161 |
Reinforcement mesh for bituminous layers |
US10507085 |
2003-03-11 |
US20050106964A1 |
2005-05-19 |
Jurgen Kassner |
The invention relates to reinforcement mesh for bituminous layers, in particular for bitumen-containing carriageway coatings, with crossed strands of synthetic material. The aim of the invention is to produce a reinforcing mesh which can take extreme forces introduced into a bituminous layer and is elastically deformable. Said aim is achieved whereby the strands are made from a synthetic material with a ductile yield of between 3% and 8%, preferably between 5% and 6%. |
162 |
Woven grid |
US10495846 |
2004-05-17 |
US20040266291A1 |
2004-12-30 |
Heiko
Pintz |
A wide-meshed grid fabric, in particular a geogrid, in which warp thread bundles composed of multiple warp threads and weft thread bundles composed of multiple weft threads intersect and surround meshes or lattice openings. To give the grid fabric, which may also be a scrim, a greater volume, whereby, among other things, improved reinforcement of the soil may be achieved, individual threads of a thread bundle in a mesh are longer than other threads of the same thread bundle, the longer threads running in a wave pattern and forming at least one open loop or bulge per mesh; the open loop or bulge may protrude upward and/or downward from the plane of the grid fabric. A plastic coating may stiffen the grid fabric. |
163 |
Method for making a textile |
US10739481 |
2003-12-18 |
US06786242B2 |
2004-09-07 |
Douglas John Salway; Jan L. Williams; Daniel P. Gillig |
A textile with first grouping of yarns separated from a second grouping of yarns, and displacement yarns disposed between the first grouping of yarns and the second grouping of yarns such that the displacement yarns progress in a sinusoidal manner to alternately contact the adjacent displacement yarn. |
164 |
Textile |
US10365594 |
2003-02-12 |
US20030172983A1 |
2003-09-18 |
Douglas
John
Salway; Jan
L.
Williams; Daniel
P.
Gillig |
A textile with first grouping of yarns separated from a second grouping of yarns, and displacement yarns disposed between the first grouping of yarns and the second grouping of yarns such that the displacement yarns progress in a sinusoidal manner to alternately contact the adjacent displacement yarn. |
165 |
Geotextile fabric |
US09162973 |
1998-09-29 |
US06368024B2 |
2002-04-09 |
Mark Kittson |
A unidirectional geotextile fabric for use in reinforcement of earthen retaining walls, embankments, slopes and related structures. The fabric is an open grid of high modulus of elasticity strands extending in the weft direction and strands of comparatively lower modulus of elasticity material extending in the warp direction. The fabric is preferably coated with a curable resinous material of sufficient thickness to protect the glass strands from breaking as the fabric is rolled onto cores and unrolled at the job site. When laying the fabric, a roll of the fabric is placed at one end of the face of the earthen structure being constructed and simply unrolled in a direction generally parallel to the structure's face. Because the high modulus strands of the fabric are the weft strands they extend and inhibit soil movement in a direction substantially perpendicular to the face of the structure. |
166 |
Open grid fabric for reinforcing wall systems, wall segment product and
methods of making same |
US87263 |
1993-07-08 |
US5763043A |
1998-06-09 |
John F. Porter; Mark O. Kittson; Mark Tucker; Larry Ferris; Steve LePage |
An open grid fabric for reinforcing wall systems and a method of making same. First and second sets of substantially parallel, selected rovings are combined using certain knits, leno weaves, or adhesive methods. The rovings are direct-sized with at least a silane sizing and preferably have a linear density between 100 and 2000 grams per thousand meters and are arranged at an average of 3 to 10 ends per inch. A polymeric coating is applied to the fabric at a level of 10 to 150 parts dry weight of resin to 100 parts by weight of the fabric while assuring that the open grid remains open. A method for reinforcing a wall system and a wall segment product utilizing the novel open grid fabric of the present invention are also disclosed. |
167 |
Warpwise unidirectional glass fabric with leno binding threads |
US768137 |
1996-12-17 |
US5752550A |
1998-05-19 |
Diego A. Scari'; Marco Scari' |
A unidirectional fabric produced with a continuous glass yarn which is twisted, plied or has zero twisting turns, with different gram weights. Interlacings of thin glass binding yarns for stabilizing the fabric extend warpwise to engage weft yarns in a leno interweaving. The fabric is used in the manufacture of printed circuits and in industrial applications. |
168 |
Passive intermodulation products (PIM) free antenna mesh |
US266974 |
1994-06-27 |
US5458162A |
1995-10-17 |
Ajit K. Sinha |
An open mesh material for use as a high performance RF reflective antenna surface and which is formed as a Leno type weave using electrically conductive composite yarns which have a construction for avoiding loose metal-to-metal contacts which generate undesirable passive intermodulation products (PIM). The composite yarns are formed by counterwrapping stretch resistant nonconductive strands about an insulated metal strand and a stretch resistant nonconductive filler yarn. The insulated metal strand preferably includes a beryllium-copper wire which is encapsulated within a polyamide coating. The woven mesh is coated with a RF energy transparent silicone-based paint to provide additional insulation to the plastic coated wires at the weave junctions and has a surface resistivity sufficiently low to facilitate bleed off of building electro-static charges. A method for cutting the mesh material into gore shaped reflector panels is also disclosed whereby the cut strands of the mesh panels are kept at a minimum distance spacing away from one another so as to prevent the formation of loose metal-to-metal contacts known to cause PIM. An improved PIM free method of attaching the gore shape mesh panels to the ribs of a reflector is also disclosed. The attachment method includes bonding the adjoining side edge margins of adjacent gore shape mesh panels in an over and underlapping fashion to an intermediate doubler mesh material which, in turn, is sewn directly to the ribs. |
169 |
Weave structure for preventing woven tape selvedge from fraying |
US213062 |
1994-03-15 |
US5454404A |
1995-10-03 |
Mitsuhisa Okawa |
A woven structure for preventing selvedges of a woven tape with a back surface covered by a coating of synthetic resin from fraying, wherein at least the cut portion of the woven tape, which is obtained by cutting a large-width woven fabric longitudinally along its width, has an interlaced woven structure along a predetermined width. |
170 |
Process for the preparation of a network article |
US846517 |
1992-03-04 |
US5244693A |
1993-09-14 |
Shin-ichi Inaba; Yasuyuki Shindo; Shirou Tsubouchi; Hiroki Naganuma; Yoshio Nakazawa; Ryusuke Hayashi; Kanji Yamada |
A process is disclosed for the preparation of a network article of a leno cloth fixed with a resin. The leno cloth is impregnated with the resin and the resin is solidified while tension is applied in the direction of the weft of the cloth. |
171 |
Reinforced dental appliances and prostheses |
US596308 |
1990-10-12 |
US5176951A |
1993-01-05 |
David N. Rudo |
A method of reinforcing a dental appliance or prosthesis comprising a resin, which includes the steps of applying to a resin portion of the dental appliance or prosthesis a lightweight, woven aramid or extended chain polyethylene fabric, and covering the fabric with more of the resin. Also disclosed are reinforcing materials (preferably a plasma-coated Spectra.TM. fabric), and dental appliances or prostheses reinforced by a lightweight, woven aramid or extended chain polyethylene fabric. |
172 |
Impregnated leno fabric and reinforced inorganic matrix article |
US490400 |
1990-03-08 |
US5110656A |
1992-05-05 |
Shin-ichi Inaba; Yasuyuki Shindo; Shirou Tsubouchi; Hiroki Naganuma; Yoshio Nakazawa; Ryusuke Hayashi; Kanji Yamada |
A network article comprises reinforcing fiber fixed with a resin, in which the weft is almost straight and, preferably, the warp is also almost straight. To attain this, the warp consists of at least two kinds of yarns having different rigidities, and the lower rigidity yarn wreathes with higher rigidity yarn. Alternatively, a leno cloth is drawn in the weft direction to straighten the weft and then the resin is solidified under tension. The network article and a shaped inorganic product reinforced therewith exhibit higher tensile strength than those of the prior art. |
173 |
Secondary carpet backing fabrics |
US129629 |
1980-03-12 |
US4406310A |
1983-09-27 |
Arthur M. Reader; Robert D. Evans |
A secondary carpet backing fabric woven from man-made fiber warp and weft yarns, the warp yarns preferably being ribbon, including fibrillated, yarns, and at least some of the weft yarns having a random intermingled array of loops and filaments, weft yarns not having a random intermingled array of loops and filaments preferably being such ribbon yarns. Preferably, the secondary backing fabric has an open weave construction of leno structure. These backing fabrics having unusually strong adhesion because of the open structure of the weft yarns which have the random intermingled array of loops and filaments. Air textured core and effect yarns are especially suitable. Carpets having this secondary backing can be glued down to a floor with good adhesion. |
174 |
Fabric with double leno warp threads |
US139136 |
1980-04-10 |
US4328841A |
1982-05-11 |
Giulio Fontana |
A fabric with double leno warp threads having a warp comprising threads of elastomeric material, particularly adapted for the manufacture of elastic bands and body-belts. In such a fabric the threads of elastomeric material are firmly bound to the other threads of the fabric by double leno warp threads avoiding curliness and allowing the fabric to retain a high softness even after many washing operations. |
175 |
Liquid filtration process |
US71296 |
1979-08-30 |
US4289627A |
1981-09-15 |
Dieter Disselbeck; Gerhard Neumann; Karl-Heinz Ott; Gunther Strobel; Edwin Zalewski |
A three dimensional filter element of a porous fabric of synthetic fibers wherein the individual threads are bound to each other as to be unshiftable, said fabric having an air permeability of more than 50 l/dm.sup.2 . min at a pressure difference of 2 millibar and resisting to a permanent load over the entire filter area without the formation of free regions and a method for the separation of solid material from a liquid phase by means of the three-dimensional filter element preferably by gravity. |
176 |
Arrangement for producing selvage in woven fabrics |
US698712 |
1976-06-22 |
US4072174A |
1978-02-07 |
Theodor Wagner |
In a weaving machine an arrangement for producing selvages in woven fabrics. The arrangement includes a frame which is mounted between the healds and the woven fabric. A plurality of guide needles are pivotally mounted in the frame and are controlled by electromagnets mounted on the frame. The guide needles have eyes through which selvage threads fed from spools are passed. Each guide needle is adapted to independently guide a selvage thread during the weaving process. |
177 |
Chip detecting and monitoring device |
US3686926D |
1970-04-01 |
US3686926A |
1972-08-29 |
MILLER CHARLES C; RUMBERGER WILLIAM E |
A device for detecting conductive and non-conductive material present in fluid systems and lines, such as hydraulic, lubricating or cooling systems. The basic device is a woven mesh screen, which is cylindrical, flat or other shape, and comprises conductors of alternate polarity and non-conductors. The conductors may serve as the fill yarn while the non-conductors serve as the warp, or vice versa. Preferably, the selected weave exposes the conductors on one side, i.e., facing into the flow of fluid, with the non-conductors on the downstream side. A chip is detected when it contacts a pair of conductors of opposite polarity, thereby completing an electrical circuit and energizing a signal. Provision is made for incorporating a pressure sensitive device with the screen wherein rate of buildup of both conductive and non-conductive debris on the screen will be indicated by the change in pressure differential across the screen. The device, therefore, is readily incorporated into circulating fluid systems of all types. An embodiment of the invention permits the device to perform the functions of both a filter and a detector wherein debris below a certain size is not electrically detected, but is filtered out of the system.
|
178 |
Non-woolen textile that simulates woolen homespun fabric |
US30753163 |
1963-09-09 |
US3208483A |
1965-09-28 |
MAX LILA J |
|
179 |
Woven webs |
US33653053 |
1953-02-12 |
US2772699A |
1956-12-04 |
SCRUGGS THOMAS M |
|
180 |
Method of making figured fabrics |
US19542838 |
1938-03-12 |
US2187469A |
1940-01-16 |
CARRAGHER HUGH J |
|