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LUBE OIL ADDITIVES

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... Do not interlock Permit flow of oil USES OF PP DEPRESSANTS Mono and multi grade Oil Gear & Transmission oil Hydraulic Fluid ... Metal working oils ... – PowerPoint PPT presentation

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Title: LUBE OIL ADDITIVES


1
LUBE OIL ADDITIVES
2
LUBRICANTS
  • Lubricants were in use before the invention of
    wheel.
  • Building block of 95 of todays lubricants is
    mineral oil.
  • Straight run MO not satisfactory for operating
    under arduous conditions.
  • Modern Lubricant is highly refined HC base
    stockchemical additives.

3
WORLD LUBRICANT USES
4
PERFORMANCE-WISE CLASSIFICATION OF ADDITIVES
5
PERFORMANCE-WISE CLASSIFICATION OF ADDITIVES
6
DETERGENT/DISPERSANT ADDITIVE
  • Major Use in Crankcase Oil
  • Represent 70 of Total Additive Used in Engine
    Oil

7
FUNCTION OF DETERGENT/ DISPERSANT ADDITIVE
  • Keep Particulate matter dispersed
  • Maintain Engine Cleanliness
  • DIRT IN ENGINE ARISES FROM
  • Below-by of products from incomplete
  • combustion of fuel
  • Oil oxidation product
  • Engine wear
  • Dirt Leads to Deposit in Engine e.g. On Piston
    Known as Lacquer or Varnish on English Sump Known
    as Sludge

8
DETERGENTS
  • Metal Containing Cleaning Agents
  • Capable of dealing deposits/precursor generated
    under high temperature running conditions

9
PARTS OF DETERGENT
  • A metal Al, Mg, Zn, Ba, Ca.
  • An anionic component e.g.
  • carboxylate,
  • Alcoholate,
  • Phenate,
  • Sulphonate and
  • Salicylate.
  • Oil Soluble Oleo-philic Component Straight or
    Branched Alkyl Group.

10
TYPES OF DETERGENTS
  • Sulphonate
  • Phenate
  • Salicylate
  • Phosphate
  • Neutral
  • Over Base

By-product of white oil
Synthetic From Alkyl Aromatic
11
OVER BASE ADDITIVES
  • Colloidal Disperson Of Metal Carbonate (10-3-1
    Micron)
  • TECHNOLOGY IS COMPLEX TO MAKE STABLE SUSPENSION
  • ESTIMATION
  • As TBN (500)
  • Metal Ratio
  • EFFECTIVE IN CONTROLLING
  • a) Corrosive Acid From Oil Oxidation
  • b) Blow-by Of Combustion Product

12
PREPARATION OF OVER BASE ADDITIVE
  • Phenate Over Base Are Prepared Similarly
  • Phosphates are Phosphoric And Thio Phosphoric
    Acid Derivatives

13
SELECTION DEPENDS ON
  • Severity Of Condition
  • Anti Rust
  • Anti Oxidant
  • Load Carrying Properties

14
DISPERSANTS
  • Non metallic ashless cleaning agents
  • Effective in controlling cold-sludge in gasoline
    engine operating under low-temp. stop-start
    conditions
  • Bipolar molecule having polar head non-polar tail
  • Head consist of P,O,N atoms
  • Tail HC moiety

15
ADDITIVES TYPES
  • Succinimides
  • Succinate Esters
  • Mannich Type
  • Phosphorus Based

16
MECHANISM OF ACTION
  • Polar Group Absobs on Dirt Oliophillic Group
    Solubilize Complex in Oil
  • React Dirt Precursors e.g. neutralizing acidic
    matter
  • Solubilizing precursors within their micelle
    structure.
  • Absorb on metal surface
  • Form coating on solid particulate and prevent
    their agglomeration to form large particles.

17
USES OF DETERGENT / DISPERSANT ADDITIVES
  • Essential for most of automotive oils
  • Automotive oil for gasoline/diesel
  • Rail road engine oil
  • Marine Oil
  • Two stroke engine
  • Tractor Oil
  • Automatic Transmission Fluid

18
OXIDATION INHIBITOR (AO)
  • Lubricants like other natural products
    deteriorate during use when exposed to oxygen.
  • Undergo complicated aging process.
  • Oxidation alter performance.
  • 1st oxidation product is hydroperoxides.
  • Hydroperoxide leads to variety of end products
    like alcohol, aldehyde, ketone acid etc.
  • Eventually depositing as sludge, varnish, liquer.
  • Leading to equipment failure

19
R-H R HR O2
ROOAntioxidant perform as radical
quenchersR AO RH AO2 AO
INERT PRODUCTS
MECHANISM OF ACTION
20
  • Engine oil accounts 60-70 of automotive
    lubricants.
  • 40-50 of all lubricants sold
  • Automotive engine oil driving force on AO market
  • AV car temperature 100o
  • Hot spot temperature 300o or more
  • Chain branching reactions are more prevalent in
    high temperature oxidation.
  • For lube antioxidants is a mixture of peroxide
    destroyer (TDDP) and radical scavenger.

21
ADDITIVE TYPE
  • Zn-Di-Thio phosphate
  • Phenol
  • Aromatic Nitrogen Compounds
  • S- and P- Based Antioxidants
  • Phenothiazine and Alkyl Derivatives

22
USES OF ANTIOXIDANTS
  • Antioxidants are used in all type of Lubricant
  • Cranckase Oil Mostly Use ZDDP
  • Steam Turbine Hindered Phenol
  • Jet Air Phenothiazine Derivatives

23
OTHER COMPUNDS GENERALLY USED IN ADDITION TO ZDDP
HINDERED PHENOL
DIPHENYL AMINE
PHENOTHIAZINE
DITHIOCARBAMATES
X Alkyl, Aryl, alkylaryl
ORGANIC SULPHIDE OR SLENIDES
24
VISCOSITY INDEX IMPROVER AND POUR POINT
DEPRESSANTS
  • These are polymeric additives
  • These additives are used to improve rheological
    properties of oils
  • They do it by purely physical means

25
VISCOSITY INDEX IMPROVER
  • VI is a number showing viscosity temperature
    characteristic of oil.
  • Gear, Transmission, Crankcase oil should have
  • (a) Low viscosity at low temperature for
    startup (need low friction drag)
  • (b) Sufficient viscosity at higher running
    temperature.

26
TYPES OF VI IMPROVERS
  • Oil Soluble Org. Polymer
  • M wt range 50,000-150,000
  • (a) Hydrocarbons
  • (b) Esters

27
TYPES OF VI IMPROVERS
  • HYDROCARBON TYPE
  • PIB Poly-isobutylene
  • OCB Olefin Co-polymer
  • Poly Alkyl Styrene
  • HSDC Styrene Butadiene Co-polymer
  • Styrene Isoprene Co-polymer
  • ESTER TYPE
  • PMP Poly Alkyl Acrylate
  • Styrene Maleic Acid Copolymer

28
USES OF VI IMPROVERS
  • PMA 21,
  • HSDC 17,
  • OCP 67
  • VI improver made possible the advent of
    multigrade oils e.g. SAE low 30 or SAE 15w40 for
    gasoline engine (67) diesel engine (19).

29
SELECTION DEPEND ON
  • Requirement
  • Other prop e.g. PPD, Dispersant
  • Shear Stability
  • Oxidation Thermal Stability

30
MECHANISM OF VISCOSITY MODIFICATION IN OIL
Oil associated with polymer
Polymer
Solubility
LOW
GOOD
Temperature
LOW
HIGH
  • Exist as random coil
  • Swollen by lube oil
  • Volume determine viscosity increase
  • At low temp. polymer remain as compact mass
  • At high temp. coil open up
  • Compensate fall in viscosity

31
USES OF VI IMPROVERS
  • Automotive multi grade oils (engine, gear)
  • Gear and transmissions oils
  • Hydraulic fluids
  • Industrial oils
  • Dosage 2-6

32
POUR POINT DEPRESSANTS
  • At low temperature wax crystalize out and prevent
    flow of oil
  • Dewaxing can reduce pour point
  • - Reduces yield
  • - Adversely effect VI
  • PPD syn chemical which prevent congelation
  • PPD offer effective and economical alternative to
    dewaxing
  • PPD improve
  • - Low temperature fluidity
  • - Low temp performance
  • PPD mainly used in paraffinic oils

33
TYPES OF PP DEPRESSANTS
  • Non Polymeric
  • Polymeric
  • Recent Lit. indicate that majority of products
    are poly hydrocarbon HC-Ester co-polymer and
    ester co-polymer

34
MECHANISM OF ACTION (POUR POINT DEPPRESANT)
  • PPD dont prevent crystallization
  • Change crystal habit
  • Probably by adsorption
  • Smaller crystals form
  • Do not interlock
  • Permit flow of oil

35
USES OF PP DEPRESSANTS
  • Mono and multi grade Oil
  • Gear Transmission oil
  • Hydraulic Fluid
  • Compressor Oil
  • Machinery Oil

36
LOAD CARRYING ADDITIVES (AW/EP)
  • Aw and EP additives are incorporated to extend
    oils load carrying capabilities
  • Important but less used
  • Inter metallic contact occur at asperities under
    boundary lubrication resulting heavy wear

37
TYPES OF ADDITIVES
  • Additive are active compounds of S,Cl
  • and P
  • S-Compounds
  • Dibenzyl disulfide
  • Butyl phenol disulfide
  • Sulfurised vegetable oils
  • Pb, Sb, Cd and Zn dithiocarbamates
  • Cl Compounds
  • Chlorinated wax
  • Chlorinated fatty acids

38
TYPES OF ADDITIVES
  • P - Compounds
  • Tri cresyl phosphates ZDDP
  • Di-alkyl phosphates etc
  • P S-Compounds
  • Zinc dialkyl dithio phosphates
  • Cl S - Compounds
  • Chlorinated alkyl sulfide
  • Sulfurised chloronaphthalene

39
MECHANISM OF ACTION
  • Act by physical adsorption, chemisorption or
    chemical reaction with metal forming protective
    film
  • Film not penetrated by asparities
  • Prevent scoring and surface damage

40
USES OF AW/EP ADDITIVES
  • Engine oil
  • Gear and transmission oil
  • Shock absorber oil
  • Hydraulic oils

41
FRICTION MODIFIERS (FM)
  • During start-up and shut-down sliding surfaces
    subjected to high load (mixed friction range)
  • FM additives used, to prevent stick-slip
    oscillation, noise and reduce frictional force
  • To save energy, reduce fuel consumption
    (additives known as FM)
  • FM Similar to AW/ EP Additives

42
TYPES OF FRICTION MODIFIERS
  • FM are polar oil soluble materials
  • Only few gained commercial Acceptance
  • Mo-dithiophosphate and carbonate complexes
  • Dispersion of MoS2, graphite, PTFE
  • Ash less carboxylic acid esters, their oligomers
    and amines, amides

43
MECHANISM AND USES
  • Mechanism
  • By physical adsorption
  • Uses
  • Engine oil
  • Gear and transmission oil
  • Industrial oil
  • greases, etc.

44
ANTIFOAMING AGENTS
  • Requires where violent churning or agitation of
    oil occur
  • Effect of Foams on the Performance of Engine
  • Rise oil level,results in loss of oil
  • Oil feed pressure drops,
  • Insufficient oil supply

45
TYPES OF ADDITIVES
  • POLYMERIC
  • i) Poly organo siloxane
  • CH3 CH3 CH3
  • Si O Si O Si O
  • CH3 CH3 CH3
  • ii) Poly acrylate
  • Iii) poly ethylene oxides
  • DOSAGE 4-15 ppm

n
46
MECHANISM OF ACTION
  • Oil insoluble
  • Lower interfacial tension between air and oil
  • Permitting easy aggregation of air
  • Reduce foam stability

47
USES ANTIFOAMING AGENTS
  • Engine oils (automotive, rail, marine)
  • Gear oils
  • Automotive transmission fluids
  • Industrial oils
  • Metal working oils

48
RUST AND CORROSION INHIBITORS
  • Rust and corrosion of metal parts undesirable
  • Leads to wear and break down

49
RUST INHIBIOTRS
  • RESULT OF CHEMICAL ATTACK OF WATER IN PRESENCE OF
    OXYGEN

50
TYPES OF RUST INHIBITORS
  • A large variety of compounds patented mostly
    three types
  • a. Neutral b. Acidic c. Overbased
  • Most Popular are
  • High mil. Wt. Carboxylic acid (Succinic acid)
  • Sulphonic acid
  • Phosphoric acid and their salts
  • Compounds formed by neutralization of these acids
    with organic base (e.g. Amines)

51
MECHANISM OF ACTION
  • Physical Means
  • Work by forming strongly absorbed hydrophobic film

52
CORROSION INHIBITORS
  • Corrosion occur due to attack of acid
  • Arising from
  • A) oil oxidation (orggt)
  • B) blow-by of combustion products
  • (SO2 inorg)
  • Later sever in diesel engine

53
ADDITIVE TYPES
  • Metal dialkyl dithio phosphates,
  • Phospho sulphurized olefins, terpenes
  • Org Phosphites,
  • Dithio carbamate
  • Most popular are basic detergent / dispersant
    additive

54
MECHANISM OF ACTION
  • Forming absorbed protective films
  • By neutralizing acid materials
  • Also acts as Antioixdants, load-carrying additives

55
MISCELLANEOUS LUBE ADDITIVES
  • Anti-microbial agents used in cutting oil
    emulsions
  • Emulsifiers to manuf. Water based cutting oils
  • Odour masking agents
  • Dyes for identifications

56
MISCELLANEOUS ADDITIVES
  • Tackiness agents impart stickiness/ adherence
    property
  • (PIB, ethylene-propylene co-polymer)
  • Seal swalling agent to help swalling of rubber
    elastomers to required volume (phthalic acid
    ester, most popular di-octyl phthalate DOP

57
SOME GENERAL TYPE OF ADDITIVES USED IN A WIDE
VARIETY OF LUBRICANTS
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