Applications:
Long distance telephone, catv, data communications.
Installations:
Installed in duct, self supporting (figure 8 self supporting or adss all dielectric self supporting) and direct
Burial (with armouring).
Construction:
The cable consists of a single tube containing 2 up to 24 fibers, which is filled with water-blocking gel. When the
Cable contains more than 12 fibers, they are divided in two groups. A colored thread identifies each group. Physical
Protection and tensile strength are provided by aramid yarn or fiberglass wound around the tube. Either pe or lszh
Jacket can be used. A ripcord is located under the jacket to facilitate jacket removal.
Technical parameters:
Maximum transmission distance: 6km (single mode); 0.3km (multimode)
Maximum pulling load: 1500n (short term installation); 900n (long term installation)
Maximum compressive load: 3000n (3.3mm loose tube diameter); 5000n (4.5mm loose tube diameter)
Twist (torsion length): 125 x overall diameter
Working temperature: -20íµ ~ +70íµ (pe sheath)
Storage temperature: -40íµ ~ +70íµ (pe sheath)
Product highlights:
Small diameter and light weight.
Through the control of the fiber exceed length which is the key technology in optical fiber manufacture, the fiber
Cable can achieve better pulling load and operating temperature.
Tube materials are water resistant and can sustain high tension. Being filled with special water-blocking gel, the
Tube can provide water protection for the fibers inside the tube.
Compact construction of the fiber cores can prevent the fiber to shrink back. This can sustain higher tensile stress
And achieve better flexibility.
íewide operating temperature range.
Product Description
1) Gel filled mulit loose tube provide good protection for the coating fiber
2 Steel wire/FRP as central tension strength
3) Good ultra violet radiation resistant
4) Double sheath and conrrugated steel tape armored..Good moisture-resistance.
5) Single mode G652D fiber type .
APPLICATION
1) Adopted to Outdoor Direct buried,Aerial, Duct installation
2) Access network and local network in high electromagnetic interfering places.
Information OF 12CORE GYTA53 FIBER CALBE
No. of Tube 2Looses tube+4Filler tube
No. of fiber/Tube 6Fibers
No. of fiber 12 Fibers
Approx. Cable Diameter 13.4~19.6mm
Loose Tube Material PBT
Filling compound (Tube) Thixotropic Jelly
Strength Member Steel Wire or FRP
Water Blocking Water Swell able Material
Corrugated Steel Tape Nom. 0.25mm Thick.
Outer Sheath Nom. 2.7mm Thick. Black MDPE
Mechanical & Environmental Performance
Tensile Strength Long Term: 1000N, Short Term: 3000N
Crush Resistance Long Term: 1000N, Short Term: 3000N
Bending Radius Long Term: 10D, Short Term:20D
Storage Temperature -20~+60°C
Optical Fiber Performance
Fiber Type G.652D,125.0±1.0µm
Mode Field Diameter 9.2 ± 0.2µm at 1310 nm
Cladding Diameter 125 ± 1µm
Cladding Non-Circularity: = 1%
Coating Diameter 245 ± 10µm
Attenuation Coefficient = 0.36dB/km at 1310nm, = 0.22dB/km at 1550nm
Chromatic Dispersion =3.5ps/nm/km at 1285~1330nm, =18ps/nm/km at 1550nm
Zero Dispersion Wavelength 1300~1322nm
PMD Coefficient = 0.2ps/vkm
GYTS armored fiber optic cable
   1. Description
· Duct optical fiber cable, optical fiber cable, fiber optic cable, loose tube fiber optic cable
· GYTS Outdoor Aerial Optical Fiber Cable with Maximum Fiber Number of 288 CoresÂ
·Strength Member: Steel wireÂ
·Fiber: can choose SM 9/125 or MM: 62.5/125 ,50/125, OM1,OM2,OM3,OM4
 2. Characteristics
1.Low dispersion and attenuation
2.Good mechanical and temperature performance
3.High strength loose tube that is hydrolysis resistance
4.Special tube filling compound ensure a critical protection of fiber
5.With small cable diameter, light cable weight
6.Crush resistance and flexibility
7. The following measures are taken to ensure the cable watertight:
           * Loose tube filling compound
           * 100% cable core filling
Mix White-ecru Fabric Cuttings (clips) And Mix Quality (cotton, Cotto/lycra etc.) BALES WASTE.
Materials are suitable for the production of felt - shoddy (for disintegration into fibers).
Post industrial.
Can load in 1x40HC container aprox. 25-27 MT net.
Ready for shipment. Photos available upon request.
If you are interested kindly contact us for more information (price, available quantity etc.).
You are welcome to visit our company premises and supervise our materials.
Certificate ISO: 9001, ISO: 14001, OHSAS 45001, AQSIQ and CCIC.
PMMA-ACRYLIC MIX COLORS, aprox. 95% STRIPS (LABELS CUT-OFF) EXTRUSION GRADE and aprox. 5% Cuttings White Color From The Production Of Tubs (clean, Without Glass Fiber) Cast Grade.
Post industrial. Materials are bulk.
Can load bulk in 1x40' Open Top container approx. 20-24 MT.
Ready for shipment. Photos are available upon request.
If you are interested kindly contact us for more information (price, available quantity etc.).
You are welcome to visit our company premises and supervise our materials.
Certificate ISO: 9001, ISO: 14001, OHSAS 45001, AQSIQ and CCIC.
New Fabric Cuttings (hosiery Clips) Mix Colors And Mix Quality (cotton, Cotto/lycra Etc.) Bales Waste.
Materials are suitable for the production of felt - shoddy (for disintegration into fibers) and other apllications.
Post industrial.
Can load in 1x40HC container aprox. 25-27 MT net.
Ready for shipment. Photos available upon request.
If you are interested kindly contact us for more information (price, available quantity etc.).
You are welcome to visit our company premises and supervise our materials.
Certificate ISO: 9001, ISO: 14001, OHSAS 45001, AQSIQ and CCIC.
The Tire derived Steel or Tire Wire Scrap is a light melting scrap obtained during the shredding and granulation process of used tires.
Generally 10% - 20% of the weight of an old passenger car tyre usually consists of steel. An average shredding plant produces about 100-200 MT of steel tyre wire and its quality can vary according to technology, storing and management systems adopted by the producing plants.
We can provide tire wire scrap that still contains up to 20% rubber/fiber. This percentage is detected by manual separation test.
The material can be loaded loose in 40 HC container.
For further details, please feel free to contact us.
Desulphurisation Slag is an iron slag derived from the desulphurisation skimming process. This material is an iron by- product that is encapsulated in varying levels of contaminants (S,Mg,Si), but has a stable chemistry with 75 -80% chemistry.
The level of Fe% in the slag has been estimated by water displacement test.
This material con offer competitive advantages respect other metal scraps:
Price;
Stable Chemistry;
The material can be loaded loose in 20 heavy duty container.
The fibers, 125μm, are positioned in a loose tube made of a high modulus plastic. The tubes are filled with a water-resistant filling compound. A Fiber Reinforced Plastic (FRP) locates in the center of core as a non-metallic strength member. The tubes (and fillers) are stranded around the strength member into a compact and circular core. An Aluminum Polyethylene Laminate (APL) is applied around the cable core. Then the cable core is covered with a thin polyethylene (PE) inner sheath, which is filled with jelly to protect it from water ingress. After a corrugated steel tape armor is applied, the cable is completed with a PE outer sheath.
Product Description :
Bitumen is widely used in the construction of asphalt roads and bituminous membrane products. Bitumen is commonly used to build highways, motorways and rail networks. Bitumen has excellent water-proofing properties and is widely used for making roofing products along with a range of other household and industrial applications, from emulsion paints to sound-proofing. Penetration Bitumen and Bitumen Emulsions are used for the construction of railway tracks and by using special types of bitumen such as Polymer Modified Bitumen, the vibration and noise levels are reduced due to a dampening effect. Bitumen has been proven to be effective on both high-speed railway tracks and heavy load railway tracks. Bitumen is also used for surfacing airfield runways and air strips (PMB is preffered due to its fuel resistant properties) and taxi ways. For the Marine construction industry bitumen is used for hydraulic applications such as canal lining, underwater tunnels, river bank protection, dam construction and sea defences. There are also numerous industrial applications like roofing felt material, printing inks, packaging paper, linoleum, electrical cable / Junction box insulation, mastic for roofing of terraces, and duplex paper manufacture.
Price of product ( USD price or FOB price) :
3.000 MT monthly market price.
10.000 MT monthly market price Less 5%.
Product origin : Russia and Non Russia
Key Specifications/Special Features :
Specifications for types/grades of Oil Bitumen according to buyer specifications and/or will be given upon received buyer credible purchase request in the form LOI/ICPO docs.
Minimum Order Size and Packgaing details :
MOQ 3000 MT
Bulk in tanker vessels.
Drums 150/180/200 Kg.
Jumbo bags 1000 Kg.
Poly bags 32 Kg.
Tanks 20 MT.
Food, Feed & Pharma Grades
- Various particle sizes (very coarse to very fine).
- • Various hydration rates (very slow to very fast).
- • Various viscosities (1% solution in water = 50 cps to 7000 cps).
- • Special deodourised grades.
- • Special low microbiological count grades.
Technical Grades
Straight Guars:
- Various particle sizes (very coarse to very fine).
- Various hydration rates (very slow to very fast).
- Various viscosities (1% solution in water = 50 cps to 8000 cps).
- Special good Dry-Flow (Free-Flow) Guars.
- Special Anti-Dusted Guars.
Modified Guars and Guar Derivatives:
- Fast hydrating / High Viscosity / Diesel Slurriable (particularly suitable for oil, gas and other deep well drilling and EOR operations like polymer flooding / fracturing),
- Borated.
- Reticulated.
- Oxidised.
- Depolymerised.
- High water absorbance capacity.
- Carboxymethyl (Anionic).
- Hydroxypropyl (Nonionic).
- Hydroxypropyltrimethyl chloride (Cationic).
- Hydroxypropyltrimethyl chloride Hydroxypropyl (Cationic, double derivative).
- Special good Dry-Flow (Free-Flow) Modified Guars / Guar Derivatives.
- Special Anti-Dusted Modified Guars / Guar Derivatives.
Guar gum is a fiber from the seed of the guar plant.
Guar gum is used as a laxative. It is also used for treating diarrhea, irritable bowel syndrome (IBS), obesity, and diabetes; for reducing cholesterol; and for preventing “hardening of the arteries” (atherosclerosis).
In foods and beverages, guar gum is used as a thickening, stabilizing, suspending, and binding agent.
In manufacturing, guar gum is used as a binding agent in tablets, and as a thickening agent in lotions and creams.
How does it work?
Guar gum is a fiber that normalizes the moisture content of the stool, absorbing excess liquid in diarrhea, and softening the stool in constipation. It also might help decrease the amount of cholesterol and glucose that is absorbed in the stomach and intestines.
There is some interest in using guar gum for weight loss because it expands in the intestine, causing a sense of fullness. This may decrease appetite.
USES:
Diarrhea. Adding guar gum to the tube feeding formula given to critical care patients may shorten episodes of diarrhea from about 30 days to about 8 days.
High cholesterol. Taking guar gum seems to lower cholesterol levels in people with high cholesterol. Guar gum and pectin, taken with small amounts of insoluble fiber, also lower total and “bad” low-density lipoprotein (LDL) cholesterol, but don't affect “good” high-density lipoprotein (HDL) cholesterol or other blood fats called triglycerides.
Diabetes. Taking guar gum with meals seems to lower blood sugar after meals in people with diabetes. By slowing stomach emptying, guar gum may also lessen after-meal drops in blood pressure that occur frequently in people with diabetes.
Constipation.
Irritable bowel syndrome (IBS).
Ginger root
Botanical name: Zingiber officinale Linn.
Family: Zingiberaceae.
Ginger oil and oleoresins are the volatile oil derived by steam distillation of ginger and oleoresin. It is obtained by percolating the powdered rhizomes of Ginger, Zingiber officinale with volatile solvents. Ginger contains 1-2 percent of volatile oil, 5-8 percent of pungent acrid oleoresin and starch. Zingiberene is the chief constituent in the oil of ginger. Oil is employed for flavoring all kinds of food products and confectionary and finds limited use in perfumery. Oleoresin, commercially called Gingerin contains pungent principles viz. gingerol and shogaol apart from the volatile oil of ginger and is used as an aromatic, carminative, stomachic and as a stimulant.
Oleoresin from ginger is obtained conventionally by extraction of dried powdered ginger with organic solvents like ethyl acetate, ethanol or acetone. Commercial dried ginger yields 3.5-10.0 per cent oleoresin. Ginger oleoresin is a dark brown viscous liquid responsible for the flavour and pungency of the spice.
Ginger of commerce or `Adrak` is the dried underground stem or rhizome of the plant, which constitutes one of the five most important major spices of India, standing third or fourth, competing with chillies, depending upon fluctuations in world market prices, world market demand and supply position.
Ginger, like cinnamon, clove and pepper, is one of the most important and oldest spices. It consists of the prepared and sun dried rhizomes known in trade as `hands` and `races` which are either with the outer brownish cortical layers (coated or unscraped), or with outer peel or coating partially or completely removed.
Ginger requires a warm and humid climate. It is cultivated from sea level to an altitude of 1500 meters, either under heavy rainfall conditions of 150 to 300 cm or under irrigation. The crop can thrive well in sandy or clayey loam or lateritic soils.
The composition of dry ginger is given below:
Dry Ginger rootMoisture:6.9 %
Protein:8.6 %
Fat:6.4 %
Fiber:5.9 %
Carbohydrates:66.5 %
Ash:5.7 %
Calcium:0.1 %
Phosphorous:.15 %
Iron:0.011 %
Sodium:0.03 %
Potassium:1.4 %
Vitamin A:175 I.U./100 g
Vitamin B1:0.05 mg/100 g
Vitamin B2:0.13 mg/100 g
Niacin:1.9 mg/100 g
Vitamin C:12.0 mg/100 g
Calorific value:380 calories/100 g.
Ginger Oleoresin is obtained by extraction of powdered dried ginger with suitable solvents like alcohol, acetone etc. Unlike volatile oil, it contains both the volatile oil and the non-volatile pungent principles for which ginger is so highly esteemed. Concentration of the acetone extract under vacuum and on complete removal of even traces of the solvent used, yields the so called oleoresin of ginger. Ginger oleoresin is manufactured on a commercial scale in India and abroad and is in great demand by the various food industries.
Applications:
Long distance outside telephone, catv, data, communications.
Installations:
Installed in duct, self supporting (figure 8 self supporting or adss all dielectric self supporting) and direct burial
(with armoring).
Construction:
The cable consists of 5 to 36 elements stranded in up to 3 layers around a central strength member and bound in a
Jacket. The elements are usually fiber containing tubes. However, fillers are also used, when needed to preserve cable
Geometry. Two to twelve color coded fibers are loosely laid in each tubes filled with water-blocking gel.
Technical parameters:
Maximum transmission distance: 6km (single mode); 0.3km (multimode)
Maximum pulling load: 1500-2700 n (short term installation); 900-1500n (long term installation)
Minimum bending radius:
Short term installation: 20 x overall diameter
Long term installation: 10 x overall diameter (non armored); 20 x overall diameter (armored)
Twist (torsion length): 125 x overall diameter
Working temperature: -40íµ ~ +70íµ (pe sheath)
Storage temperature: -50íµ ~ +70íµ (pe sheath)
Product highlights:
All the fiber containing tubes are placed in concentric layers around the central member; through the control of
The twist length, the fiber cable can achieve better pulling load and operating temperature.
Tube materials are water resistant and can sustain high tension. Being filled with special water-blocking gel, the
Tube can provide water protection for the fibers inside the tube.
Central member, which is usually either made of dielectric frp, or solid/ stranded steel coated with polyethylene,
Are placed at the centre of the cables.
This cable has been designed for long haul direct / backbone application. Our stranded loose tube design provides stable performance over a wide temperature range and is compatible with any telecommunications-grade optical fiber. Direct Buried type Fiber Optical Cables are designed for easy and economical installation.
The stranded loose tubes contain thixotropic jelly but the cable core is based on dry-block construction. Incorporation of Dry Water Block Technology eliminates the need for traditional jelly filled water blocking methods, thus providing efficient and craft-friendly cable installation.
The thixotropic jelly is used to fill the buffer tubes to prevent water ingress. Steel Tape Armoring provides a rodent protection, length markings in meters for easy determination of cable length. Extra Strength cable can also be delivered with Peripheral Strength Members.
Features & Application
òExcellent optical, mechanical & environmental performance
òHigh strength-to-weight ratio
òCSM dielectric type û Fiber Reinforced Plastic
òDry block construction
òHigh tensile strength
òHigh crush strength
òCorrosion resistance
òKINK resistance
òVery light weight
òVery flexible & small bending radius
òLong haul / backbone application
òJunction communication systems
òAll dielectric applications
òCATV applications.
Construction Parameters
Fiber Count 02 û 144 Fibers
Color of Loose Tube Blue , Orange , Green , Brown , Grey , White, Red & Black
Loose Tube Material Polybutylene Terephthalate (PBT)
Loose Tube Filling Material Thixotropic Jelly
Filler Material Medium Density/High Density Polyethylene (MDPE/HDPE)
Central Strength Member Fiber Reinforced Plastic (FRP) û Non Metallic
Core Moisture Protection Methodology Dry Block Design, Water Blocking Yarns/Tapes
Second (Outer) Sheath Material High Density Polyethylene (HDPE)
Printing on Outer Sheath Engraved Hot Foil or Inkjet Printing
Nominal Cable Delivery Length (km) 4 KM ¦ 3%.
This cable has been designed for long haul direct / backbone application. Our stranded loose tube design provides stable performance over a wide temperature range and is compatible with any telecommunications-grade optical fiber. Direct buried type fiber optical cable are designed for easy and economical installation.
The stranded loose tubes contain thixotropic jelly but the cable core is based on dry-block construction. Incorporation of dry water block technology eliminates the need for traditional jelly filled water blocking methods, thus providing efficient and craft-friendly cable installation.
The thixotropic jelly is used to fill the buffer tubes to prevent water ingress. Steel tape armoring provides a rodent protection, length markings in meters for easy determination of cable length. Extra strength cable can also be delivered with peripheral strength members.
Features & application
Excellent optical, mechanical & environmental performance
High strength-to-weight ratio
Csm dielectric type û fiber reinforced plastic
Dry block construction
High tensile strength
High crush strength
Corrosion resistance
Kink resistance
Very light weight
Very flexible & small bending radius
Long haul / backbone application
Junction communication systems
All dielectric applications
Catv applications.
Construction Parameters
Fiber Count As per CustomerÆs Requirement
No. of Loose Tube As per CustomerÆs Requirement
G.655 As per CustomerÆs Requirement
G.652 As per CustomerÆs Requirement
Loose Tube Material Polybutylene Terephthalate (PBT)
Loose Tube Filling Material Thixotropic Jelly
Filler Material Medium Density/High Density Polyethylene (MDPE/HDPE)
Central Strength Member Fiber/Glass Reinforced Plastic (FRP/GRP)
Armoring Corrugated Steel Tape Armoring
Peripheral Strength Member (if required) Aramid / Glass Yarn
Core Moisture Protection Methodology Dry Block Design, Water Blocking Yarns/Tapes
Outer Sheath Material High Density Polyethylene (HDPE)
Printing on Outer Sheath Engraved Hot Foil or Inkjet Printing
Nominal Cable Delivery Length (km) 4 KM ¦ 3%.
