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| SOLUTIONS IN EXPANDED POLYETHYLENE We realize any type of manufatto in expanded polyethylene using all the techniques more effective than machining than this material. The expanded polyethylene is a shockproof material to elevated performance and thanks to its characteristics of elasticity, offer an optimal level of protector. Inside of our certifyd laboratory, our qualified technicians study solutions allow that us to reduce the costs of pack thanks use to it of the quantitative minimum of material only where necessary. Our tooling of to last concurs generation to offer us extremely competitive prices for little ones, means and great lotteries of production. The staff is to Your disposition for fornirVi a completely free analysis of your system of packs and for proporVi a new solution of I pack certifyd ISTA |
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| The gummed paper is the guarantee seal that achieves the most ecological closing system, compliant with the recycling requirements at really competitive costs. Produced by Neubronner GmbH, Oberursel (D), it is produced in conformity with DIN standards and with high qualitative standards for both the paper support (kraft in pure cellulose) and glues (animal or vegetable). A wide range of substances, widths, colours, personalised printings and typologies (normal, strengthened etc.) satisfies the requirements of every customer. |
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| Balsa is a naturally recurring Ecuadorian resource. The balsa plant grows from a seedling to a mature tree in 4-6 years reaching heights of up to 28 meters (90 ft) before coming to the end of its natural life. ProBalsa is high quality coring material made from end-grain balsa wood. Its end-grain, micro-honeycomb structure offers exceptional strength and stiffness. |
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Divinycell F is the new low FST (fire, smoke and toxicity) core
material from DIAB that has been specifically developed for commercial
aircraft and public transportation. It more than exceeds the
USA and European regulatory requirements for aircraft interiors.
Also it meets the latest European fire standards for passenger
trains. Other key features include 200°C (392°F) processing
temperature, superior damage tolerance, exceptional fatigue life,
low water absorption and excellent heat ageing at 180°C (356° F).
Resistance to the majority of aircraft fluids is also excellent. |
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ArmaFORM is the solution capable of coping with all requirements in the composite market, the innovative foam core made of PET foam is lightweight, strong and resistant to both heat and chemicals. It can be covered with most laminates and foils.
- Low weight (Available densities: 100 kg/m3 and 150 kg/m3)
- Extreme mechanical resistance through high compression strength, high stability and high shear modulus
- High structural stability
- High temperature resistance: has an excellent processing temperature.
- Short-term maximum temperature up to 200°C.
- Thermoformable
- High resistance to chemicals
- Very good thermal insulation due to its excellent thermal conductivity properties
- Very low water absorption due to its inherant cell structure
- Good bonding behaviour with all laminates and foils
- Easy to use with all common procedures used in composite applications
- Low toxic smoke emission and no corrosive gas development in the event of a fire
- Gridscore version also possible |
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| The Divinycell range of polymer foam cores is the most comprehensive available. Each grade has been developed so that it meets a specific set of performance criteria. This allows designers, engineers and composite manufacturers to select the most appropriate material for their specific application. If you need a general purpose material then Divinycell H will probably meet your requirements. Need excellent FST (fire smoke and toxicity) properties then look no further than Divinycell F or P. Each grade is also available in a range of densities so that you can fine tune your selection. All grades are also available in a range of finishes to facilitate installation, enhance component quality and to meet process requirements. For series production, all Divinycell cores can be supplied in ready-made construction kits. |
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| TEPEX® sandwich is a material with fully consolidated TEPEX® dynalite facings and Rohacell® foam core. The material is thermoformable, enabling the manufacturing of very lightweight and stiff 3-D products in very short cycle times. Main application area is loudspeaker cones. |
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A core material produced from certified kiln-dried balsa wood in the 'end-grain' configuration. The properties of balsa make it ideal as a core for sandwich construction. It has extremely high strength and stiffness to weight ratios, and achieves an excellent bond with all types of resins and adhesives. It is compatible with a variety of manufacturing processes and is resistant to temperature changes, or exposure to fire, or chemicals such as styrene. It is an ideal core material for an extensive range of applications. All while being a renewable resource.
- extremely high strength and stiffness to weight ratios
- excellent fire performance
- ecological product
- wide operating temperature range (-212°C to +163°C, -414°F to +325°F)
- excellent fatigue resistance
- good sound and thermal insulation
- high impact strength
- good moisture resistance |
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A thermoplastic foam that combines outstanding fire resistance with low smoke and toxicity, along with excellent dielectric properties. It has a high strength to weight ratio, low moisture absorption, is thermoformable, and ductile. It is an exceptional core material for use in applications that demand structural fire resistance, are required to be transparent to radar, or operate in extreme hot or cold environments.
- fulfils most stringent fire requirements
- operating temperature from -194°C to +160°C (-317°F to 320 °F)
- remains ductile at cryogenic temperatures
- excellent dielectric properties (radar transparent)
- very low moisture absorption
- good fatigue resistance
- high impact resistance (non-brittle failure mode)
- thermoformable
- good sound and thermal insulation |
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A unique closed cell, cross-linked polymer foam that combines high stiffness and strength to weight ratios with superior toughness. It is non-friable, contains no CFCs, has negligible water absorption, and provides an excellent resistance to chemicals. A fine cell structure offers an excellent bonding surface that is compatible with most resins and manufacturing processes. It is ideally suited as a core material for a wide variety of light-weight sandwich structures subjected to both static and dynamic loads in service.
- high strength and stiffness to weight ratios
- good impact strength (highest elongation in class)
- low resin absorption
- high fatigue resistance
- good fire performance (self-extinguishing)
- sound and thermal insulation
- non biodegradable
- good styrene resistance |
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| ... products without technical information |
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ZRCI Refractory Sheet Types RS-Cloth and RS-Tape are fiber reinforced alumina composites in a highly flexible form. They are received dried, when wetted with water or Al-HARD Hardener they become extremely flexible. They can be wrapped into many simple or complex shapes and will stick to themselves. When dried they become an extremely hard, strong, self supporting composite structures. RS-Putty can be used to burnish any surface and provide a very smooth hard finish. After a low temperature bake-out of 300°C (570°F) RS-Cloth And Tape are unaffected by moisture.
They offer the strength, durability, flexibility and versatility required by many high temperature applications up to 1300°C (2373°F). Their high alumina content makes Refractory Sheet RS-Cloth and RS-Tape highly resistant to many environments including Hot Glass handling, molten aluminum and chemical and petroleum processing. After they are baked out they are not affected by water as well as many types of fuel oils. When hardened with AL-Hard Refractory Sheet RS-Cloth and RS-Tape become "rock hard" for greater strength. |
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ZIRCAR Refractory Composites, Inc. produces a comprehensive range of advanced high performance ceramic-ceramic
composites and related products. Our materials are used around the world in demanding thermal, structural and
electrical insulating applications at temperatures from 600°C(1112°F) to 1650°C(3002°F). For over twenty-five years we
have been a problem solver working with many industries to resolve their thermal management problems. We have
developed materials that have become industry standards for induction melting, forging and heat-treating applications,
investment casting, glass processing, hot pressing, as well as many high temperature electrical applications. |
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ZIRCAR's Refractory Sheet Type RS-A Moldable is a tough ceramic fiber reinforced insulation which contains no asbestos. Developed for induction coil liners and molten metal transport, Refractory Sheet Type RS-A Moldable is ideally suited for a wide range of high temperature, high
thermal shock applications. It is also used for brazing separators and fixtures for jewelry making, as well as a high temperature gasket material. Its high Alumina (Al2O3) content makes it resistant to sticking in many
environments, including molten metals, and it has a maximum operating temperature of 1450°C (2642°F).
Refractory Sheet Type RS-A Moldable is a wet blanket that can be easily formed into a wide variety of simple and complex shapes. Drying results in a strong rigid shape that can be re-wet to restore the original moldability. Baking irreversibly removes the moldability, leaving Refractory Sheet Type RS-A Moldable rigid and unaffected by moisture. Refractory Sheet Type RS-A Moldable can be frozen and thawed repeatedly with no loss in moldability
or other properties.
Refractory Sheet Type RS-A Moldable can be dried rapidly, either with a torch or by applying directly to a hot furnace, to make quick repairs of cracks, or to replace missing refractories. |
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ZIRCAR Refractory Composites, Inc. insulating blankets are non woven inorganic fiber-based products that contain no asbestos. They are engineered for use as thermal barrier materials in high temperature applications up to 1260°C (2300°F). Commonly used in molten metal casting and heat treating industries, ZRCI materials are also used as specialty gasketing in the fuel cell, nuclear, glass and electronic industries, as well as many other applications which require high temperature
stability and low thermal conductivity.
They offer excellent corrosion resistance and unique handling strength for easy die-cutting, wrapping and forming. |
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| ZIRCAR Refractory Comoposites, Inc. provides a variety of non-asbestos calcium silicate structural insulations that combine high strength and excellent thermal insulating characteristics for use in a variety of heat processing, fire protection and electrical resistance applications. The unique calcium silicate structure provides excellent thermal shock resistance as evidenced in its typical use as a direct contact board for non-ferrous metals and in fire training burn rooms. They are fire resistant to temperatures approaching 2000°F. They also exhibit low thermal conductivities that remain relatively constant over a broad range of operating temperatures. |
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ZIRCAR Refractory Composites, Inc. produces a comprehensive range of advanced high performance ceramic-ceramic
composites and related products. Our materials are used around the world in demanding thermal, structural and
electrical insulating applications at temperatures from 600°C(1112°F) to 1650°(3002°F). For over twenty-five years we
have been a problem solver working with many industries to resolve their thermal management problems. We have
developed materials that have become industry standards for induction melting, forging and heat-treating applications,
investment casting, glass processing, hot pressing, as well as many high temperature electrical applications. |
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| ZIRCAR Refractory Composites, Inc. produces a comprehensive range of advanced high performance ceramic-ceramic composites and related products. Our materials are used around the world in demanding thermal, structural and electrical insulating applications at temperatures from 600°C(1112°F) to 1650°C(3002°F). For over twenty-five years we have been a problem solver working with many industries to resolve their thermal management problems. We have developed materials that have become industry standards for induction melting, forging and heat-treating applications, investment casting, glass processing, hot pressing, as well as many high temperature electrical applications. |
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