Mittlere Wärmeleitfähigkeit - Geringe Dichte - Biokompatibel (Lebensmittelverträglich) - Hohe Korrosionsbeständigkeit Anwendungen: - Dicht und Gleitelemente in Armaturen - Verschleißschutz im Maschinen und Anlagenbau - Drahtführungen in der Kabel und Drahtindustrie - Düsen in der Hochdruckreinigungsindustrie - Thermoschutzrohre - Hochtemperaturvorrichtungen

Silicon nitride is one of the hardest ceramics but also one of the most resistant. Si3N4 is mainly used in severe environments which combine extreme temperatures with abrasive and/or corrosive medium. Silicon nitride can be of different grades : sintered, hot pressed or reaction bonded. Selection of materials Microcertec offers two high-purity Si3N4 grades that are particularly suited for hostile environments : sintered silicon nitride hot pressed silicon nitride Both Si3N4 materials are mainly designed to be used in thermal-mechanical or corrosion-resistance applications because they show an outstanding behaviour to resist to wear, thermal shocks and corrosion (liquids and gases). Moreover, these pure Si3N4 grades offer a low thermal expansion. Properties Sintered silicon nitride and HP Si3N4 have the following properties : low density excellent thermal shock resistance excellent wear resistance excellent corrosion resistance (liquids and gas) low coefficient of thermal...

It is a material with a high resistance to chemicals. Its specific weight is low. It is a slippery material with a low coefficient of friction. The water and moisture absorption property is close to zero. It can be used as cutting plate especially in industrial kitchens and butcher cutting log. It has the ability to be welded. The element that characterizes polyethylene is the molecular weight. Low molecular weight can be grouped into three groups: low molecular weight (PE 300), high molecular weight (PE 500) and ultra high molecular weight (PE 1000).

The unfilled grade TECASINT 5111 natural is based on the high-performance plastic polyimide, which is characterised by its very good thermal stability with low thermal expansion. Polyimides are non-melting polymers with a service temperature of 300 °C, which is considerably higher than that of PEEK or PPS. In addition, TECASINT 5111 natural has a high creep resistance. These properties makes PI plastic ideal for applications where high temperature resistance is required, such as in the aerospace industry. TECASINT 5111 natural has good chemical resistance, especially to light acids and many organic solvents. In combination with the very good electrical insulating properties of the PI material, TECASINT 5111 natural is also perfectly suited for applications in the semiconductor industry, electrical engineering or mechanical engineering. Moreover, the polyimide material has good mechanical properties, good wear resistance and is also resistant to high-energy radiation.

TECASINT 1011 is an unfilled polyimide natural grade. This material particularly stands out in the TECASINT 1000 product family for very high strength and elongation. It is characterised by properties such as a very high modulus of elasticity, high rigidity, high degree of hardness and low thermal and electrical conductivity. These are accompanied by high purity and low outgassing in accordance with ESA regulation ECSS Q 70 20. Its previous name was SINTIMID Pur HT.

Compared with the other TECASINT materials the TECASINT 4000 series exhibits very low moisture absorption and high oxidative stability along with improved chemical resistance. Despite its high strength, TECASINT 4011 has high elongation at break and toughness. Rigidity and modulus are significantly increased vis a vis conventional polyimides in a temperature range up to 260°C. It also has minimal thermal and electrical conductivity. The plastic is highly pure and displays low outgassing in accordance with ESA regulation ECSS Q 70 20.

TECASINT 6062 is a highly filled grade for direct forming parts with low static friction. For lubricated and unlubricated tribological applications

Starting with the base polymer TECASINT 1011, TECASINT 1061 with 15% graphite and 10% PTFE has been developed. Its properties include very low static friction and a low coefficient of friction. The material is self lubricating, which means it also has good properties in dry running conditions. TECASINT 1061 is suitable for low friction and low wear applications at medium temperatures (<200°C) and loads.

TECASINT 2391 has been developed with 15 % MoS2 from the base polymer TECASINT 2011. It has optimum friction and wear properties in a vacuum, which means it can be used in space travel applications, in a vacuum or in inert gases (techn. dry). The plastic displays low outgassing in accordance with ESA regulation ECSS Q 70 20.

Starting with the base polymer TECASINT 5011, TECASINT 5051 with 30 % glass fibre has been developed. This material is characterised by reduced thermal elongation, reduced moisture absorption and high wear strength during chip test applications in the semiconductor industry. It has good electrical insulation properties and surface hardness, and also high rigidity. The glass transition temperature is 340°C, while the maximum service temperature may be – for a short time – up to 300 °C.

Starting with the base polymer TECASINT 2011, the plastic TECASINT 2061 with 15 % graphite and 10 % PTFE has been developed. This plastic's properties include, above all, low static friction and a low coefficient of friction. Owing to its self lubricating property, TECASINT 2061 is very good for dry application. The material is suitable for low friction and low wear applications at medium temperatures (<200°C) and loads.

TECASINT 6032 is a highly filled grade for direct forming parts with low coefficient of thermal expansion and high creep resistance.

TECASINT 8061 has been made from PTFE with a modification of 40 % PI. Compared with TECASINT 8001 it has a lower creep tendency under load, along with outstanding sliding and friction properties. The material is ideally suited to soft mating materials e.g. stainless steel, brass, aluminium or bronze.

TECASINT 8001 yellow brown has been made from PTFE with a modification of 20% PI. Its properties include reduced creep under load and excellent sliding and friction properties. The material is ideally suited to soft mating materials e.g. stainless steel, brass, aluminium or bronze.

TECASINT 2011 is one of the unfilled natural grades. It has a very high modulus of elasticity, high rigidity and hardness. Compared with TECASINT 1011 it has significantly reduced moisture absorption, higher toughness and better machining properties. Within the TECASINT 2000 series the material has the maximum strength and elongation, together with a high modulus of elasticity and minimal thermal and electrical conductivity. TECASINT 2011 is highly pure with low outgassing in accordance with ESA regulation ECSS Q 70 20.

Compared with the other TECASINT materials the TECASINT 4100 series exhibits extremely high thermal stability, extremely low moisture absorption and high mechanical rigidity. This is accompanied by a very high oxidative stability and increased resistance to chemicals. TECASINT 4111 has a very high thermal stability (HDT/A=470°C). Rigidity and modulus are significantly increased vis a vis conventional polyimides in a temperature range up to 400 °C. The material has minimal thermal and electrical conductivity. The plastic is highly pure with low outgassing in accordance with ESA regulation ECSS Q 70 20.

Starting with the base polymer TECASINT 1011, TECASINT 1031 has been developed. This material contains 40% graphite, unlike the starting material. TECASINT 1031 has a very high resistance to thermal ageing and improved self lubrication. Its other properties include minimised thermal elongation for dimensionally stable components and increased creep strength.