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"DARWIN" Synthetic Conveyor belt
The high tenacity and better strength/weight ratio of Synthetic yarns, as compared to Cotton Yarn, led to the development of all synthetic fabrics resulting in belting with better flex/fatigue resistance, much improved impact resistance, unsurpassed longitudinal and transverse flexibility and other following advantages
Special Features
The high tenacity and better strength/weight ratio of Synthetic yarns, as compared to Cotton Yarn, led to the development of all synthetic fabrics resulting in belting with better flex/fatigue resistance, much improved impact resistance, unsurpassed longitudinal and transverse flexibility and other following advantages:
Higher Adhesion Levels
All Synthetic fabric reinforced belts have adhesion levels more than double to that of Cotton reinforced Conveyor Belt, resulting in no ply separation even with high contact, making belt travel possible on very small pulley diameters, complete elimination of cover stripping, improved edge wear characteristics, redundancy of breaker construction both on face and edge
Less Number Of Plies For Same Strength
The extremely high breaking strength of the Synthetic fabric gives stronger individuals plies, making it possible to meet a given individual strength requirement with lesser number of plies as compared to cotton conveyor belt. A reduction in belt thickness enables belt use on much smaller pulley diameters. Longer roll lengths can be supplied due to reduction in belt thickness, which reduces the number of joints on long drive
Reduced Belt Weight
All Synthetic fabric reinforced conveyor belts have reduced belt weight as compared to its equivalent All-Cotton of Cotton/Nylon construction. It can be easily handled during the installation due to reduced weight and also improves the idler performance and life by reduction of load on them. Lesser power is required to operate the belt due to its lightweight
Higher Impact Resistance
The superior consolidation of the belt, the high adhesion levels and also the intrinsic properties of all Synthetic plies result in a belt having a lot more resistance than conventional belting. This renders the use of breaker construction in belting superfluous of: Significant higher adhesion level between cover and carcass, which can only be achieved with a breaker for conventional cotton/nylon thicker covers available for wear/abrasion.Inherently higher carcass flexibility
To The User This Provides
Full width fabric reinforcement. Fabric reinforced edges which provides additional resistance to edge wear. Elimination of peeling away of Top cover from the edges.
