• Introduction
• Acrylic resin
• Thermoplastic Solution (TPA)
• Thermosetting Solution (TSA)
• Thermoplastic dispersion i.e. Acrylic Latex
• Acrylic Emulsions
• Various methods of synthesis of thermosetting acrylic coatings (resin system/coating)
• Aqueous systems
• Commonly used acrylic monomers
• Various film properties obtained by using appropriate monomers
• Non aqueous systems
• Hybrid systems
• Some of the important ASTM standards pertaining to paint industry
• Thermal and photo degradation of acrylic resins

• Introduction
• Effect pigments
• The metallic effect
• Particle size
• Particle shape pigment morphology
• Particle size distribution
• Pigment orientation
• Flop effect
• Leading and non leafing metallic pigments
• Incorporation of metallic pigments
• Extrusion/grinding
• Dry blending
• Bonding
• Bonding process
• The process
• Process stage
• Master Batch Mixer
• Safety
• Cooler mixer
• Determination of bonding quality
• Powder vs. liquid

• Introduction
• Surface tension
• The coheslve forces between the molecules at the surface are not evenly distributed on all sides as
• compared  to the molecules in the inner
• layer, surface tension is the result of the
• unbalance forces.
• Total surface fension with relation to dispersive surface tension and polar surface tension
• Inter molecules forces
• London Dispersive Forces
• Example of a Helium atom illustration of London Dispersive Forces
• Influence of shape on molecules London dispensive Forces
• Dipole forces/moment
• The creation of Dipole dipole charges
• Influence of molecule geometry on dipole molecule
• Hydrogen bonding
• Creation of Diupole dipole interaction among molecules that have dipole moment
• Examples of the electric dipole moment
• Examples for Hydrogen bonding formation in water
• Tonic bonding (Not covalent bonding)
• Examples of salts with ionic bonding after neutralization
• Comparing all forces
• Comparison chart on different forces
• Surface tension of some common materials used in coatings
• Surface tension of common materials involve in coating at 20oC
• Interfactial surface tension
• Determination of surface tension
• Determination of Liquid surface tension
• gD and gP value
• Method of static surface tension
• Lecomte du Nouy
• Method of static surface tension
• Lecomte du Nouy
• Demonstration of the Withelmy Plate method
• Demonstration of Lecomate Du Nouy method
• Fowkes Equation on calculating the interfacial surface tension of solid liquid.
• Withelmy Plate
• Pendant Drop method
• Method of dynamic surface tension
• Bubble Pressure Method
• Instrument use to perform the pendent drop method
• Determination of solid surface tension
• Surface tension influent on coating
• Leveling and orange peel
• Surface tension on leveling
• Leveling equation (Newtonian liqid)
• Relation of surface tension, film thickness and viscosity on levelling time
• Flat and wavy surface
• Relation of surface tension of the paint and film thickness and time allowed to achieve good leveling
• Surface tension gradient influence on leveling
• Surface tension gradient influence in leveling
• Crater and fish eyes
• Substrate wetting
• Edge crawling framing effect
• Telegraphing and ghosting
• Solvent evaporation
• Wet paint
• Framing defect created
• Bernard Cells
• Air draft sensitivity
• Over spray
• Polymers that act as low surface tension surfactant in coating slip and leveling agent
• Polysiloxane
• Pure polydimethylsiloxane
• Branch/comb modified polysiloxane
• Branch or comb type of Polysilcxane
• Alkyld with CS-C18
• End modification Polysilcxane
• Properties of the silicone according to the parameter
• Properties of the silicone according to the parameter
• The slip performance of silicone
• Types of slip
• Determination of slip
• Self made slip angle measurement
• Scientific Instrument for slip determination
• Dilemma of silicone
• Overcoat adhesion problem
• Contamination
• Inner Bubble for PU
• Foam stabilizing effect
• Low surface tension and good compatibility with system
• Foam stabilizer
• Additional information on Polysiloxane
• Improve intercoat adhesion by using Polysiloxane
• Non Silicone leveling agent modified acrylic polymer
• Types of Acrylic based flow agent
• Straight acrylic with alky, polyester or polyether modification
• Comparing performance of a Polysiloxane and polyacrylate
• Comparison of the properties of a fluorocarbon and polyacrylate
• Comparison of the properties of Polysiloxane and fluorocarbon modified Polyacrylate
• Properties of Polysiloxane, Polyacrylate and Fluorocarbon modified Polyacrylate
• Polyacrylate with Fluorocartion modification
• Comparison of the avidity of Polysiloxane, Polyacrylate and Fluorocarbon modified

• History
• Background
• Raw materials
• Nancy EV Bryk
• The Manufacturing Process
• Making the ink
• Stamping and forming
• Molding the housing
• Ink filling and assembly
• Final assembly, packaging and shipping
• Quality Control

• Thick versus thin bed laying technique
• Advantages of dispersible polymer powders as polymeric binder
• Interface between a polymer modified ceramic tile adhesive on a vitrified tile
• the polymer films at the interface between the porcelain tile surface
• and the cementitious mortar can be seen clearfy
• Summary
• Advantages of polymermodified tile adhesives
• Vinnapas dispersible polymer powders

• Reactivity
• Product application
• Cosmetic use
• Pharmaceutical use
• Chemical and industrial specialities
• Safety
• Process Outline
• Indian producer
• Brand name
• Important Global Manufacturers
• New products launched by Noveon

• Introduction
• experimental
• Materials
• Specification of CNSL (IS-840)
• Specifications of the Ketonic (Cyclohexanone formaldehyde)resin
• Synthesis
• CNSL Phenol formaldehyde resin formulation for laboratory preparation
• FTIR Analysis and Interpretation
• Morphological study of blends
• Driers
• Tests carried out for the study of coating properties
• Results and Discussion
• Drying Time SEM of 50-50 (% wt.) concentration of Blend
• SEM of 30.70 (% wt) concentration of Blend
• SEM of 70:30 (% wt) concentration of Blend
• Ketonic (Cyclohexanone formaldehyde) resin
• Coating properties of CNSL Phenol formaldehyde Ketonic resin blends
• Chemical resistance

• Introduction
• Theory of adhesion on plastics
• Mechanical theory
• Chemical bonding theory
• Diffusion Theory
• Main characteristics of the plastic substrates affecting adhesion
• Substrate weting
• Substrate swelling
• Surface topography
• Pretreatment
• Plasma discharge
• Flaming
• Chemical
• Solvent clearing
• Adhesion promoters

• Introduction
• Comminution processes: True Comminution and Dispersing
• Economic Dispersionizer OMEGA Operating principle
• Design of the OMEGA Economic Dispersionizer
• Design of NETZSCH Dispersion Device
• Model Sizes
• Advantages
• Areas of Application
• Application example Titanium dioxide
• Titanium dioxide suspension after one pass in the OMEGA

• Polyisocyanate:how to make it hydrophilic
• Solubility parameters of hexamethylene trimer or bluret
• Experimental
• Hardness
• Characteristics of the hardeners
• Starting point formulations
• Results
• Emulsification ability
• Emulsification into water
• Formulations
• Emulsification into the resin part
• Visual aspect of formulations regarding the mixing time and the nature of the polyisocyanate
• Application properties
• Influence of the nature of the polyisocyanate on the VOC content
• VOC, gloss and Koenig hardness of coatings made with Easaqua XI.600 and polyisocyanate
• Water resistance
• Contact angle of a drop of water with the surface
• Contact angle measurement of water on 2K water borne coatings (initial and after 3 days at 100% RH and 50oC
• Evaluation of adhesion with cross hatch and tape adhesion test
• Corrosion resistance
• Visual aspect of the coatings after cross hatch and tage adhesion test
• Visual aspect of coated panels after 350 hours of salt spray test

• Introduction
• Chemistry
• PU ink binder characteristics

• Introduction
• Dispersion Process
• Replacement of air and water by the resin
• Selection criteria for dispersing agents
• Paint industry
• Low molecular weight Dispersing agents
• High molecular weight dispersing agents
• Common issues solved by dispersants
• Textiles
• Desizing to improve their strength and blending behavior during the weaving process
• Mercerizing for improvement of dyeability, strength, and appearance of cotton fiber
• Foods
• Pharmaceuticals
• Other industrial aplications

• Introduction
• Release coating markets
• Cure chemistries and delivery systems
• Development, progress and trends
• Catalyst systems
• The Development History of Silicone Release coatings
• Inhibitors
• Comparison of Cure systems
• High release additives
• Factors affecting release performance
• Humidity and substrate stiffness
• Temperature
• Testing
• Raw materials
• Finished product testing
• System selection
• Solvent Based vs. Solventless vs. Emulsion Delivery Systems
• Comparison of Delivery Systems
• Advantages
• Solvent based
• Emulsion
• Solvents
• Disadvantages
• Solvent based
• Emulsion

• Inroduction
• Experimental procedure
• Sample preparation
• Experiments
• Processing of Polarization data for the estimation of Ecorr and icorr
• Corrosion data of the Coated specimens
• Results and Discussions

• Thermochromic inks
• Application
• Color Information
• Color changing Temperature Range
• Security Inks
• Bleeding Inks
• coin reactive inks
• Erassable ink
• Pen reactive ink
• Heat Reactive Irreversible
• Visible Infrared inks
• Optically Variable Inks
• Penetrating Ink
• Photochromic Ink
• Solvent/Chemical Reactive Inks
• Water fugitive ink
• UV Invisible Fluorscent Inks

• Introduction
• Self healing concept
• Different methods of self healing
• Ring opening metathesis polymerization
• Polydimethylsiloxane based self healing
• By incorporation of AL203 No.183
• Using colloidal silica
• Incorporation of microcapsule in the coatings
• Brief idea of the base used for experiments
• Smart self healing nanotechnology coatings
• New approach towards developments in self healing coatings
• Self healing elastomer nanocomposites
• Research line
• Benefits of self healing coatings
• Applications of self healing coatings
• Automotive coatings
• Marine Coatings
• Coatings for defence
• Coatings for glass

• An example of a GC-FID profile of the acidic fraction and rosin on a TC-1 column
• An example of GC-FID profile of the acdic fraction and rosin on a TC-5 column
• Composition of Acidic fractions eluted on TC-1 and TC-5 columns
• Composition of Rosins eluted on TC-1 and TC-5 columns
• An example of a GC-FID profile of the acidic fraction and rosin on a TC-5 column (Isothernal temperature programme
• Experimental
• Materials
• Technique
• Synthesis of unsaturated polyester of rosin
• Measurements
• Curing exotherms
• Testing of the coatings
• Results and discussion
• Synthesis of UPE resins
• Molecular weight of the produced UPE and their hydroxyl
• Curing exotherms
• Curing exotherms of UPE with vinyl ester resins
• Curing parameters of APAUP1 with AEMPAE and MEMPAE  at different temperatures
• Furing parametes of APAUP-2APAUP6 with AEMPAE at different temperatures
• Curing DSC measurements
• DSC thermal characteristics of cured UPE resins with styrene
• Evaluation of cured  resins for coating applications
• Coating tests of UP resins cured with styrene and AEMPAE  and MEMPAE  curing agents
• Chemical resistances of cured UPE/VE systems
• Chemical resistance tests of UPE cured with AEMPAE and MEMPAE  at different mixing ratios

• Process of marine bio fouling
• Parameters effect on bio fouling growth
• Geographical location
• Operating pattern of the vessel/Speed
• Temperature of water
• Salinity/pH/Alkalinity
• Pollution and oil greases contamination in coastal water
• Review of conventional antifouling paint
• Soluble Matrix Type first generation antifouling
• Leaching action of soluble matrix type A/F
• Diffusion or, insoluble matrix type or, contact leaching second generation antifouling
• Controlled depletion type (CDP) third generation antifouling
• TBT based Self polishing copolymer (SPC) Fourth generation antifoulings
• New generation tin free antifouling
• TBT free self polishing copolymer (SPC)
• Self Polishing Copolymer System
• Controlled release mechanism of TBT copolymer by hydrolysis
• Copper Acrylate SPC
• Zinc Acrylate SPC
• Silyl Acrylate SPC
• Ion exchange SPC
• sPC Mechanism
• Biocidal free foul release
• Molecular structure of a cross linked poly (dimethylsiloxane)

• Solvent borne alkyds
• Odor and VOC
• Slow Drying
• Reduced Formulation Flexibility
• Poor UV Resistance
• Higher Operational Costs
• Gloss paints
• Good Contrast gloss
• Good Contrast gloss levels
• Flexibility and Blocking Resistance
• Excellent adhesion
• Coalescent Demand
• Fundamental Studies
• The picture showing the morphology of the coreshell (half moon type structure of the Acronal PA 510
• The half moon structure of Acronal PA 510 gives very Good blocking resistance to the paint film without losing flexiblity
• The chart shows the gloss levels of Acronal PA 510 versus the solvent based alkyd system
• The picture shows the adhesion of a gloss paint on an aged alkyd with
• Acronal PA 510 and competitor acrylic binders with standard adhesion promotion techniques,
• Acronal PA 510 shows the best adhesion on such surfaces
• The picture shows excellent durability of Acronal PA 510 when exposed for 3 years on a wooden panel

• Vinyl acetate ethylene copolymer structure
• The fundamentals of VAE technologyStabilization system of polymer chains achieved through surfactants
• Impact of co-monomers on Tg of VA Copolymers
• Improved performance
• Low odor paints and coatings
• Benefits in applications and industry
• Structural comparison of vinyl acetate ethylene (VAE) and vinyl acrylic butyl acrylate (VABA) copolymers

• Formulation for 100 kg
• Stage dispersion
• Stage Grind till H.G. 4 +
• Stage Discharge
• Stage MTO or Resin or toluene 4000

• Introduction
• Materials and Methods
• Materials Used
• Preparation of Varnish
• Preparation of Ink
• Varnish Formulation
• Ink Formulation
• Tests and Measurements (7-8)
• Results and Discussion
• Properties of Vegetable oils
• Properties of Varnishes
• Properties of Inks
• Duct freshness of the Inks
• Print and Post Print Properties of the Printing Inks (Prufbau/Gloss Art Paper/30 degrees C)

• Properties of NIPU at a glance
• Synthesis
• From glycerin carbonate Intermediates
• Synthesis of carbonates functional acrylate
• via glycerin chloroformate
• Via Vinyl Ethylene Carbonate
• Effect of solvent on the incorporation of CO2
• Incorporation % of CO2 into PGMA, catalyzed by different Lewis acid catalysts
• Synthesis of amine oligomers
• Targeted Parameters
• Reactivity of Cyclocarbonate groups with Amines
• Effect of solvent on the kinetics
• Aplication comparative advantages over conventional polyurethane
• Coatings
• UV stable coatings
• Adhesive and sealants
• Corrosive passive adhesives were prepared by a new method of their synthesis the method of multiplication
• IPN and nanocomposites
• Polyurethane foam
• Thermo stability and some properties of polymers

• Introduction
• Water thinable vegetable oils
• Material and methods
• Materials
• Malenization of Unsaturated Oil
• Neutralization of Malenized Oil
• Curing Reaction
• Preparation of HEFA
• Malenization of KBO
• Neuralization of malenized oil with triethyl amine
• Stoved film properties of the stoving compositions
• Composition and chemical characteristics of malenized RBO
• Preparation of stoving agents
• Characterization of coatings
• Result and discussion
• Physical properties of malenized RBO-HEFA based stoving composition
• Mechanical properties
• Chemical resistance
• Solvent and water resistance
• IR Spectrum

• Introduction
• Comparison of conventional & waterbone polyurethane coatings
• Applications
• Basic mechanism
• Hydrophilic polyisocyanates
• Water bome 2K PU approach
• Steps to be used to arrive at a perfect coating result
• Bayhydur crosslinking agent
• Polyol dispersions
• properties of Bayhydur XP 2547
• List of polyacrylate dispersions possibly for construction
• Typical formulations and discussion
• NCO/OH ratio
• NCO reacting with water
• Pot life
• Typical formulations
• Tough but flexible
• Stain resistance/dirt pick up resistance
• Fungus/Algae resistance
• Core shell technology of polyol dispersions
• Real life cases
• Floor of Bubble Bar
• Floor of Bayer
• Replacement of Blackboard with 2K WB PU in a School in India
• Properties for the formulations according to above formulations
• Exterior walls of Bayer Jinling Polyurethane Plant
• Comparison of remaining Fungicide/Algaecide in Film after water leaching
• Interior walls of Bathroom
• Others

• Introduction
• Experimental
• Results and Discussion
• Blend of shellac and alkyd resin
• Characteristic of two high thermal resistant baking type insulating varnished based on shellac and two different  synthetic resins
• Chemical constants of shellac, alkyd resin and precipitated mass
• Blends of shellac and polyamide resin
• Flow chart for the preparation of conventional baking type shellac and drying oil based insulating varnish
• Flow chart of simple method of preparation of shellac based high  thermal resistant baking type insulating varnish inverted in this study

• Resins

• Distance

• Introduction
• experimental
• Preparation of the glazing varnish
• Characteristics of the shellac based glazing varnish
• Results and Discussion

• Introduction
• Water thinnable coatings based on polyesters
• Experimental
• Analysis of raw materials
• Composition of polyester resin
• Preparation and Evaluation of Polyester resins
• Composition of Polyester Resin
• Analysis of Polyester Resin
• Film properties of polyester resin
• Properties of Polyester Resin
• resistance to Solvent
• Resistance to water and chemicals
• Preparation and Evaluation of Polyester Paint
• Polyester Emulsions
• Stability of polyester emulsion
• Composition and analysis of paint
• Film properties of paint
• Composition of polyester Emulsion
• Analysis of Polyester Emulsion
• Film properties of Polyester Emulsion
• Resistance to water, chemicals
• resistance to solvents
• Effect of dilution on Stability of emulsions
• Preparation and Evaluation of emulsion Paint
• Performance test
• Results and discussion
• Polyester Emulsions
• Stability of emulsion
• Emulsion Paint
• Stability of emulsion paint
• composition of Emulsion paints
• Performance test
• Conclusion
• Evaluation of Emulsion Paint
• Film properties of paint
• resistance of emulsion paint to chemicals
• resistance of emulsion paint to solvent
• Effect of dilution on stability of emulsion paint
• Resistance to weather and humidity

• Introduction
• Mechanisms in the dispersion process
• Dispersing process
• Destroying of agglomerates
• Acting of mechanical forces
• Physical and chemical interactions
• Replacement of air and water by the resin
• Wetting of pigment surfaces
• Oil absorption of pigment
• Stabilization of a dispersion
• Mechanisms of Dispersion
• Electrostatical stabilization
• Sterical stabilization
• Effect of Grinding Time and Media  on dispersion
• Observation
• Corollary of proper dispersion
• experiments
• Observation

• Ideal drier composition by author for 100 ltr enamel paint

• Introduction
• Objective
• Base Formulation
• Variation Formulation
• Substitution of 20% titanium dioxide pigment by Neuburg Siliceous Earth
• Formulations
• Filer Characteristics
• What is Neuburg Siliceous Earth?
• Morphology of Neuburg Siliceous Earth
• Magnification 10,000x
• What is Calcined Neuburg Siliceous Earth?
• Preparation
• Gloss
• Color
• Haze
• Degree of cure
• Hardness
• Mechanical Resistance
• Flexbility
• Adhesion
• Flexibility
• Weathering Remaining gloss 60o
• Weathering Remaining gloss 20o
• Weathering Chalking resistance
• Weathering Delta E

• Introduction
• Improving the durability of architectural paints
• Dow coming 87 Additive and Dow Coming 88 Additive
• Volatile Organic Compound (VOC) values of Dow coming 87 Additive and Dow Coming 88 Additive
• High PVC paint formulation used to assess Dow Coming Water Resistant Additives
• W24 andContact angle of water on an acrylic based emulsion paint with and without the addition of Dow Coming 87 Additive and vs a competitor Si resin emulsion
• Contact angle of water on an acrylic based emulsion paint with and without the addition of Dow Coming 87 Additive after QUVA accelerated weathering
• Sd of water on an acrylic based emulsion paint shown in fig 12.1 with aand without the addition of Dow Coming 87 Additive
• Anti blocking in wood coatings
• W24 of an acrylic based emulsion paint with and without the addition of Dow Coming 88 Additive and vs a competitor Si resin emulsion
• W24 of the acrylic based emulsion paint shown in Fig. 12.3 with and without the addition of Dow Coming 88 Additive and vs a competitor Si resin emulsion
• Sd of the acrylic based emulsion paint shown in Fig 12.1 with and without the addition of Dow coming 88 Additive and vs a competitor Si resin emulsion
• Controlling foam in decorative paints and coatings

• Introduction
• Dispersing urethane polymer in water is accomplished by aid of the stabilising effect, provided by the polymer linked carboxyl anions
• Fundamentals of polyurethane dispersions
• Preparation
• Important reactions  involved in the preparation of polyurethane dispersions
• Tonic moiety for anionic dispersions
• Typical properties of 2.2 bis(methyloi) propionic acid
• An example on PUD formulation
• 2.2 bia(methylol) propionic acid (BisMPA)
• Preparation of the prepolymer
• Neutralisation of the preplymer
• PUD starting point formulation
• Dispersion and chain extension
• Safety Issues
• Typical properties obtained by aqueous polyurethane
• Impact of polyether and polyester soft segment on PUD properties
• Structure property relationship
• Tailoring the soft segment
• Effect of neutralisation degree
• PUD components, formulation variables, their functions and effects on the end properties
• Incorporation of ingredients for special features

• Introduction
• Silicone Resin Emulsion Paints (SREP)
• SREP Technology
• Three dimensional Silicon resin structure
• A functional network is created in the construction material
• SREP Properties
• Excellent protection against wetness
• Dry facades prevent algae
• Long lasting facade protection saves renovation costs
• Weathering resistance
• Facades keep their color
• A permanently attractive facade
• Simple and fast processing
• Easy to over paint
• East and efficient
• Solvent free and ecologically more sound
• Extremely stable and non chalking
• Test methods Certified quality
• Conclusion

• Matt finish red oxide metal primer
• Role of ingredients

• Introduction
• Factors affecting the economics of corrosion control
• Surface preparation methods used
• Selection of appropriate coating
• Moisture cured polyurethane coatings for new  construction, maintenance and overcoat painting
• Shop painting for new Construction
• Moisture cured PU production systems
• Performance of MCU primers containing fillers and extenders
• MCUs specifications
• Moisture cured polyurethane technology
• Manufacturing steps for a successful moisture cured coating

• Formulation for 100 kg
• Ist stage Grinding
• 2nd stage stabilization
• 3rd stage for cleaning
• very important Tips/Notes
• Very very important secret hint on manufacturing procedure
• Solution

• Introduction
• Most important innovations in car refinish coatings market
• Time is money
• Reasons for the success of solvent borne twocomponent polyurethane coatings in automotive refinishing
• Main advantages of two component polyurethane coatings for automotive refinishing
• Paint is not always just paint
• Weathering
• Fulfill your dreams with easy savings
• Comparison of properties of different technologies for automotive refinishing
• Why be satisfied with less than the best
• Aliphati polyisocyanates Quality by nature
• Technologies for automotive refinish systems
• Sequence of coating layer in typical car refinish situation
• Two component polyurethane primers and fillers
• Two component polyurethane topcoats
• Basecoals and two component polyurethane clear coats
• Innovation to satisfy the market trends for automotive refinish systems

• Introduction
• The chemistry of polyurethane coatings
• Two component polyurethane coatings
• Composion Protection for Steel Structures 2K-PUR Topocal, Glossy
• Comparison weathering study results
• Comparison of Various Polyurethane Topcoats Accelerated Weathering Study
• Comparison of Various Polyurethane Topocoats and Alternative Topcost Types Accelerated Weathering Study
• Conslusion

• Scrub resistance norms
• Schematic nepresentation of binding power of large and small latex particles
• Wather solubility of monomers
• Low odor interior matt paint formulations
• Procedure

• Addition polymerisation
• Formation of free radical
• Initiation
• Propagation
• Termination
• Coupling Disproportion
• By chain Transfer Agent
• By the Initiator
• experimental
• Testing of products
• Raw material testings
• Testing during processing
• Finish product testing
• Raw Materials sources
• Formulations by varying initiator concentration
• Formulations by changing solvent concentration
• Result and discussions
• Experiments by changing initator concentration
• Raw materials testing
• Initiator concentration
• Raw material Testing
• Side Reaction of initiator
• Processing temperature
• Solvent concentration
• Finished product testing
• Testing during processing
• Finish product testing
• Addition time of premix

• Introduction
• Requirements for spacecraft coatings
• Space environment conditions affecting spacecraft
• Types of aerospace coatings
• Insulating ceramic coatings
• Thermal  control paints
• Corrosion resistant paint
• Temperature-sensitive and pressure  senstive paints
• Cryogenic paints
• Future scope

• Introduction
• Aim of the present investigation
• experimental
• Composition of non reactive ketonic resin
• Analysis of Raw Material
• Composition of Non Reactive ketonic Resins
• Evaluation of non reactive Ketonic resin
• Composition of hot melt thermoplastic (HMTP) road marking paint
• Evaluation of Non Reactive Ketonic resins
• Firm properties of Ketonic resin
• Resistance of resin film to various chemicals and water
• Effect on softening point with change in % resin
• Test methods
• Determination of % purity of Formuldehyde
• Composition of Hot Melt Thermoplastic Road Marking (Effect on Softening Point with change in % plasticizer)
• Composition of Hot Melt Thermoplastic Road Marking Paint (Effect on Softening Point with change in % Resin)
• Evaluation of Road Marking Paint
• Determination of % purity of cyclohexanone
• results and discussions
• Evaluation of Road Marking paint
• M.O.S.T. specification for HMTP road marking point

• Preparation of Feed
• Polymerization
• Post reaction Procession
• Plant Economics of Acrylic Copolymer Emulsion
• Plant and Machinery
• Fixed Capital
• Raw Materials
• Total Working Capital/Month
• Total Capital Investment
• Turn Over/Annum

• Introduction
• Technical Data
• Manufacture of White Cement Based Dry Wall Putty
• Benefits
• Product Specifications
• Performance
• Features Wall Putty
• Plant Economics of Dry Wall Putty (White cement Based)
• Plant and Machinery
• Fixed Capital
• Raw Materials
• Total Working Capital/Month
• Total Capital Investment
• Turn Over/Annum

• Manufacturing Process of Phenol Formaldehyde Resin
• Health and Safety Factor
• Plant Economics of Formaldehyde Resin (Urea, Phenol, Melamine Resin)
• Plant and Machinery
• Fixed Capital
• Raw Materials
• Total Working Capital/Month
• Total Capital Investment
• Turn Over/Annum

• Formulations
• Process of Manufacture of Polyurethane Coating (Aliphatic)
• Plant Economics of Polyurethane Coatings (100% Solids)
• Plant and Machinery
• Fixed Capital
• Raw Materials
• Total Working Capital/Month
• Total Capital Investment
• Turn Over/Annum

• Process of powder coating
• Plant Economics of Powder Coating Chamber Type
• Plant and Machinery
• Fixed Capital
• Raw Materials
• Total Working Capital/Month
• Total Capital Investment
• Turn Over/Annum

• Formulation and Process of Thinners
• Stoving Enamel Thinner (High strength solvent mixture)
• Manufacturing process for stoving thinner
• Thinners for nitrocellulose base lacquers (ICI type)
• Formulation-1 N.C. Lacquer Thinner
• Plant economics of thinners for industrial use
• Plant and Machinery
• Fixed Capital
• Raw Materials
• Total Working Capital/Month
• Total Capital Investment
• Turn Over/Annum

• Process of Manufacture
• Blending Operation
• Plant and Machinery
• Fixed Capital
• Raw Mateials
• Turn Over/Annum

• Introduction
• Properties of ink
• Offset printing inks
• Properties of paints
• Physical Properties
• Chemical Properties
• Flow Requirement of Offset ink
• Use and applicationof printing ink
• Principles of paint formulations
• Paint Formulation
• Characteristics of Pigment
• Characteristics of Solvents
• Pigment and Vehicle Ratios
• Viscosity
• Hinding Power
• Selection of Pigments
• Vehicle Selection
• Oil Absorption
• Bulking Value
• Fineness of the Pigment
• Formulation of Automotive Paint
• Formulationof Protective Paint
• Red Oxide Primer
• Formulation for Red Oxide Primers
• Oil Type Oleoresinous type
• Process of manufacturers and formulations of thinner
• Thinner formulations for Brushing Lacquers
• Low Viscosity Nitrocellulose
• Hot  Spray Application
• Thinner Formulations (All parts by Weight)
• Plant economics of industrial paint and inks (various types)
• Plant and Machinery
• Fixed Capital
• Raw Materials
• Total Working Capital/Month
• Total Capital Investment
• Turn Over/Annum

• Plant economics of clear wood varnish (flame relarding type)
• Plant and Machinery
• Fixed Capital
• Raw Materials
• Total Working Capital/Month
• Total Capital Investment
• Turn Over/Annum

• Formulations
• Thixotropic paint emulsions
• Zirconium Complexes
• Thixotropic Emulsion Paint
• Gloss Paints
• Core Latex Emulsions
• Plant economics emulsion paints (water based)
• Plant and Machinery
• Fixed Capital
• Raw Materials
• Total Working Capital/Month
• Total Capital Investment
• Turn Over/Annum