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Description: STRUCTURE Filament Wound Composite Material CHARACTERISTICS Value engineered filament wound bearing for lighter duty applications High load capacity Good misaligment resistance Excellent shock resistance Good friction and wear properties Good chemical resistance
- Bushing Type: Sleeve
- Bearing Surface Material: Other
- Lined Bearing: Yes
- Operating Temperature: -319 to 320 F
Supplier: IHS Product Design
Description: STANDARD PRACTICE FOR SHEAROGRAPHY OF POLYMER MATRIX COMPOSITES, SANDWICH CORE MATERIALS AND FILAMENT-WOUND PRESSURE VESSELS IN AEROSPACE APPLICATIONS
Supplier: McClean Anderson
Description: McClean Anderson's Composite Designer is a highly advanced, use-friendly, pattern development software used in designing and modeling complex filament wound structures. During part program development, winding simulations can be rendered with ease, allowing the users to analyze multiple winding
Standards and Technical Documents - Gas cylinders -- Refillable composite gas cylinders and tubes -- Design, construction and testing -- Part 3: Fully wrapped fibre reinforced composite gas cylinders and tubes up to 450L with non-load.. -- ISO 11119-3:2013
Description: pressure of less than 60 bar. The cylinders are constructed in the form of a disposable mandrel overwrapped with carbon fibre or aramid fibre or glass fibre (or a mixture thereof) in a resin matrix to provide longitudinal and circumferential reinforcement, and in the form of two filament wound shells
Supplier: Fluidtrol Process Technologies, Inc.
Description: reinforcement. (Layers 1 & 4) Anti-wicking barrier: 100 mil of chopped strand glass, 75% resin to 25% reinforcement. (Layer 2) Structural Layer: Filament wound continuous roving, wind angle 55 deg: 30% resin to 70% reinforcement. (Layer 3) Exterior Protection: Polyester resin gel coating. 10 mil
- Assembly / Element: Strainer Assembly
- Applications: General Purpose, Chemical, Industrial, Water
- Strainer Type: Basket (or Simplex Basket), Duplex Basket, In-line Strainers, Tee Type, Y-strainers, Conical Line, Flat Plate
- Media: Liquid
Supplier: Polygon Company
Description: As the originator of the fiberglass winding pin used in the production of fractional horsepower motors as an insulating turn point for the copper coils. We pioneered the replacement of convolute wound fuse tubes by incorporating the braiding process, then followed closely by filament winding
Supplier: Georgia-Pacific Corporation
Description: speed. Typical cure temperatures of these resins are 65°C to 95°C. After curing, filament-wound pipes demonstrate strength, dimensional stability, and a glass transition temperature (Tg) from 120°C to 220°C. Higher Tg is possible.
- Material Type / Grade: Composite Material, Thermoset
- Chemical / Polymer System Type: Phenolics (Melamine, Furan)
- Filler Material: Aramid Fiber
Supplier: Franklin Fibre-Lamitex Corporation
Description: For engineering applications throughout industry, LAMITEX® laminated materials provide a unique range of design benefits. LAMITEX® laminates are engineering materials made from layers of fibrous reinforcement such as cotton cloth, paper or woven glass cloth, which are bonded together with
- Material Choices: Plastic Tubing, Fiberglass / Composite Tubing
- Function: Structural / Mechanical Tubing
- Design Units: English
- Outside Diameter / Size: 0.3120 to 6 inch
Supplier: Serfilco, Ltd.
Description: . They are constructed of thermoset plastic resin reinforced with continuous filament wound fiberglass to offer the strongest FRP composite obtainable. No pigments or fillers are used, making these chambers suitable for a wide range of liquids. Standard models have EPDM O-Rings (FKM optional) and CPVC internals
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Featured Products for Filament Wound Composites Top
Isomandrel® - New technology for composites
Precise, Rapid Thermal Control for Filament Wound Composites. New technology, the isomandrel ® from Acrolab Ltd. with a super thermal heat transfer characteristic significantly improves both cure consistency and cure rate for heat cured, filament wound, composite part production. (Check out YouTube Video). http://www.slideshare.net/petermccormack/acrolab-isomandrel-technology-4702015. This innovative technology has already captured significant interest for parts manufacturing... (read more)
Browse Heat Pipes Datasheets for Acrolab Ltd.
HSG™ Filament Wound Composite Cylindrical bushes
STRUCTURE. Filament Wound Composite Material. CHARACTERISTICS. High static load capacity (twice as much as standard GAR-MAX ® bearings). Excellent shock and misalignment resistance. Excellent contamination resistance. Very good friction and wear properties. Good chemical resistance. Availability. Bearing forms available in standard dimensions. Plain cylindrical bushes. Cylindrical bushes with non-standard lengths and wall thickness, flanged bearings, hexagonal and square bores, liner... (read more)
Browse Plain Bearings and Sleeve Bearings Datasheets for GGB
GAR-MAX® Filament Wound Comp. Cylindrical bushes
STRUCTURE. Filament Wound Composite Material. CHARACTERISTICS. High load capacity. Excellent shock and misalignment resistance. Excellent contamination resistance. Very good friction and wear properties. Good chemical resistance. Availability. Bearing forms available in standard dimensions. Plain cylindrical bushes. Non standard parts made to order (read more)
Browse Plain Bearings and Sleeve Bearings Datasheets for GGB
What is filament winding?
are wound, the component is cured and removed from the mandrel (or in some cases the mandrel becomes part of the component). Filament winding is traditionally used to produce pressure vessels, pipe, rocket motor casings, tanks, ducting, golf club shafts and other symmetric parts. Advanced Filament Winding Systems. McClean Anderson is a world leading manufacturer of filament winding equipment. Since 1961, McClean Anderson has contributed to the advancement of composites by providing innovative... (read more)
Browse Filament Winding Machines Datasheets for McClean Anderson
VORAFORCE™ Composite Systems
Dow Empowers Infrastructure with VORAFORCE ™ Composite Systems. Dow expands its composites portfolio with the VORAFORCE ™ TW 1100 series of polyurethane systems developed for composites fabrication by filament winding, to enhance the existing epoxy systems offering. This innovative high-performance series allow for continuous reinforcement and manufacture of cylindrical and conical structures as found in power and transmission poles, and offers enhanced toughness and robustness... (read more)
Browse Resins and Compounds Datasheets for Dow Polyurethanes
for Improved Fatigue Resistance) offers a proprietary laminate structure of the bearing backing that increases the bearing's resistance to repeated stress/strain conditions. Several years ago, Our manufacturer was approached with a seemingly straightforward application for traditional filament wound composite bushings. At issue was an application that was resulting in bearing failure after just 10,000 oscillatory cycles. The pressure on the bearing was well under the design threshold (actual applied... (read more)
Browse Plain Bearings and Sleeve Bearings Datasheets for Daemar Inc.
Conduct Research Top
Isomandrel Thermally Enhanced Mandrels for Filament Wound Pipes, Tubes and Fibre Reinforced Plastics
Hollow composite tube or pipe sections are typically manufactured using a filament winding process. Rotating mandrels are covered with continuous strand glass or carbon fibers which are impregnated with an uncured resin generally an epoxy. After winding, the mandrel covered with the resin and fiber
How Do Convolute Wound and Braided Composites Compare?
Q: "How do convolute wound and braided composites compare?" A: In general, convolute wound and braided composite materials can be considered equivalent materials. Both materials are composed of e-glass fiberglass filaments and a U.L. listed G-10 epoxy resin system. The primary difference between
and machined to ensure that the melt flows in a precise desired shape. Examples of extruders products are blown film, pipe, coated paper, plastic filaments for brush bristles, carpet fibers, vinyl siding, just about any lineal shape, plus many, many more. There is almost always downstream processing equipment
PolySlide Ballistic Failure Mode?
composite failures such as matrix cracking, laminate ply failure, and transverse fiber pullout failure. There are reasonable predictions that can be made concerning composite materials and their failures. The following is a summary of these known circumstances: * The PolySlide filament wound
No lube, no problem
Self-lubricating, nonmetallic bearings handle tough jobs and need little or no maintenance. Filament-wound composite bearings are available to fit round, square, or hex shafts, in standard metal housings, with either two-bolt or four-bolt flange or pillow-block mountings. A belt conveyor
Medical Device Link . The Effects of Annealing Conditions on the Structure and Properties of Polypropylene Fibers
or filaments made from PP homopolymer and copolymer targeted for medical applications. The effect of various annealing parameters such as time, temperature, and degree of constraint on the physical and morphological properties of the HPP and CPP polypropylene fibers were investigated using DMA
Medical Device Link . Medical Textile Structures: An Overview
armor or structural composites, novel spinning techniques can produce fibers with strengths approaching 30 g/d. Likewise, breaking extension can be varied over a broad range, from 10 40% for textile to 1 15% for industrial and 100 500% for elastomeric fibers. Yarns. Fibers or filaments
Medical Device Link .
fibers and a PEEK matrix. The tapes are used for hand lay-up compression-molded or filament-wound parts. Components, or successive plies of reinforcing materials, or resin- impregnated reinforcements are applied to the mold and the composite is built up by hand. Compression molding then cures
More Information on: Filament Wound Composites Top
Struct., Vol 45, 1999, p 4150 D.W. Jensen and T.R. Pickenheim, "Compressive Behavior of Undulations in Filament Wound Composites ," AIAA-931516-CP, 1993 A.
Design And Analysis Of Filament Wound Composite Tubes
DESIGN AND ANALYSIS OF FILAMENT WOUND COMPOSITE TUBES .
Experimental Investigation For Mechanical Properties Of Filament Wound Composite Tubes
EXPERIMENTAL INVESTIGATION FOR MECHANICAL PROPERTIES OF FILAMENT WOUND COMPOSITE TUBES .
Investigation Of The Effect Of Semi-geodesic Winding On The Vibration Characteristics...
In this thesis, the effect of semi-geodesic winding on the free vibration characteristics of filament wound composite shells of revolution with variable radii of curvature is studied.
Mechanical Characterization Of Filament Wound Composite Tubes By Internal Pressure Testing
MECHANICAL CHARACTERIZATION OF FILAMENT WOUND COMPOSITE TUBES BY INTERNAL PRESSURE TESTING .
SEMI-ANALYTICAL APPROACH TO THE ANALYSIS OF THE NONSYMMETRIC FILAMENT WOUND COMPOSITE MODEL
SEMI-ANALYTICAL APPROACH TO THE ANALYSIS OF THE NONSYMMETRIC FILAMENT WOUND COMPOSITE MODEL .
Burst Pressure Prediction of Composite Pressure Chambers Using Acoustic Emission Technique: A Review
Hill, E.v.K., Lewis, T.J.: Acoustic emission monitoring of a fil- ament wound composite rocket motor case during hydro proof.
Strain monitoring of a filament wound composite tank using fiber Bragg grating
Strain monitoring of a filament wound composite tank using fiber Bragg grating sensors .