rubber product
DESCRIPTION
zubby techTRANSCRIPT
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Rubber Product
Base polymers
Fillers system
Processing aid system
Stabilizer system
Curing system
Miscellaneous additives
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Curing System Cross linking/ Vulcanizing agent Accelerator for cross linking Accelerator activators Accelerator modifiers
Stabilizer System• Antioxidants• Antiozonants
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Composition of Rubber ProductsSl. No. General Class Actual Components
1. Base polymer NR, BR, SBR, IIR, CR, EPDM etc.
2. Filler Carbon block, Clays, whiting silica fillers etc.
3. Processing aids Petroleum oils, waxes etc.
4. Curatives Cross linking agents, organic accelerators, organic & inorganic activators, promoters and retarders
5. Antiageing compounds
Organic compounds as antioxidants and antiozonants
6. Miscellaneous additives
Coloring agents, abrasives, antistatic compounds, deodorants etc.
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Compounding
Compounding means the incorporation of several ingredients uniformly to the base polymer to yield a semi homogenous mass known as mix or RUBBER COMPOUND.
Major factors in compounding: PriceProcessingProperties
Selection of ingredients, their appropriate dosage and then compounding requires serious and careful consideration by the rubber compounder.
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Natural Rubber
Cis-1,4 polyisoprene
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Properties of Natural Rubber
Molecular Weight –
Molecular Weight Distribution – Broad
High tack & green/gum strength
Good processing
Crystallizing rubber
8n
6w
10 x 5 - 3 M
10 x 1.5 - 1 M
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Vulcanizate properties of Natural Rubber
Tensile strength (gum): 17 to 24 MPa Tensile strength(filled with C-black): 24 to 32 MPa Abrasion and Wear: Below 350C better than SBR
Above 350C SBR is better Skid resistance: Moderate, improved with OENR Dynamic properties: High resilience (>90%)
At high strain fatigue life superior to that of SBR
Compression set and creep: Poorer than SRs Aging: Poor but improved antioxidants or antiozonants
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Synthetic Rubbers
1. Homo and copolymers of olefins and other bifunctional monomers
2. Made by polyadditions or polycondensation reactions.
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Why synthetic Rubber?
As a substitute of natural rubber
To meet the demands for some special properties where natural rubber fails
For examples: ProcessabilityOil and solvent resistanceLow temperature flexibilityHeat resistant propertiesBetter dynamic propertiesAbrasion resistanceEnvironmental stability
Synthetic Rubbers
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General purpose and non-oil resistant rubbers
Styrene-butadiene rubber (SBR)Polyisoprene rubber(IR)Polybutadiene rubber (BR)Isobutylene-isoprene(butyl) rubber (IIR)Ethylene propylene rubbers (EPDM)Thermoplastic rubbers
Synthetic Rubbers
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Styrene – Butadiene Rubber
Emulsion SBR: Hot process (50oC), Cold process (5-10oC)
Solution SBR: Better grades with controlled microstructure
CH2 CH CH CH2 CH2 CH
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Special purpose rubbers
Chloroprene rubber (CR) Chlorosulphonated polyethylene (Hypalon) Acrylonitrile butadiene rubber (Nitrile) Polyacrylic rubbers Fluorocarbon rubbers Silicone rubbers Polyurethane rubbers Ethylene-acrylic rubber Ethylene-vinyl acetate Polysulfide rubber (Thiokol)
Synthetic Rubbers
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Arrangement of monomers Randomcis–1,4 Butadiene (% wt.) 9trans-1,4 Butadiene (%wt.) 761,2–butadient (vinyl) (%wt.) 15Intrinsic viscosity (dl/g) 2.0Gel content NegligibleMooney viscosity [ML(1+4)100oC] 50Specific gravity 0.94
Properties of cold SBR:
Styrene – Butadiene Rubber
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SBR 1000: Hot polymerized rubbers1500: Cold polymerized rubbers1600: Cold-black masterbatch with 14 or less phr oil
1700: Cold-oil-masterbatch1800: Cold-oil-black masterbatch with > 14 phr oil1900: Miscellaneous dry polymer masterbatches2000: Hot latices2100: Cold latices
Grades:
Styrene – Butadiene Rubber
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Tires, footwear, mechanical goods, sponge & foamed products, water proofing, hose, belting, adhesives ad carpet back coatings.
Applications:
Styrene – Butadiene Rubber
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IngredientsFillers: Reinforcing:
Carbon Black: SRF, GPF, FEF, FF, HAF, EPC, ISAF,SAF etc.
Silica: Hi – Sil (hydrated silica)Silene EF (hydrated Ca-sillicate)
Non – reinforcing (inert):
Whiting (CaCO3), TiO2, Clays and related materials like china clays, soft clays, hard clays, calcined clays etc., graphite, MgCO3, talc, French chalk and so many.
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Processing Aids
Peptizers:
Pepton 22 Di(o-benzamido phenyl disulfide)
Pepton 44 Activated Di(o-benzamido phenyl disulfide)
Renacit IV Zn-salt of pentachlorothiophenol
Renacit VII Pentachlorothiophenol with activating and dispersing additives
Renacit VIII Metal complex on an organic carrier
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Softeners (Physical platicizers):
Petroleum aids – paraffinic, naphthenic & aromatic
Ester plasticizers – Dioctyl sebacateDibutyl sebacateDOP, DBP, DIOP
Petroleum jellyParaffin waxGlycols Fatty acids & saltsFactice, Pine tar, Bitumen etc.
Processing Aids
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Sulfur and related elements
Sulfur bearing chemicals
Non sulfur crosslinking agents
Crosslinking (Vulcanizing Agents)
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Aldehyde amines : Hexa
Guanidines : DPG, TPG, DOTG
Thiazoles : MBT, Na-MBT, Zn MBT, MBTS
Sulfenamides : CBS, NOBS, TBBS
Dithiocarbamates : ZDC, ZDEC, SDC
Thiuram sulfides : TMTD, TETD, TMTM, DPTS
Xanthates : ZIX, SIX, ZBX
Thisocarbamyl sulfenamide: OTOS (Cure rite 18)
Accelerators:
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Accelerator Modifiers - Activators
Metal Oxides: ZnO, hydrated lime, litharge, red lead, MgO, alkali carbonates and hydroxides
Organic acids: Fatty acidsAlkaline substances: Ammonia, diethanol &
triethanol amine, amine salts, reclaim rubber etc.
Retarders – (PVI)N-cyclohexyl thiophthalimidephthalic anhydrideN-nitrosodiphenyl amine
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Antidegradants
formation radical free withscission chain ROOHR ROOH RH ROO
ROOO R ; RRH 2
frasments Harmless ROOHA ROOH AH ROO
A RH AH R
Antioxidants – Hindered phenol, amino phenol, hydroquinone, phasphite, Diphenyl amine,naphthyl amine (PBN), phenylene diamine (IPPD)
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Antidegradants
Miscellaneous Additives
Coloring materials, blowing agents, flame retardants, antistatic agents (quaternery)ammonium salts, abrasives, coupling agents etc.
Antizonants – Dialkyl-phenylene diamine Nickel dibutyldithiocarbamateWaxes
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Vulcanization by Methods other than Molding
BATCH CURING METHODS
Autoclave or steam pan Gas curing Oven curing Water curing Cold curing
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Vulcanization by Methods other than Molding
CONTINUOUS VULCANIZING METHODS
High-Pressure Steam (Cables) Hot air tunnel Molten salt bath Fluidized bed Continuous drum cure Microwave curing
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Accelerated Sulfur Vulcanization
Accelerator + Sulfur Ac – Sx - Ac
Ac – Sx – Ac + Rubber Rubber – Sx – Ac
Rubber – Sx – Ac + Rubber Rubber – Sx - Rubber
Monomeric Polysulfide
Polymeric Polysulfide
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S
C
N
S NR2
MBT
S
C
N
S
S
C
N
S
S8
S
C
N
S
S
C
N
SSx
C C CH2
HNR2
MBT
S
C
N
SH[ initiator ]
[ -R2NH ]
+
(rubber)
Accelerated Sulfur Vulcanization
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S
C
N
SSxHC
C
C
(Rubber)
MBT+
SxHC
C
C
CH
C
C
Crosslinked vulcanizate
Accelerated Sulfur Vulcanization
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Rubber Molecules
Crosslinks
Unvulcanized network Vulcanized network
Network formation by vulcanization
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Crosslink density
Hysteresis permanent set friction coefficient
Tensile strength
Hardness
High speed dynamic modulus
Tear strength fatigue life toughness
Vulc
aniz
atio
n pr
oper
ties
Static modulus
The effects of vulcanization
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SX
SX
Accelerator
SSS2SX
Structure formed during accelerated vulcanization of elastomers