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GRANOC offers the wide product ranges in modulus between 8 Msi(54 GPa) and 131 Msi(900 GPa), filament count from 1K to 12K, thermal and electrical properties.
GRANOC provides an excellent process ability in prepreging, waeving, filament winding, plutrution and others processes.
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3-dimensional fibreglass reinforcements, Nida-Fusion STO complexes are composed of a sheet of closed-cells foam covered with a reinforcing fibre layer on each side. These three elements are linked together by fiberglass bridging strands, which go through them obliquely, forming triangulations Truss Network.
For a very competitive price, Nida-Fusion STO complexes allow you to build sandwich constructions offering :
Very good flexural strength,
Excellent fatigue and delaminating resistance,
Good high temperature and fire resistance,
Shaped structures with thickness variations,
Excellent thermal insulation
Nida-Fusion STO is patented and is offered in 2 variations :
Nida-Fusion STO complexes made of rigid foam and used for the production of planar structures without thickness variation,
Nida-Fusion STF complexes made of flexible foam and used for shaped structures with thickness variation..
Nida-Fusion STO complexes can be tailored exactly to your needs (Foam, choice and weight of reinforcements, orientation and spacing of the triangulations), and are made to order.
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WHAT IT IS
Product line consisting of sandwich complexes with any desired core and cover materials for mass production of a wide variety of components. Patent pending.
HOW IT'S MADE UP
1. Sandwich complexes: CSM, stitchbonded fabric (uni-, bidirectional, multiaxial), woven fabric
2. Resin fl ow zone: polypropylene, polyester or glass
HOW IT'S HANDLED
Ideal for closed processes: RTM, RTM light, low-pressure compression, infusion, etc.
APPLICATIONS
- Automotive industry
- Boat-building (superstructure, hull)
- Rail vehicle building (wall panelling)
- Agricultural machines (deck of cabin, roof, wing)
- Sanitary facilities (bathtubs, shower enclosures, doors)
ADVANTAGES
- Optimised resin flow, controlled resin usage
- By special cutting and overlapping, two mats can be bonded together without doubling the reinforcing material
- Excellent behaviour in vacuum process with 0.3 - 0.6 bar pressure
- Optimal for injection processes such as RTM light
- Consequently high component quality
AVAILABLE WIDTHS
- 300 - 3600 mm
- Advantage: the components of the sandwich complex can be combined as you wish
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PK2 Kevlar® N636 para-aramid fiber honeycomb is an extremely lightweight, high strength, non-metallic honeycomb manufactured with para-aramid fiber paper (DuPont Kevlar® N636 or equivalent) impregnated with a heat resistant phenolic resin. This core material exhibits improved performance characteristics over Nomex® and Korex® in the areas of weight, strength, stiffness and fatigue.
Features:
- Up to 40% higher properties than comparable density Nomex® honeycomb
- Extremely high strength to weight ratio
- Excellent thermal and moisture stability
- Improved shear strength and modulus
- Conforms to stringent smoke, toxicity and flammability standards
- High toughness
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TEPEX® xx2: polyamide 6 with a very good price/performance ratio and is available in transparent and black. The forming temperature is approx. 240°C-260°C. Applications are mainly found in the sport industry, automotive industry and miscellaneous industrial products. Continuous operating temperature is 120°C. Polyamide 6 has good chemical resistance against oils and light acids. The material is often applied in the automotive industry.
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The variety of combinations of matrix and reinforcement enables Von Roll to propose adapted technical solutions with specific mechanical, electrical, thermal, chemical, optical, and physical characteristics.
Glass mat / glass fiber-based products:
Delmat® Polyester and Durapol® F, X, M product ranges are thermoset sheets based mainly on unsaturated polyester resin (UP). Generally requested for their utmost electrical insulation properties but also for their mechanical properties. Flame-retardant and halogen-free grades available.
Delmat® Epoxy / Delglas® product range combines good insulating properties with high mechanical strength characteristics. Based on an epoxy resin system; some flame-retardant and halogen-free grades also available.
CDM - Durapol® product range adapted for the specific needs of the electronics industry: mechanical strength, temperature, chemical resistance, static dissipation, and optical sensitivity.
Deltherm®, Glastherm® and other specific products requested for their specific thermal insulation properties.
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TEPEX® xx2: polyamide 6 with a very good price/performance ratio and is available in transparent and black. The forming temperature is approx. 240°C-260°C. Applications are mainly found in the sport industry, automotive industry and miscellaneous industrial products. Continuous operating temperature is 120°C. Polyamide 6 has good chemical resistance against oils and light acids. The material is often applied in the automotive industry.
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TEPEX® x04: polypropylene offering very good price/performance ratio. Available in transparent and black; forming temperature approx. 180°C-200°C; applications in the sport and automotive industries, as well as for other industrial products. Continuous operating temperature 90°C. Thanks to the crystallinity of polypropylene, this material exhibits good chemical resistance.
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Carbon profiles combine technical properties such as
- High modulus of elasticity from 160 to 450 GPa
- An exceptional stiffness/lightness ratio,
- Flexural, compressive and tensile strength up to 3,300 MPa
- Dimensional stability (zero thermal expansion)
- Fatigue and vibration damping
- Temperature resistance (up to 230°C)
- High resistance to corrosive chemicals...
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Hexcel has produced more than 700 varieties of honeycomb over the past 60 years. Today, HexWeb® honeycomb is available in a wide range of materials and cell configurations, and additional products are continually developed in response to new uses for honeycomb sandwich construction.Hexcel not only supplies honeycomb in blocks or sheet form. We also supply honeycomb sandwich panels for aerospace and industrial applications. Hexcel also supplies Engineered Core honeycomb parts, manufactured to customer specifications in tight tolerances using Hexcel's honeycomb expertise.
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The Luxtron I652 is a fiber optic temperature measurement system designed with two measurement channels and easy to read LED display. The I652 can easily be incorporated into an industrial control scheme through the RS-232 or Analog Output ports.
Benefits
Immune and Strong :
- Fluoroptic® fiber optic temperature sensors for the I652 are immune to EMI, RF, and microwave interference
- All three types of fiber optic sensors are Kevlar® strengthened sandwiched between chemically resistant PFA Teflon®.
Field Proven and Long Lasting :
- Thousands of Luxtron Fluoroptic fiber opitc temperature measurement systems installed worldwide
- Luxtron Fluoroptic fiber optic temperature sensors been continuously working in field equipment for over 25 years.
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Description
The fibre optic temperature probe TP-02 is a high resolution temperature sensor. The sensor makes use of the inherent temperature sensitivity of the Fibre Bragg Grating as well as the thermal expansion of its housing. The packaged FBG is positioned inside a stainless steel tube with a diameter of 6 mm and is terminated with an optical connector. Pigtail length and connector can be specified following the needs of every application.
Features
- The temperature probe TP-02 can measure temperatures with a resolution of 0.04 °C and an accuracy of 0,4°C. The sensor can be used in harsh environments and is pressure tight up to 150 bar.
- The sensor can also be connectorised at both ends to make series configurations possible.
- There is also the possibility to foresee an integrated adapter at both sides of the temperature probe.
Applications
Pipeline monitoring, process control, ...
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The PRO 50 Single-Wavelength Sensors with Fiber Optics are used to measure most common materials in general purpose applications. With the fiber optic configuration, it is possible to view a target and mount the sensor electronics in a remote or more convenient location. This provides greater durability and flexibility with sensor installations that involve confined spaces and/or severe environments.
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These sensor families offer a variety of options for measuring most common materials in low temperature (0-1000°F / 0-500°C) applications.
Standard Features:
- Broad temperature ranges -40 to 932°F (-40 to 500°C)
- 8-14um operating wavelength
- Line of Site and (optional Laser Sighting Tool)
- D/2 and D/20 optics
- Two-Wire 4-20mA output
- Compact design with a rugged stainless steel enclosure (NEMA 4 / IP65)
- A wide selection of accessories
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INSULATION PADS - for hot surfaces.
Thermal Insulation Pads are ideal for gas turbines, valves, filters, meters and other accessories in a process line. They insulate the hot surface, ensuring energy conservation, protection of operators and providing comfortable work environment. These are typically used as a backing over the heating jacket or heating panel, to ensure better heat efficiencies and minimal energy loss is minimal.
The flexible construction of 'Thermo Insulation Pads' enables tailoring to any complex shapes and providing a perfect, snug fit on complex shaped surfaces.
Construction
Insulation pads consist of 2" thick (or as required) lagging of fibre glass wool insulation, embedded in two layers of fibre glass cloth. Outer layer of fibre glass cloth can be flame retardant aluminized or PVC coated or Teflon coated as required.. The final pad is shaped based on the required surface to be insulated to encapsulate the surface or equipment in it. Required cutouts for obstructions and velcrow or eyelets and strapping lays are provided to make it snug fit on the surface or equipment.
Range
Insulation pads are designed for a maximum surface temperature of 300ºC.
Every Insulation pad is custom designed based on customer requirement.
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MIST COLLECTOR.
Septum leaking in glass fiber.
Leaking septum composed most fine glass fibers.
Constructed in progressive way it is thickened in the sense of the flow of the air, guarantees a great efficiency in depth and consequently an elevated ability to I accumulate powders. It comes used a special resistant resin, for the detail employment in humidity atmospheres extreme. With it I use of this special resin the average leaking is guaranteed in particularly onerous situations.
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The Camfil Farr Hi-Flo® offers high efficiency grade filtration to address today's indoor air quality problems. The Hi-Flo can remove contaminants such as fumes, smoke, bacteria, fungi and virus-bearing droplet nuclei. The Hi-Flo is the filter of choice for the removal of nuisance contaminants such as pollens, paper dust and other atmospheric impurities.
The Camfil Farr Hi-Flo incorporates high lofted air laid micro fiber glass media to ensure reliable efficiency throughout the life of the filter. Equipped with a high quality filter material, with small fiber diameter and uniform lofting, it guarantees a consistent and reliable sub-micron particle capture throughout its lifetime. Synthetic micro mesh media backing ensures media protection and support in turbulent or varying airflows.
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Whatman offers two types of glass microfibre filters manufactured from 100% borosilicate glass: binder-free glass microfibre that is chemically inert and binder glass microfibre.
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Arrays are manufactured using highly precision etched silicon wafer V-Groove technology providing exceptional control of fiber-to-fiber pitch and linearity, in conjunction with a silicon lid enabling sub-micron accuracy. The
V-Groove chips provide a multi-fiber housing that is exceedingly lightweight, low profile and highly robust, designed for next generation high performance photonic devices. The V-Groove array assemblies are available with Single Mode, Multimode and Polarization Maintaining (PM) fibers, precise passive alignment of individual fibers, fan-out arrays or fiber ribbons to standard industry
connectors, custom fiber spacing and angled polish end-face in vertical or horizontal direction, hermetic seal and high temperature options. Designed and manufactured for a wide range of applications in Telecom, Data
Transmission and Switching, as well as High Power Fiber-Coupled Diode Laser Arrays and a host of General Fiber Optic Instrumentation.
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Fiber-Arrays consist of single mode optical fibers assembled and polished within an angled silicon V-groove. Assembled arrays come with a specific number of fibers, a fiber type and connectors on one end, and different pitches. The angled tip of arrays reduces back-reflection.
- Uniform positioning of the fiber centers due to proprietary assembly process
- These collimators can be used for fiber-optic switches, DWDMs, fiber-optic attenuators, optical isolators and other devices.
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With 59 Gratings-related patents, OFS is a leader in the creation and production of fiber Bragg gratings. We offer a full array of FBG types, such as Stablizer gratings, High Reflector Gratings, Wide Band gratings, Long Period gratings, and Fiber Arrays. We’ve developed capabilities for write-through coatings, where the acrylate does not need to be stripped from the fiber in order to write a grating, and we’ve recently developed the ability to write gratings in high-temperature fibers coated with our proprietary high-temperature PYROCOAT™ polyimide.
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Fiber Bragg Gratings (FBGs) have quickly established themselves as one of the key enabling technologies behind the 'DWDM Revolution'. EDFA gain-equalising filters, WDMs and add-drop multiplexers, created as periodic variations in the refractive index of the core of the fiber itself, have all played their part in delivering almost unlimited bandwidth - and in accelerating the transition of the entire telecommunications industry from a digital electronic to a digital photonic world.
FBGs can also be used in the fabrication of optical strain and temperature sensors, with quasi-distributed measurements possible using gratings written sequentially into a continuous length of fiber.
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The rapid increase in the demand for greater transmission capacity, DWDM has emerged as the key transmission technique. There is continuous pressure to increase the number of DWDM channels and this in turn calls for improved performance from the passive multiplexing components.
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