Standard:aisi 316 grade stainless steel Capacity:2000ton/month Stainless steel cable & stainless wire rope is highly corrosion resistant & decorative. Excellent for marine rope rigging, stainless steel cable railing, architectural cables, cable balustrades and cable display systems. Stretch is a characteristic of all wire ropes; constructional stretch initially Steel wires for wire ropes are normally made of non-alloy carbon steel with a carbon content of 0.4 to 0.95%. The very high strength of the rope wires enables wire ropes to support large tensile forces and to run over sheaves with relatively small diameters. In the so-called cross lay strands, the wires of the different layers cross each other. In the mostly used parallel lay strands, the lay length of all the wire layers is equal and the wires of any two superimposed layers are parallel, resulting in linear contact. The wire of the outer layer is supported by two wires of the inner layer. These wires are neighbours along the whole length of the strand. Parallel lay strands are made in one operation. The endurance of wire ropes with this kind of strand is always much greater than of those (seldom used) with cross lay strands. Parallel lay strands with two wire layers have the construction filler, seale or warrington. We offer an extensive range of stainless steel wire & cable. In 1x19, 7x7 and 7x19 constructions in aisi 316 marine grade stainless steel. Sizes 1.5mm to 19mm.
1) Grade: 201, 202, 301, 302, 304, 304L, 316, 316L etc., 2) Standard: AISI, ASTM, DIN, GB, JIS, SUS 3) Diameter: 0.17mm-5.5mm 4) Condition: soft wire, semi-soft wire, hard wire 5) Surface finish: black, bright, polished, peeled 6) Packing: Woven bag, coil, others are also available according to client' requirement
Standard:aisi 316 grade stainless steel Capacity:2000ton/month Stainless steel cable & stainless wire rope is highly corrosion resistant & decorative. Excellent for marine rope rigging, stainless steel cable railing, architectural cables, cable balustrades and cable display systems. Stretch is a characteristic of all wire ropes; constructional stretch initially Steel wires for wire ropes are normally made of non-alloy carbon steel with a carbon content of 0.4 to 0.95%. The very high strength of the rope wires enables wire ropes to support large tensile forces and to run over sheaves with relatively small diameters. In the so-called cross lay strands, the wires of the different layers cross each other. In the mostly used parallel lay strands, the lay length of all the wire layers is equal and the wires of any two superimposed layers are parallel, resulting in linear contact. The wire of the outer layer is supported by two wires of the inner layer. These wires are neighbours along the whole length of the strand. Parallel lay strands are made in one operation. The endurance of wire ropes with this kind of strand is always much greater than of those (seldom used) with cross lay strands. Parallel lay strands with two wire layers have the construction filler, seale or warrington. We offer an extensive range of stainless steel wire & cable. In 1x19, 7x7 and 7x19 constructions in aisi 316 marine grade stainless steel. Sizes 1.5mm to 19mm.
The Stainless Steel wire rope Ferruled Mesh, the wire ropes are neither knotted nor crossed, it is a construction based on stainless steel wire ropes that lie parallel in pairs connected and reciprocally curved by stainless steel ferrules. The wire rope construction is 7 x 7 or 7 x 19. The standard mesh angle is 60¡ã. All the components are made from the AISI 304 or AISI 316 material group. The construction of stainless steel cable netting can be pulled apart like an accordion and our stainless steel rope mesh are all stretched when they are used. Producing a spring force that varies depending on the mesh aperture and wire rope thickness. The Rope Mesh is a vibrant, premium-quality product : the mesh aperture ( variable, from very tight to very wide ) and the wire rope diameter ( 1.2mm,1.6mm, 2.0mm, 2.4mm, 3.2mm ) determine its functionality and aesthetics. The stainless steel cable netting mostly be applied in the architecture. Data Sheet(Standard): NOS Wire Rope Diameter Aperture Min.Breaking Load Inch mm mm(W x H) KN HL-3212F 1/8 3.2 120 x 208 7.23 HL-3210F 1/8 3.2 100 x 173 7.23 HL-3290F 1/8 3.2 90 x 156 7.23 HL-2410F 3/32 2.4 100 x 173 4.08 HL-2490F 3/32 2.4 90 x 156 4.08 HL-2480F 3/32 2.4 80 x 139 4.08 HL-2470F 3/32 2.4 70 x 121 4.08.
The stainless steel wire rope woven mesh are hand-woven from the stainless steel wire rope, the rope construction is 7 x 7 or 7 x 19. The standard mesh angle is 90. The components are made from AISI 304 or AISI 316 material group. Originally intended and now are widely applied in zoos for the construction of animal enclosure, animal cage and aviary, so we could also call it " ZOOMESH ". Meanwhile, it could be also applied in the architecture. You can create a natural environment totally enclosed with ZOOMESH and replace unsightly chicken wire or non-metal mesh. The chicken wire or non-metal mesh require constant maintenance and have a relatively short-term life span. But ZOOMESH's physical properties are incredibly well suited for the above mentioned applications, most important, it is no need to any maintenance, and the life span will be more than 30 years. Stainless Steel Wire Rope Ferruled Mesh: The Stainless Steel Wire Rope Ferruled Mesh, the wire ropes are neither knotted nor crossed, it is a construction based on stainless steel wire ropes that lie parallel in pairs connected and reciprocally curved by stainless steel ferrules. The wire rope construction is 7 x 7 or 7 x 19. The standard mesh angle is 60¡£ All the components are made from the AISI 304 or AISI 316 material group. The mesh construction can be pulled apart like an accordion, producting a spring force that varies depending on the mesh aperture and wire rope thickness. The Ferruled Mesh is a vibrant, premium-quality product : the mesh aperture ( variable, from very tight to very wide ) and the wire rope diameter ( 1.2mm,1.6mm, 2.0mm, 2.4mm, 3.2mm ) determine its functionality and aesthetics. The Ferruled Mesh mostly be applied in the architecture.
polyurethane coated stainless steel wire rope screen also named Tufflex Screen with the same open area as woven wire and huge advantages over traditional screens. Tufflex as a problem solving screen media, designed to reduce screen wear, pegging, blinding, dust, noise and screen installation issues. However, for high volume production facilities, hi-tensile screens can restrict output, are short-lived and can be costly and cumbersome to change. Tufflex addresses all of these important issues. Tufflex can be rolled up and thrown on a shoulder without the fear of sharp edges or having to take two operators. Tufflex is also quieter when in operation, which can be very important if the quarry is in a built-up area. Polyurethane Coated Steel Wire Rope Screen can last over twice as long as traditional woven wire mesh. The performance is different from traditional wire, rubber and poly screens due to a combination of the poly/wire construction and the fully/partially weld features. Along with a longer lifespan, Tufflex also makes less noise than its wire counterpart, with less sound emanating from clashing objects on the screen. Polyurethane Coated Steel Wire Rope Screen produces less pegging and blinding, particularly amongst its range of partially welded screens, as the secondary vibration effects, along with the smooth finish of the poly, and the movement between wires can stop material from staying on the surface. Polyurethane Coated Steel Wire Rope Screens main feature is its wear resistant polyurethane wire ropes, fusion welded together. The mesh has sheet metal formed hooks on opposite sides, like traditional tension screen cloths. The material in the hooks can be either mild steel or stainless steel.
Material : polyurethane coated stainless steel wire rope Type: fusion welded Application : quarry shaker Welded Style : fully or partially welded Aperture shape :square or rectangular aperture range : 1.5mm to 45mm Wire rope diameter range : 1.5mm to 12mm Featureï¼? wear-resisting, noiseless , light etc Edgeï¼? hooking and as requests polyurethane coated stainless steel wire rope screen also named Tufflex Screen with the same open area as woven wire and huge advantages over traditional screens. Tufflex as a problem solving screen media, designed to reduce screen wear, pegging, blinding, dust, noise and screen installation issues. However, for high volume production facilities, hi-tensile screens can restrict output, are short-lived and can be costly and cumbersome to change. Tufflex addresses all of these important issues. Tufflex can be rolled up and thrown on a shoulder without the fear of sharp edges or having to take two operators. Tufflex is also quieter when in operation, which can be very important if the quarry is in a built-up area. Polyurethane Coated Steel Wire Rope Screen can last over twice as long as traditional woven wire mesh. The performance is different from traditional wire, rubber and poly screens due to a combination of the poly/wire construction and the fully/partially weld features. Along with a longer lifespan, Tufflex also makes less noise than its wire counterpart, with less sound emanating from clashing objects on the screen. Polyurethane Coated Steel Wire Rope Screen produces less pegging and blinding, particularly amongst its range of partially welded screens, as the secondary vibration effects, along with the smooth finish of the poly, and the movement between wires can stop material from staying on the surface. Polyurethane Coated Steel Wire Rope Screens main feature is its wear resistant polyurethane wire ropes, fusion welded together. The mesh has sheet metal formed hooks on opposite sides, like traditional tension screen cloths. The material in the hooks can be either mild steel or stainless steel.
Polyurethane Coated Steel Wire Rope Screen Polyurethane coated stainless steel wire rope screen also named Tufflex Screen with the same open area as woven wire and huge advantages over traditional screens. Tufflex as a problem solving screen media, designed to reduce screen wear, pegging, blinding, dust, noise and screen installation issues. However, for high volume production facilities, hi-tensile screens can restrict output, are short-lived and can be costly and cumbersome to change. Tufflex addresses all of these important issues. Tufflex can be rolled up and thrown on a shoulder without the fear of sharp edges or having to take two operators. Tufflex is also quieter when in operation, which can be very important if the quarry is in a built-up area. Polyurethane Coated Steel Wire Rope Screen can last over twice as long as traditional woven wire mesh. The performance is different from traditional wire, rubber and poly screens due to a combination of the poly/wire construction and the fully/partially weld features. Along with a longer lifespan, Tufflex also makes less noise than its wire counterpart, with less sound emanating from clashing objects on the screen. Polyurethane Coated Steel Wire Rope Screen produces less pegging and blinding, particularly amongst its range of partially welded screens, as the secondary vibration effects, along with the smooth finish of the poly, and the movement between wires can stop material from staying on the surface. Polyurethane Coated Steel Wire Rope Screens main feature is its wear resistant polyurethane wire ropes, fusion welded together. The mesh has sheet metal formed hooks on opposite sides, like traditional tension screen cloths. The material in the hooks can be either mild steel or stainless steel. Get quotation: TEL:+86-311-80690567 Mobile Phone: +8618103317488 Contact me with WhatsApp Email : team91@huataogroup.com Address:NO.298 ZHONGHUA NORTH STREET ,XINHUA DISTRICT, Shijiazhuang, China. Zip:050000 Wechat:18103317488 Website: www.tufflexscreen.com
Polyurethane Coated Steel Wire Rope Screen polyurethane coated stainless steel wire rope screen also named Tufflex Screen with the same open area as woven wire and huge advantages over traditional screens. Tufflex as a problem solving screen media, designed to reduce screen wear, pegging, blinding, dust, noise and screen installation issues. However, for high volume production facilities, hi-tensile screens can restrict output, are short-lived and can be costly and cumbersome to change. Tufflex addresses all of these important issues. Tufflex can be rolled up and thrown on a shoulder without the fear of sharp edges or having to take two operators. Tufflex is also quieter when in operation, which can be very important if the quarry is in a built-up area. Polyurethane Coated Steel Wire Rope Screen can last over twice as long as traditional woven wire mesh. The performance is different from traditional wire, rubber and poly screens due to a combination of the poly/wire construction and the fully/partially weld features. Along with a longer lifespan, Tufflex also makes less noise than its wire counterpart, with less sound emanating from clashing objects on the screen. Polyurethane Coated Steel Wire Rope Screen produces less pegging and blinding, particularly amongst its range of partially welded screens, as the secondary vibration effects, along with the smooth finish of the poly, and the movement between wires can stop material from staying on the surface. Polyurethane Coated Steel Wire Rope Screens main feature is its wear resistant polyurethane wire ropes, fusion welded together. The mesh has sheet metal formed hooks on opposite sides, like traditional tension screen cloths. The material in the hooks can be either mild steel or stainless steel.
Pulling grips styles and applications 1.Medium duty pulling grips are double weave for added strength with greater mesh contact on the cable to handle longer or heavier pulling jobs. 2.Light duty pulling grips are single weave with a flexible eye for easy attachment to a pulling line. Cable pulling grips are used in general underground electrical construction where pulling tensions are low. 3.Slack pulling grips are made of galvanized steel and come in three styles with a single offset eye for easy attachment to a pulling line. Cable socks closed, when the cable end is accessible, split lace and rod closing when cable end is not accessible. Cable grip are used in pulling slack for final placement of underground cable after cable pulling grips has been pulled and longer mesh for higher pulling loads where space is not restricted.