Use

Highly wear-resistant, energy-efficient multi-layer fabric-cored conveyor belts are particularly well-suited for applications in mining, stone crushing and screening, sand washing, ports, power plants, metallurgy, chemical industry, coal mining, steel mills, cement plants, construction, and other industries. They are ideal for most medium- and long-distance conveying applications involving high loads and high-speed material transport.

Features

1. Energy saving: By enhancing rubber elasticity and reducing the transmission friction coefficient, power consumption can be reduced by 10% to 15%.

2. Wear Resistance: The surface coating features high elasticity, excellent wear resistance, high strength, outstanding fatigue resistance, superior impact resistance, good groove compatibility, strong bonding between the multi-layer fabric carcass plies, and a long service life.

3. Types: Heavy-duty conveyor belts that can be manufactured with high-strength, multi-layer fabric cores, including general-purpose, wear-resistant, oil-resistant, heat-resistant, cold-resistant, acid- and alkali-resistant, flame-retardant, and antistatic types.

4. Specifications: This is a multi-layer fabric-cored rubber conveyor belt featuring a warp-and-weft interwoven structure. The core layer is made of (nylon/EP/NN/EE/polyester) fabrics, while the outer layer is coated with SBR, NBR, or EPDM rubber. We are a professional manufacturer of heavy-duty industrial fabric-cored rubber conveyor belts. These fabric-cored conveyor belts are renowned for their exceptional high strength, fatigue resistance, abrasion resistance, durability, and energy efficiency. They can meet the demands of medium- and long-distance transportation under various mining and industrial conditions and are widely used across diverse industries.

Application areas

Our multi-layer fabric rubber conveyor belts are particularly well-suited for use in mining, fertilizer production, power plants, cement plants, steel mills, metallurgy, coal mining, grain handling, chemical industries, ports, construction, and other sectors. They are ideal for most short-distance, medium-to-long-distance, high-load, and high-speed material-handling applications.

Specifications and Technical Data

Fabric type	Fabric structure		Fabric specifications	Thickness	Strength (N/mm)				Coverage thickness		Width	Length
	Twist	Latitude line		mm/ply	2ply	3Ply	4ply	5ply	Top	Bottom	Millimeter	Rice
Nylon   Polyester EP   Neural network   Electrical Engineering	Polyester	Polyamide	Nylon/EP Polyester/NN/EE80	0.95	160	240	320	400	1.5–12	0-4.5	400-2500	50-500
			Nylon/EP Polyester/NN/EE100	1	200	300	400	500
			Nylon/EP Polyester/NN/EE150	1.1	300	450	600	750
			Nylon/EP Polyester/NN/EE200	1.2	400	600	800	1000			500-2500
			Nylon/EP Polyester/NN/EE250	1.35	500	7500	1000	1250
			Nylon/EP Polyester/NN/EE300	1.45	600	900	1200	1500
			Nylon/EP Polyester/NN/EE350	1.6	–	1050	1400	1750			800-2500
			Nylon/EP Polyester/NN/EE400	1.75	–	–	1600	2000			1000-2500
			Nylon/EP Polyester/NN/EE500	1.9	–	–	2000	2500
			Nylon/EP Polyester/NN/EE630	2.1	–	–	2400	3000

Adhesion and elongation of conveyor belts

	Bond strength		Elongation
	Interlayer (N/mm)	Between rubbers	Longitudinal elongation ≥ %	Longitudinal elongation under reference load %6s
Nylon/EP Polyester/NN/EE Conveyor Belt	≥5	≥5	10	2

Coverage Rubber Quality/Grade Standard Performance Parameters

Cover Level	Tensile strength	Elongation	Wearing	Tensile Strength and Elongation After Aging	Standard
	≥	≥	≤
	Ocean Conservation Society	%	MM3	%
M	24	450	125	Minus fifty	Australian Standard AS1332-2000
Grace	17	400	200	Minus fifty
RMA1	17	400	175	Minus fifty	American standard
RIMA2	14	350	250	Minus fifty
Z	15	350	250	Minus fifty	German standard DIN 22102
Y	20	400	150	Minus fifty
X	25	400	120	Minus fifty
W	18	400	90	Minus fifty
C	10	150	200	Minus fifty	Russian Standard
Grace	15	400	100	Minus fifty
T2	14.7	300	200	Minus fifty
M	14.7	350	150	Minus fifty