CN105713301A - Processing technology of environment-friendly high-temperature-resisting fabric core rubber conveyor belt - Google Patents

Abstract

The invention discloses a processing technology of an environment-friendly high-temperature-resisting fabric core rubber conveyor belt, and aims at providing a formula and a processing technology of an environment-friendly high-temperature-resisting fabric core rubber conveyor belt which is simple in structure, convenient to use and little in smell. The formula comprises covering rubber and bonding rubber. The environment-friendly high-temperature-resisting fabric core rubber conveyor belt obtained through the processing technology has the advantages of being superior in high temperature resistance, high in high temperature resistance, fatigue resistance and retention rate of the bonding performance and the ageing performance, not prone to delaminating and bubbling and the like, has the advantages of being little in smell and the like compared with a traditional high-temperature-resisting rubber conveyor belt and can resist the test temperature no higher than 180 DEG C, the highest short-time running temperature is 450 DEG C, and the conveyor belt complies with the standard requirement of the international standard ISO4195.

Description

Environment-friendlyhigh-temperature-resfabric high-temperature-resfabric fabric core rubber conveyer belt processing technique

Technical field

The present invention relates to a kind of conveyer belt, especially a kind of environment-friendlyhigh-temperature-resfabric high-temperature-resfabric fabric core rubber conveyer belt processing technique.

Background technology

Along with scientific and technical develops rapidly, improving constantly of automation level, the performance requirement of conveyer belt is also more and more higher.

At present, the fabric core of rubber conveyer belt is mainly made up of cotton fiber, polyester fiber and nylon fiber, and wherein cotton fiber has higher wet brute force, relatively low elongation percentage, therefore good with the adhesive performance of rubber, but its resistance to elevated temperatures is poor, and the current consumption that makes reduces increasingly；Polyester fiber has higher intensity, and elasticity, wearability, chemical-resistant stability, thermostability and thermal stability are better preferably, but it heats 168 hours in the air of 150 DEG C, loss of strength 15-30%, is heated 1000 hours, loss of strength 50%；Nylon fiber brute force height, resistance to impact, fatigue performance etc. are all fine, but it is in the past poor as its internal layer resistance to elevated temperatures of conveyer belt of fabric core by nylon fiber, using fabric core place to be easily generated bubble under high temperature, thus accelerating the aging of conveyer belt, reducing the service life of conveyer belt.

Summary of the invention

The invention aims to solve the deficiency of above-mentioned technology, and provide a kind of easy to use, the environment-friendlyhigh-temperature-resfabric high-temperature-resfabric fabric core rubber conveyer belt processing technique that conveyer belt abnormal smells from the patient is little.

In order to achieve the above object, the formula of a kind of environment-friendlyhigh-temperature-resfabric high-temperature-resfabric fabric core rubber conveyer belt designed by the present invention, it includes rubber cover and adhesive glue；Wherein rubber cover is by 100 parts of material of main part EP rubbers；Vulcanizing system: tasteless cumyl peroxide 3-15 part, zinc oxide 2-15 part, accelerator 1-3 part, assistant crosslinking agent 0.5-3 part；Preventing aging system: age resistor 2-10 part；Reinforcement system: white carbon black 20-60 part, filler 10-20 part；Softening system: petroleum derivant 5-30 part；Tackifying system: phenolic resin 1-20 part forms；Adhesive glue is by material of main part rubber polymer and with 100 parts；Vulcanizing system: sulfur 0.5-1.5 part, tasteless cumyl peroxide 2-8 part, zinc oxide 2-10 part, stearic acid 1-3 part, accelerator 1-4 part, assistant crosslinking agent 1-4 part；Preventing aging system: age resistor 1-6 part；Reinforcement system: white carbon black 20-60 part, filler 1-20 part；Softening system: petroleum derivant 5-40 part；Binding system: phenolic resin 1-15 part, white carbon 5-15 part, binding agent 2-10 part；Above number is parts by weight.

In such scheme, described second the third glue is plasticated by mill in 80%-20% ratio in 20%-80% ratio and ethylene propylene diene rubber EPDM by binary second the third glue EPM and is formed；

In such scheme, described rubber polymer is plasticated by mill in 10%-30% ratio in 60-10% ratio and halobutyl in 30-60% ratio, SBR by ethylene-propylene diene copolymer EPDM and is formed；

In such scheme, described assistant crosslinking agent includes in a penylene BMI HVA-2 or triallyl such scheme, described fulminuric acid ester TAIC or zinc methacrylate ZDMA；

In such scheme, described age resistor includes anti-aging agent RD, antioxidant MB, antioxidant BLE, antioxidant 4020.

Processing technique: 1, mixing: 100 parts of rubber polymers to be added in banbury uniform temperature 50-80 DEG C of refining, put into 1-5 part assistant crosslinking agent and (include HVA-2, TAIC and methyl methacrylate), 3-20 part vulcanizing activator (includes zinc oxide, stearic acid, altax/CZ/NS), 2-15 part age resistor (includes RD, MB, BLE, 4020), 20-80 part reinforcing agent (includes white carbon black N220/N330/N550/N660, white carbon, half reinforcing activated earth), 10-30 part plasticizer (Petropols, aromatic naphtha, paraffin oil and white factice), 1-20 part viscosifier (phenolic resin, phenol-formaldehyde resin modified, resorcinol donor, methylene donor or hexa methoxy methyl melamine) mixing 4-6 minute at 100-140 DEG C；Put into 5-10 part cross-linking agent (including cumyl peroxide DCP, sulfur) more mixing 2-5 minute at 80-100 DEG C, obtain elastomeric compound；

2, heat refining: the elastomeric compound taking step 1 gained carries out heat refining, temperature 80 ± 5 DEG C, 2-6 minute time in mill or extruder；

3, rubberizing technique: the elastomeric compound of step 2 is sent into four-roll calender by conveyer and carries out canvas rubberizing operation, calendar rolls temperature control at 80 ± 5 DEG C, post the canvas of glue again on four rollers back and forth several times carry out heat posted synthesis belt carcass layer；

4, made-up belt technique: step 3 resulting tape sandwich layer and step 2 gained heat refining sizing material are carried out hot encapsulated molding at four-roll calender again, thus forming conveyer belt made-up belt.

5, sulfuration process: band embryo step 4 obtained delivers to vulcanizer sulfuration, and temperature controls at 155-160 DEG C, and the time is 40-70 minute, pressure 8-10MPa.

In such scheme, the processing technology of made-up belt is: EP rubbers is added banbury, input zinc oxide, stearic acid, white carbon black, age resistor, phenolic resin, softening agent carry out banburying, obtain woollen glue, again woollen glue after cooling is put into banbury together with vulcanizing system and carry out banburying, thus obtaining elastomeric compound；Take elastomeric compound heat refining in an extruder；The elastomeric compound that heat refining is good is sent into four-roll calender by conveyer belt and is carried out the encapsulated operation of band sandwich layer, thus obtaining high temperature-resistance conveyor belt made-up belt.

In such scheme, the processing technology of described belt carcass is: blend rubber is added banbury, input zinc oxide, stearic acid, white carbon black, age resistor, phenolic resin, binding agent, softening agent carry out banburying, obtain woollen glue, again woollen glue after cooling is put into banbury together with vulcanizing system and carry out banburying, thus obtaining elastomeric compound；Take elastomeric compound heat refining in an extruder；The elastomeric compound that heat refining is good is sent into four-roll calender by conveyer belt and is carried out canvas rubberizing is operated, thus obtaining high temperature-resistance conveyor belt band sandwich layer.

The environment-friendlyhigh-temperature-resfabric high-temperature-resfabric fabric core rubber conveyer belt that the present invention is obtained, there is resistance to elevated temperatures superior, high temperature resistant fatigue behaviour is strong, bond properties ageing properties conservation rate is high, the not easily advantage such as ply separation blister, and compare with tradition High-temperature resistant rubber conveyor belt there is the advantages such as abnormal smells from the patient is little, this conveyer belt is resistant to being not more than 180 DEG C of test temperatures, the highest running temperature in short-term 450 DEG C, meets international standard ISO4195 standard-required.

Detailed description of the invention

The present invention is further described by the following embodiment.

Embodiment 1:

The formula of environment-friendlyhigh-temperature-resfabric high-temperature-resfabric fabric core rubber conveyer belt that the present embodiment describes, it it include rubber cover and adhesive glue；Wherein rubber cover is by 100 parts of material of main part EP rubbers；Vulcanizing system: tasteless cumyl peroxide 3-15 part, zinc oxide 2-15 part, accelerator 1-3 part, assistant crosslinking agent 0.5-3 part；Preventing aging system: age resistor 2-10 part；Reinforcement system: white carbon black 20-60 part, filler 10-20 part；Softening system: petroleum derivant 5-30 part；Tackifying system: phenolic resin 1-20 part forms；Adhesive glue is by material of main part rubber polymer and with 100 parts；Vulcanizing system: sulfur 0.5-1.5 part, tasteless cumyl peroxide 2-8 part, zinc oxide 2-10 part, stearic acid 1-3 part, accelerator 1-4 part, assistant crosslinking agent 1-4 part；Preventing aging system: age resistor 1-6 part；Reinforcement system: white carbon black 20-60 part, filler 1-20 part；Softening system: petroleum derivant 5-40 part；Binding system: phenolic resin 1-15 part, white carbon 5-15 part, binding agent 2-10 part；Above number is parts by weight.

Processing technique: 1, mixing: 100 parts of rubber polymers to be added in banbury uniform temperature 50-80 DEG C of refining, put into 1-5 part assistant crosslinking agent and (include HVA-2, TAIC and methyl methacrylate), 3-20 part vulcanizing activator (includes zinc oxide, stearic acid, altax/CZ/NS), 2-15 part age resistor (includes RD, MB, BLE, 4020), 20-80 part reinforcing agent (includes white carbon black N220/N330/N550/N660, white carbon, half reinforcing activated earth), 10-30 part plasticizer (Petropols, aromatic naphtha, paraffin oil and white factice), 1-20 part viscosifier (phenolic resin, phenol-formaldehyde resin modified, resorcinol donor, methylene donor or hexa methoxy methyl melamine) mixing 4-6 minute at 100-140 DEG C；Put into 5-10 part cross-linking agent (including cumyl peroxide DCP, sulfur) more mixing 2-5 minute at 80-100 DEG C, obtain elastomeric compound；

2, heat refining: the elastomeric compound taking step 1 gained carries out heat refining, temperature 80 ± 5 DEG C, 2-6 minute time in mill or extruder；

3, rubberizing technique: the elastomeric compound of step 2 is sent into four-roll calender by conveyer and carries out canvas rubberizing operation, calendar rolls temperature control at 80 ± 5 DEG C, post the canvas of glue again on four rollers back and forth several times carry out heat posted synthesis belt carcass layer；

4, made-up belt technique: step 3 resulting tape sandwich layer and step 2 gained heat refining sizing material are carried out hot encapsulated molding at four-roll calender again, thus forming conveyer belt made-up belt.

5, sulfuration process: band embryo step 4 obtained delivers to vulcanizer sulfuration, and temperature controls at 155-160 DEG C, and the time is 40-70 minute, pressure 8-10MPa.

Table 1 is the hardness test comparison sheet (180 DEG C of x168hr) of the present invention and existing rubber conveyer belt:

Firmness change	0hr	24hr	48hr	72hr	96hr	120h	144hr	168hr
									New formula	60	61	68	67	70	72	71	70
A	65	69	68	71	67	70	69	73
									B	66	69	71	70	72	73	71	70

Table 1

Table 2 is the bonding force test and comparison table (180 DEG C of x168hr) of the present invention and existing rubber conveyer belt:

Bonding force changes	0hr	2hr	96hr	168hr
					New formula	9.44	3.28	10.06	9.37
A	14.1	4.21	4.59	2.67
					B	10.77	1.72	2.87	2.24

Table 2

Table 3 is the test of elongation rate comparison sheet (180 DEG C of x168hr) of the present invention and existing rubber conveyer belt:

Elongation change	0hr	24hr	48hr	72hr	96hr	120h	144hr	168hr
									New formula	514	568	565	530	505	476	502	458
A	501	496	456	361	306	338	340	338
									B	399	316	276	196	157	191	197	165

Table 3

Table 4 is the hot strength test and comparison table (180 DEG C of x168hr) of the present invention and existing rubber conveyer belt:

Hot strength	0hr	24hr	48hr	72hr	96hr	120h	144hr	168hr
									New formula	13.3	13.9	13.7	13.6	12.9	11.7	11.9	12.6
A	12.7	13.4	13.8	13.1	12.8	12.1	12.8	13.0
									B	16.5	14.5	12.7	10.7	9.7	9.4	9.8	9.1

Claims (3)

1. an environment-friendlyhigh-temperature-resfabric high-temperature-resfabric fabric core rubber conveyer belt processing technique, it is characterized in that: 1, mixing: 100 parts of rubber polymers to be added in banbury uniform temperature 50-80 DEG C of refining, put into 1-5 part assistant crosslinking agent, cross-linking agent includes HVA-2, TAIC and methyl methacrylate, 3-20 part vulcanizing activator, vulcanizing activator includes zinc oxide, stearic acid, altax/CZ/NS, 2-15 part age resistor, age resistor includes RD, MB, BLE, 4020, 20-80 part reinforcing agent, reinforcing agent includes white carbon black N220/N330/N550/N660, white carbon, half reinforcing activated earth, 10-30 part plasticizer, plasticizer includes Petropols, aromatic naphtha, paraffin oil and white factice, 1-20 part viscosifier, viscosifier include phenolic resin, phenol-formaldehyde resin modified, resorcinol donor, methylene donor or hexa methoxy methyl melamine, mixing 4-6 minute at 100-140 DEG C；Putting into 5-10 part cross-linking agent again, cross-linking agent includes cumyl peroxide DCP, sulfur, mixing 2-5 minute at 80-100 DEG C, obtains elastomeric compound；2, heat refining: the elastomeric compound taking step 1 gained carries out heat refining, temperature 80 ± 5 DEG C, 2-6 minute time in mill or extruder；3, rubberizing technique: the elastomeric compound of step 2 is sent into four-roll calender by conveyer and carries out canvas rubberizing operation, calendar rolls temperature control at 80 ± 5 DEG C, post the canvas of glue again on four rollers back and forth several times carry out heat posted synthesis belt carcass layer；4, made-up belt technique: step 3 resulting tape sandwich layer and step 2 gained heat refining sizing material are carried out hot encapsulated molding at four-roll calender again, thus forming conveyer belt made-up belt；5, band embryo step 4 obtained delivers to vulcanizer sulfuration, and temperature controls at 155-160 DEG C, and the time is 40-70 minute, pressure 8-10MPa.

2. a kind of environment-friendlyhigh-temperature-resfabric high-temperature-resfabric fabric core rubber conveyer belt processing technique according to claim 1, it is characterized in that: the processing technology of made-up belt is: EP rubbers is added banbury, input zinc oxide, stearic acid, white carbon black, age resistor, phenolic resin, softening agent carry out banburying, obtain woollen glue, again woollen glue after cooling is put into banbury together with vulcanizing system and carry out banburying, thus obtaining elastomeric compound；Take elastomeric compound heat refining in an extruder；The elastomeric compound that heat refining is good is sent into four-roll calender by conveyer belt and is carried out the encapsulated operation of band sandwich layer, thus obtaining high temperature-resistance conveyor belt made-up belt.

3. a kind of environment-friendlyhigh-temperature-resfabric high-temperature-resfabric fabric core rubber conveyer belt processing technique according to claim 1, it is characterized in that: the processing technology of described belt carcass is: blend rubber is added banbury, input zinc oxide, stearic acid, white carbon black, age resistor, phenolic resin, binding agent, softening agent carry out banburying, obtain woollen glue, again woollen glue after cooling is put into banbury together with vulcanizing system and carry out banburying, thus obtaining elastomeric compound；Take elastomeric compound heat refining in an extruder；The elastomeric compound that heat refining is good is sent into four-roll calender by conveyer belt and is carried out canvas rubberizing is operated, thus obtaining high temperature-resistance conveyor belt band sandwich layer.