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The rubber coated tire cord fabric can be used in different fields, such as tires, rubber hose, pneumatic marine fender , and the other rubber products.
Rubberized tire cord fabric is used the high quality fabric calendered by natural rubber, with the characteristics of high tensile strength, black and bright color , smooth surface, stronger adhesion, and longer service time.
There are different thickness of rubberized tire cord fabrics produced by our factory. If you have special requirements, please tell us what products you make, the detailed specifications and the thickness . We can also produce according to your requirements.
Rubberized tyre cord fabric is semi-product of tires, and also can be used to produce rubber hose, tire . Natural rubber calendered fabric is suitable for various rubber products and plays the role of skeleton support.
The regular width is 2250px-3625px, can be producted by the costomer's requirement.
The regular thickness is 1.1mm， also can be producted by the customer's requirement.
1.high tensile strength
2.black and bright color
5.longer service time
Widely used in tire, rubber hose, sole, sand pipe, rubber joint, triangle belt and other rubber products; And also used in oil field pipeline, valve pipeline, Marine pipe fittings, large-caliber oil pipeline, etc.
Nylon 6: 930dtex/2, 1400dtex/2, 1870dtex/2, 2100dtex/2, 1400dtex/3 etc.
Polyester: 1100dex/2, 1100dex/3, 1440dtex/2, 1440dtex/3, 1670dtex/2, 1670dtex/3, 2200dtex/2, 2200dtex/3 etc.
Note: The above are general technical specifications, which can be adjusted according to customer’ requirements.
|No.||Item||Unit||1870dtex/2 (1680D/2)||1400dtex/2 (1260D/2)||930dtex/2 (840D/2)||2100dtex/2 (1890d/2)||1170dtex/1 (1050D/1)||700dtex/1 (630D/1)||1870dtex/1 (1680D/1)||1400dtex/1 (1260D/1)||930dtex/1 (840D/1)|
|1||Breaking strength (min)||N/end||279.3||215.6||137.2||313.6||90||50||137||107||70|
|2||Elongation at 88.2N||%||9.5±0.5||-||-||9.5±0.5||-||-||8.0±0.8||-||-|
|Elongation at 66.6N||%||-||9.5±0.5||-||-||8.0±0.8||-||-||7.0±0.8||-|
|Elongation at 44.1N||%||-||-||9.5±0.5||-||-||7.5±0.8||-||-||7.5±0.8|
|3||Adhesive strength (min)||N/cm||166.6||147||117.6||176.4||65||43||83||69||54|
|4||Breaking strength difference (max)||%||3.8||3.8||3.8||3.8||5||5||5||5||5|
|5||Breaking elongation difference (max)||6.3||6.3||6.3||6.3||7||7.5||7||7||7|
|6||Dip pick up||4.5±1.0||4.5±1.0||4.5±1.0||4.5±1.00||4.2±0.8||4.2±1.00||4.2±1.00||4.2±1.00||4.2±1.00|
|7||Breaking elongation difference (max)||%||23.0±2.0||23.0±2.0||22.0±2.0||23±2.0||20.0±2.0||19.0±2.0||20.0±2.0||20.0±2.0||20.0±2.0|
|9||Primary twist(Z)||T/10cm||32±15||37±15||46±15||32±15||TPM/m: 20±15||TPM/m: 26±15||16±10||19±10||21±15|
|10||Heat shrinkage (max)||%||6||6||6||4||4.5||4||4||4||4|