Introduction

• Types of ceramic products
• Examples of whiteware ceramics
• Classification of technical ceramics
• Other applications of ceramics
• Types of ceramic materials
• Crystalline ceramics
• Noncrystalline ceramics

Ceramics vs. Fine Ceramics

• Classification of Ceramics
• Pottery and Ceramics
• Ceramics
• Glass
• Cement
• Refractories
• Grinding Wheels
• Porcelain enamels
• Pottery and Ceramics
• Earthernware
• Pottery
• Stoneware
• Porcelain
• Fine Ceramics

Fine Ceramics Production Process

• Types of Fine Ceramics
• Barium Titanate (BaTiO3)
• Lead Zirconate Titanate
• [Pb(Zr,Ti)O3]
• Ferrite (M2+O.Fe2O3)
• Alumina (Al2O3)
• Forsterite (2MgO.SiO2)
• Zirconia (ZrO2)
• Zircon (ZeO2.SiO2)
• Mullite (3Al2O3.2iO2)
• Steatite (MgO.SiO2)
• Cordierite
• (2MgO.2Al2O3.5SiO2)
• Aluminium Nitride (AIN)
• Silicon Nitride (Si3N4) .
• Silicon Carbide (SiC)
• Fine Ceramic Materials Play an Important Role in Submarine Earthquake Observation
• Self-Surfacing Ocean Bottom Seismograph
• Comparison of Strength and Specific Density Between Fine Ceramics and Metals

Ceramic Matrix Composites

• Fabrication of Ceramic
• Matrix Composites
• by Chemical Vapour
• Infiltration (CVI) .
• Chemical Vapour
• Infiltration (CVI)
• Types of Chemical
• Vapour Infiltration process
• Chemical Vapour
• Infiltration (CVI) process
• Advantages and Disadvantages of Chemical Vapour
• Infiltration (CVI) process
• Fabrication of Ceramic Matrix
• Composites by Liquid phase Infiltration
• Slurry Infiltration
• Process (SIP)
• Reactive Melt Infiltration
• Process (RMI)
• Polymer Infiltration and Pyrolysis (PIP)
• Fabrication of Ceramic
• Matrix Composites by Sol-gel process
• Sol-gel Infiltration – description
• Sol-gel Infiltration process
• Advantages and Disadvantages of Sol-gel Infiltration
• Advantages of Sol-Gel Infiltration
• Disadvantages of Sol-Gel Infiltration
• Self-lubricating ceramic composites
• Solid lubricants, which are used or may be potentially used in selflubricating ceramic composites
• Graphite
• Alumina-graphite
• composite
• Silicon nitride-graphite composite
• Alumina-carbon nanotube composite
• Alumina-CaF2 composite
• Nano-structured alumina-
• FeS composite
• Carbon-Carbon
• Composites
• Structure of Carbon-
• Carbon Composites
• Fabrication of Carbon-
• Carbon Composites by Liquid Phase
• Infiltration process
• Fabrication of Carbon-
• Carbon Composites by Chemical Vapour
• Deposition process
• Properties of Carbon-
• Carbon Composites
• Oxidation protection of
• Carbon-Carbon
• Composites
• Applications of Carbon-
• Carbon Composites
• Structure of composites
• Interfacial bonding
• Shape and orientation of dispersed phase
• Particulate Composites
• Fibrous Composites
• Laminate Composites
• Estimations of composite materials properties
• Rule of Mixtures
• Density
• Coefficient of Thermal
• Expansion
• Modulus of Elasticity
• Long align fibers
• Short fibers
• Shear modulus
• Poisson’s ratio
• Tensile Strength
• Metal Matrix Composites
• Titanium Matrix Composite
• Copper Matrix Composites
• Liquid state fabrication of Metal Matrix
• Composites
• Stir Casting
• Infiltration
• Solvent debinding
• Gas Pressure Infiltration
• Squeeze Casting
• Infiltration
• Pressure Die Infiltration
• Solid state fabrication of Metal Matrix
• Composites
• Diffusion Bonding
• Diffusion
• Pressure
• Sintering
• Hot Pressing Fabrication of Metal Matrix
• Composites
• Hot Isostatic Pressing
• Fabrication of Metal
• Matrix Composites
• Hot Powder Extrusion Fabrication of Metal Matrix Composites
• In-situ fabrication of Metal Matrix Composites
• Advantages of in situ Metal
• Matrix Composites:
• Fabrication of Metal Matrix Composites by codeposition
• Electrolytic co-deposition
• Spray co-deposition
• Vapour co-deposition
• Carbon Fiber Reinforced
• Polymer Composites
• PAN-based carbon fibers (the most popular type of carbon fibers)
• Pitch-based carbon fibers

Ceramics

• Suitable esters are polymers comprising

Ceramic Process

• Preparation of a cermet by electrochemical means
• Example 1: Replication of the shape of a flower
• Example 2: Replication of the shape of a carnation
• Example 3: Replication of the shape of a flower
• Example 4: Replication of the shape of a burdock bush
• Example 5: Replication of the shape of a flower
• Example 6: Heat Treated Cermet Electroplate

Process for Preparing Ceramic Moulding

• Example 1 to 3 and Comparative Examples 1 to 3
• Example 4
• Example 5
• Example 6
• Example 7
• Example 8
• Example 9

Ceramic-Ceramic Composite Filter

Ceramic-Ceramic Nanocomposite Electrolyte

• Conductivity
• Conductivity

Process for Ceramic Composites

Ceramic Heater

Ceramic Foam

Dried Emulsion Ceramic Process

• Synthesis of Cadmium Zinc Borate Concentrate (Acetate Salts)
• Aqueous Phase Preparation
• Oil Phase Add 2.0 Kg of Surfactant, OLOA- 1200, to a sufficient volume
• Emulsification
• Distillation
• Synthesis of Cadmium Zinc Borate Concentrate (Nitrate Salts)
• Aqueous Phase
• Preparation
• Oil Phase
• Emulsification
• Distillation
• Synthesis of Cadmium Zinc Borate Concentrate (Xylene Oil Phase)
• Aqueous Phase Preparation
• Oil Phase
• Emulsification
• Distillation

Piezoelectric Ceramics

• Preparation of Piezoelectric Ceramic Powder
• Preparation of Spinel Ceramic Powder
• Creation of Piezoelectric Ceramic Containing Spinel Ceramic
• Measurement of Characteristics

Ceramic Processing and Shaped Ceramic Bodies

Ceramic Lever

Ceramic Log Moulding Process

Ceramic Capacitor

• Manganese Oxide Layer
• Iron Oxide Layer
• Cobalt Oxide Layer
• Nickel Oxide Layer
• Zinc Oxide Layer
• Indium Oxide Layer
• Indium Tin Oxide Layer
• Tin Oxide Layer

Brazing Ceramics

Hydroxylapatite Ceramic

Ceramic Igniters

• Igniter Fabrication .
• Additional Igniter Fabrication
• Additional Igniter
• Fabrication

Glass-ceramicbonded Ceramic Composites

Semiconductive Ceramic

Ceramic Bearing

• The First Method
• The Second Method
• Other Methods

Ceramic Powders

Ceramic Armour

Ceramic Decal

Ceramic Cooktop

Ceramic Elements

• Step 11 (S 11 ): Preparation of Slurry for Forming Ceramic Layer
• Step 12 (S 12 ): Formation of Green Sheet
• Step 13 (S 13 ): Formation of Internal Electrode Paste Layer
• Step 14 (S 14 ): Formation of Laminate
• Step 15 (S 15 ): Cutting
• Step 16 (S 16 ): Baking
• Step 17 (S 17 ): Formation of Protective Layer
• Step 18 (S 18 ): Formation of Base Electrode
• Step 19 (S 19 ): Plating
• Comparative Method 1
• Investigation of Protective Layer
• Changes in Insulation Resistance

Ceramic Welding Process

Ceramic Catalysts

Ceramic Powder Transfer Process

Ceramic Susceptor

Ceramic Instrument

Ceramic Board

• Explanation of symbols
• Step of forming the ceramic substrate
• Step of printing a conductor containing paste on the ceramic substrate
• Firing of the conductor containing paste
• Step of forming a metal covering layer
• Fitting of terminal pins and so on
• Step of forming the ceramic substrate
• Step of printing a conductor containing paste on the green sheet
• Step of laminating the green sheets
• Step of firing the green sheet lamination
• Production of a Ceramic Heater
• Production of a Ceramic Heater
• Production of a Ceramic Heater
• Comparative Example 1
• Comparative Example 2
• Industrially Applicability .

Ceramic Waferboard

Ceramic Insulation

Ceramic Decalcomania

Whitlockite Ceramic

Ceramic Microtruss

• Chemical Vapour Deposition
• Ceramic Through Reaction with the Scaffold
• Preceramic Polymers

Ceramic Pigments

The book  Hand Book of Ceramics & Ceramics Processing Technology covers  Introduction,Ceramics vs. Fine Ceramics, Fine Ceramics Production Process, Ceramic Matrix Composites, Ceramics, Ceramic Process,  Process for Preparing Ceramic Moulding, Ceramic Ceramic Composite Filter,Ceramic Ceramic Nanocomposite Electrolyte, Process for Ceramic Composites, Ceramic Heater, Ceramic Foam,Dried Emulsion Ceramic Process,  Piezoelectric Ceramics, Ceramic Processing and Shaped Ceramic Bodies, Ceramic Lever, Ceramic Log Moulding Process, Ceramic Capacitor, Brazing Ceramics, Hydroxylapatite ceramic, Ceramic Igniters, Glass ceramicbonded Ceramic Composites, Semiconductive Ceramic, Ceramic Bearing, Ceramic Powders, Ceramic Armour, Ceramic Decal, Ceramic Cooktop, Ceramic Elements, Ceramic Welding Process, Ceramic Catalysts, Ceramic Powder Transfer Process, Ceramic Susceptor, Ceramic Instrument, Ceramic Board,  Ceramic Waferboard, Ceramic Insulation, Ceramic Decalcomania, Whitlockite Ceramic , Ceramic Microtruss, Ceramic Pigments.

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DYES

Requisites of a True Dye
Types of Fibres
Dyeing
Various methods of dyeing
Fastness properties
Historical development from natural to synthetic dyes
Nomenclature of dyes intermediates
Nomenclature of dyes
Historical Development of Dyes
Natural Dyes
Limitations of Natural Dyes
Synthetic Dyes
Important dyestuff intermediates
Disperse azo dye

AZO DYES

The Azo coupling reactions
Congo Red
Diazotization
Coupling
Isolation
Direct Black E
Diazotization of Benzidine
First Coupling
Second Coupling
Third Coupling
Isolation
Direct Blue 2B
Diazotization
Coupling
Isolation
Violet N
Diazotization of Benzidine
Coupling
Isolation
Sky Blue FF
Diazotization of Dianisdine
Coupling
Yield
Ethylation
Direct Light Fast Blue 4GH
Plant for Azo Dyes
Important notes for diazotization and coupling

AZOIC DYES

Azo Coupling Components
Bases
Rapid Fast Colours
Rapidogens
M-Nitro Aniline (Fast orange R)
Properties
Solubility
O-Chloronailine (Fast Yellow G, Gc)
O-Anisidine (Fast Red BB)
Solvolysis
Reduction
Properties
2-Nitro-p Anisidine (Fast Bordeaux G P)
Purification
Nitration
Hydrolysis
Purification
Naphthol AS
Properties of finished product
Naphthol AS-BS
Properties of finished product
Physical Properties of Naphthol AS-OL
Naphthol AS-G

ACID DYES

Simple Acid Dyes
Mordant Acid Dyes
Manufacturing Processes
Acid Orange II
Acid Flourescein
Acid Light Fast Yellow G
Acid Fast Red A
Metanil Yellow
Acid Black 10 BX

BASIC DYES

Diphenyl methane
Triphenyl methane dyes
Thiazines
Oxazine Dyes
Xanthene Dyes
Manufacturing Process
Auramine O
Reaction
Process
Malachite Green
Reaction
Process
Leuco Malachite Green
New Magenta
Process
Safranine T
Aminoazotoluene Preparation
Reduction
Oxidation
Methylene Blue
Nitrosoation
Reduction
Acid Formation
Indamine Formation
Cooking
Isolation
Rhodamine B
Reaction
Process

DISPERSE DYES

Dispersion
Effect of Dispersing Agents
Levelling Agents
Classification
Disperse dyes in the dye bath
Disperse dyes in the fibre
Solacet Dyes (Water Soluble)
Light
Gas Fumes
Sublimation
Wash fastness
Current Research Work
Disperse Yellow 1
Reaction
Disperse Yellow 13
Acid Pasting
Dispersion
Disperse Yellow 42
Reaction
Disperse Orange 1
Procedure
Emulsion of Diphenylamine
Test
Coupling
Disperse Orange 13
Diazotisation of Aniline
Coupling Solution
Coupling
Stage II Diazotization of aniline azo dye
Coupling Solution
Coupling
Dispersion
Disperse Red 4
Acid pasting and Dispersion
Dispersion
Test
Disperse Red 9
Treatment with hydrochloric acid
Disperse  Blue 1
Reactions
Reduction
Acetylation of 1:5 and 1:8 diamino anthraquinone
Stage IV Nitration and Reduction
Rduction
Stage V Hydrolysis
Disperse Blue 3
Reaction
Disperse Black 1
Coupling
Test
Disperse Violet B
Reaction
Sulfonation
Nitration
Hydrolysis
Dispersion

VAT DYES

Five Membered Rings
One Heteroatom
Two Heteroatoms
Attachment at 2-position
Attachment at 1-2-position
Attachment at 2-3position
Attachment at 1.9-position
Vat Dyes Containing Six Membered Rings
Attachment at 1-2-position
Attachment at 1.9-position
Attachment at 3.4 -position of benzanthrone
Attachment at 1-position
Attachment at 1.2-position
Attachment at 2.3-position
Attachment at 1.9-position
Fused Ring System
Dyes containing larger ring systems

ANTHRIMIDES AND CARBAZOLES

Anthraquinone-carbazoles
Ring closure with aluminium chloride
Ring Closure with Titanium Tetrachloride
Ring closure with sulphuric acid
Ring closure with Potassium Hydroxide
Oxidation
Characterisation of Anthrmides and Anthraquinone Carbazoles
Spectral Differentiation
Ultraviolet and Visible Spectra
Infrared
C=O Stretching and NH deformation vibrations

VAT DYES & VAT PASTES

Vat Paste
Manufacturing of Vat Pastes
Vat Orange RF Paste
Golden Yellow G.O.K. Paste
Magenta B Paste
Vat Blue 4G Paste
Vat Pink R Paste
Vat Blue 4B Paste
Vat Black BB Paste
Vat Green FB Paste
Vat Brown RRO Paste Special
Vat Violet 2R Paste
Vat Violet GCN Paste
Vat Scariet GGN Paste
Vat Grey 3B Paste
Manufacturing Process
Indanthrene Rubine R
Formula
Ethylation of Anthrapyrazole yellow
Acid pasting Anthrapyrazote
Indanthrene Grey M
Stage III Cyclisation of anthrimide to carbazoles
Vat Red
Stage -1 Oxidation of 1-Nitro 2 methyl anthraquinone
Stage II
Microscopic Test
Purification
Vat Black
Reduction
Introduction
Procedure
Indanthrene Dark Blue Boa (Violanthrone)
Indanthrene Golden Orange 3-G
i. Anthrimide Formation
ii. Indanthrene Golden
Orange 3G (carbazol)
Indanthrene Brilliant Green Feb
2:2′ Dibenzanthroanl
Dihydroxy dibenzanthrone
Indanthrene Brilliant Green FFB Crude
Standardisation of Vat  Dyestuffs
The Spray drying method
The W & P Mixer Method
Indentification of Vat Dyes
Procedure
Sulphuric Acid or Nitric Acid Test
Alkaline Hydrosulphite Test
Acid Hydrosulphite Test

INDIGOLD AND THIOINDIGOLD DYES

Technical Synthesis of Indigo
Thioindigold dyes
Indigo
Brilliant Indigo-G
Thioindigo Red B
Procedure
Algol Orange-RF
Standardisation
Vat Printing Brown-G

INDIGOSOL

Anthrasol Brillant Orange IRK
Anthrasor Blue IBC
Oxidation to tetraester
Identification of Leuco
Ester Vat Dyes

FLUORINATION OF DYES

Hydorofluric Acid
Material of Construction
Fluorine
Material of Construction
Indanthrene Brilliant Violet F RK (C.I. 63350)
Indanthrene Printing Blue HFG
Nuclear Fluorination

SULPHUR DYES

Thionation
Types of Sulphur Dyes
Properties of Sulphur Dyes
Manufacturing Process
Sulphur Black-T
Hydrolysis
Oxidation
Grain Standardisation
Immedial Orange C
Sulphur Orange 1
Property
Hydron Blue R Powder
R Base
Hydron Blue R powder
Procedure

REATIVE DYES

Classification of Reactive Dyes
Reactive dyes containing a cyanuric chloride nucleus
Reactive dyes containing a chlor pyrimidine nucleus
The vinyl sulfone reactive type
Reactive dye containing an epoxy group
Pyridazone
Dichloroquinoxaline
Acrylamide
Methylolated Nitrogen
Reactive dyes containing a Cyanuric Chloride Nucleus
Vinyl Sulfone Reactive Dyes
Chemistry of tetrachloropyrimidines
Reactive Dyes based on Epoxides
Other types of Reactive Dyes
Application Purification of Reactive Dyes
Advantage and Limitations of Reactive Dyes
Fabric Preparation
Washing Off New Developments of Reactive Dyes
Kayacelon Reaction Dyes
Cibacron C Dyes
Procion Supra Dyes of (I.C.I)
Procion HEXL Dyes
Prociline N Dyes
Reactive Red
Reactive Rose Red
Reactive Violet
Reactive Orange
Reactive Yellow
Reactive Red M8B
Acetylation of H Acid
Diazotisation of Tobias Acid
Reactive Dyes with Trichloropyrimidine As Reactive Group
Preparation
Reactive Dyes with 2.3-Dichloroquinoxaline
6-Carbonyl Chloride
as Reactive Group
Preparation
Reactive Dyes with Chloroacetyl As Reactive Group
Reactive Dyes with 6-Amino-2 Chlorobenzothiazole-5 Sulphonic
Acid as Reactive Group
Preparations
Properties of Cyanuric Chloride
Chlorosulfonic Acid
Identification of Reactive Dyes
Procedure

INTERMEDIATES FOR DYES AND PIGMENTS

Electrophilic
Nucleophilic substitution
Free radical
Sulphanilic Acid
Metanilic Acid
p-Aminophenol
Reduction
o-Phenylene Diamine
Property
o-And-p Nitrochlorobenzene
p-Phenylenediamine
Reduction
Control Test
1-Phenyl 3-Methyl 5-Pyrazolone
Quality of phenyl methyl pyrazolone
Tobias Acid
Quality
H-Acid
1-amino-2 Naphthol-4 Sulphonic Acid
Schaeffer’s Acid
J-Acid
Alkali Fusion of Amino J-Acid
N-Phenyl J-Acid
Anthraquinone
2-chloro Anthraquinone
2-Amino Anthraquinone
1-Hydroxy Anthraquinone
Anthraquinone 1-sufonate potassium salt
1-Hydroxy Anthraquinone
1:4 Dihydroxy Anthraquinone-(quinizarine)
Purification
1:4 Diaminoanthraquinone
Test for completion
Oxidation
1. Amino-2 Methyl- Anthraquinone
2. Methyl Anthraquinone
1-Nitro-2 Methyl anthraquinone
Purification of crude product
Amino-2 methylanthra quinone
Benzanthrone

FLUORESCENT BRIGHTNERS AND OPTICAL WHITENING AGENTS

Chemical Constitution
Stibene derivatives
Derivatives of dibenzothiophene-5 5-dioxide
Azoles
Monoazoles
Bisazoles
Coumarian Derivatives
Derivaties of 6-memberedring heterocycles
Derivative of pyrazoline
Finishing of Commercial Optical Brightners
Pastes
Powder
Instant finish (easily water soluble)Liquid forms
Stable Dispersions
Evaluation and testing
Active strength of fluorescent brightners
Uses
Detergent Brightners
Brightners for the textile industry
Natural Fibres
Brightner for cellulose
Brightners for wool
Brightners for synthetic fibres
Brightners for Cellulose Acetate
Brightners for Polyamide fibres
Brightners for polyester fibres
Brightners for Acrylic fibres
Brightners for Polyacrylonitrile fibre
Multi fibre brightening
Paper Brightners
Brightners for plastics
Brightners for Cosmetic Preparations
Brightners for Miscellaneous Application
Biological aspects

TYPICAL COMMERCIAL BRAND NAMES OF TEXTILE COLORANTS, ACCESSORY PRODUCTS

ETC.

CLASSIFICATION OF PIGMENTS AND EXTENDRES

Inorganic Pigment
Organic Pigment
Difference between Organic and Inorganic  Pigment
Difference between Pigments & Dyes
Classification of Pigments
Inorganics
White
Black
Red Brown
Yellow Orange
Green
Blue Purple
Metallic Powder
Organic Pigments
Lakes
Metal Toners
Azo Pigment
Yellow Pigments
Vat Pigment and Polycyclic Pigments
Phthalocyanines Blue Green
Extenders
Types of Extenders Pigment
Whiting Calcium Carbonate (Natural)
Calcium Carbonate (Synthetics)
Barytes
Barium Sulphate
Silicates
China Clay (Kaolin)
Silica (Silicon Dioxide)

INORGANIC PIGMENTS

Titanium Dioxide
Manufacture
Sulphate process
Wet treatment
The chloride process  Application of Titanium pigments
Paper
Textile
Plastics
Ceramics
Rubber
Plastics
Ceramics
Rubber
Miscellaneous
Iron Oxides
Manufacture Uses
Synthetic Iron Oxide
Manufacture
Calcined Coppers Red
Ferrite Red
Precipitated Synthetic Red Iron Oxide
Calcined Black (Red) Iron Oxide
Uses
Chromates
Zinc Chromate
Lead Chromate
Primrose Yellow
Light or Lemon Yellow
Medium Yellow
Chrome Orange
Manufacture
Chromium oxide green
Cadmium pigments
Manufacture
Zinc Oxide
From Zinc Metal (French or Indirected Process)
From Zinc Oxide Ores (American or Direct process)
From Zinc Sulphide Ore
Zinc Sulphide
Lithopone
Zinc Phosphate
Metallic Pigment
Copper and Copper Alloy Flake Copper
Alloy Flake Powders
Zinc Pigment
Stainless Steel Flake Pigment
Carbon Blacks
Uses
Ultramarine Pigments
Prussian Blue

AZO PIGMENTS

Red Pigments
Permanent Reds
The Pyrazolone Red
Yellow Pigments
Manufacture of azo Manufacture of azo pigments
Pigment Yellow G
Procedure
Diazotization
Coupling Component
Pigment Yellow 10G
Procedure
Diazotization
Coupling preparation
Coupling
Benzidine Yellow
Diazotization
Coupling Preparations
Coupling
Benzidine Orange
Diazotization
Preparation of Coup Ling component
Coupling

HIGH GRADE ORGANIC PIGMENTS

Azo condensation
Vat Pigments and Related Compounds
Anthraquinone pigment\\\
Thioindigo Pigments
Dioxazine
Quinacridone
Quinacridone
Toning White Enamels
Isoindolinone
Applications
Phthalocyanine

PHTHALOCYANINES

Manufacturedine
Methods for formation of pigments from crude
Acid pasting
Acid slurry
Concentration of the sulfuric acid
Amounts of the sulfuric acid
Slurrying time
Temperature of the slurry
Production of b-form pigment by salt grinding
Manufacture of metal free phthalocyanina
Manufacture of phthalocyanine green
Properties Phthalocyanines
Flocculation, Flotation and Flooding
Control of flocculation
Floatation
Flooding
Application of phthalocyanine pigments
Phthalocyanine dyes of Textile materials
Phthalocyanine formation in the fibre

FLUORESCENT PIGMENTS

Photostability of Fluorescent Pigments
Fluorescent Application
Phosphorescent
Luminous Pigments
Properties and characteristics
Uses
Use in Plastic
Peart Luster Pigments

QUALITY CONTROL AND EVALUATION OF PIGMENTS

Quality Control
Evaluation of Pigments
Physical Properties of Pigment
Moisture Content
Bulking Volume
Mesh Residue
Particle Size
Procedure
IS Specification
Solvent Stability
Aim
Importance of the test
Procedure
IS Value
Water Soluble Matter
pH of the Pigments
Oil Absorption
Raw Materials required
Procedure
Defination of Oil Absorption
Opacity
Colour
By Automatic Muller
Mass Tone
Apparatus required
Reduction Tone
Raw Materials Used
Other materials required
Procedure
Raw Material required
Dispersibility, Texture and Rheology
Stability and Fastness
Other Properties
To Destermine the Sp.
Gravity of Pigment
To determine percentage purity of crude
phthalocyanine
Volumetric Method for the determination of  copper in Cuprous
Chloride
Estimation of Organically
Bound hlorine

PIGMENTS FOR TEXTILES

Viscosity of Batch
Amount of Grinding Media
Amount of Material to be Ground
Handy Hints for Milling
Anionic surfactants
Non-ionic surfactants
Auxilliary or water retaining agents  in pigment emulsion
Mill Cleaning Methods
Formulations of different pigment Emulsions
Binder
Thickeners
Water Retaining agents
Catalysts
Preparation of 10% Binder Reduction
Thickening
Recipe for printing paste
After treatments

PIGMENTS FOR PAINTS

Mass Tone Colour
Under Tone Colour
Particle Shape
Particle Size Distribution Dispersibility
Effect on Vehicle Viscosity
Weathering
Parameters of pigment performance in paint industry
Dispersion
Surface Treatment
Particle Size
Surface area and characteristics
Mechanical Properties
Paint
Drying
Flushed pigments
Fluorescent pigments
Pigments
Fastness Properties
Light Fastness
Fastness to solvents
Heat Fastness
Chemical Fastness
General Paint
Pigment tailored to suit many specific uses are now available
Characteristics and fastness properties of the various classes of pigment
Dinitroaniline Orange
Toluidine Reds
Hansa Yellow Pigments (pigment yellows)
Polycyclic Pigments
Manufacture of Paint
Suitability of different pigments for use in various paints systems
Catalysed Paints
Unsaturated polyester paints
Acid curing paints
Polyurethane paints
Cold curing epoxy paints
Epoxy stoving enamels
Metallic finishes
Colouration of Aqueous Paint Systems Particularly of Emulsion Binders
Pigment paste from pigment Formulation of Different Pigment Paste
Separation and Identification of pigments  from synthetic enamel

PIGMENTS FOR PRINTING INKS

Fastness to Light
Fastness to alkali
Fastness to acid
Transparency
Dispersion
Organic pigment for printing ink should offer

PIGMENTS FOR PLASTICS, RUBBER AND COSMETICS

Selection of pigment
Colouring Techniques
Colouring plastic materials for  injection moulding
Colouration of moulding compounds
Phenoplasts
Colouring Thermoplasticslastics
Plasticised polyvinyl chloride
Rigid PVC
Polyethylene
Polypropylene
Polystyrene
Polyurethane foams
Pigments for Rubber
Vulcan Fast and Vulcan Pigments
Colourant for Cosmeticsmetics
Miscellaneous applications

CHEMICAL PLANT DATA FOR DYES AND PIGMENTS

Plant Layout
Typical weaknesses in a poor plant layout
Materials Handling
Reduction in time
Reduction in handling
Equipment design
Summary
Material of construction
Metals
Cast Iron
White  Cast Iron
Plain Carbon Steel
Low carbon steel of Mild steel
Medium carbon steel
High carbon steel
Alloy Steel
Low alloy steel
High alloy steel
Stainless Steel
Non Metals
Cement and Stoneware Product
Glass
Rubber
Plastics
Other Materials
Wood
Linings for Chemical Plants  and  Equipment
Important Equipments for Dyes, Pigments and Chemical Plant
Autoclaves or Pressure Vessels
Reaction kettle or Reactor
Materials of Construction
Type and shape of reactor
Agitation
Jacket Design
Glass Line Reactor
Mechanical Resistance
Thermal Resistance
Testing
Vacuum Distillation Plant
Filter Presses
Filtrate discharge
Dryers
Spray dryers
Advantage of Micropulverizer
Research and Development

PLANT ECONOMICS OF DYE & DYE INTERMEDIATE

PLANT ECONOMICS OF METHYLE BLUE

PLANT ECONOMICS OF ACID BLOCK DYE

PLANT ECONOMICS OF GREEN OXIDE AND BLUE OXIDE

PLANT ECONOMICS OF AZO DYE (RHODAMINE-B)

PLANT ECONOMICS OF DYES (ANTHRAQUINONE, B-NAPHTHOL ETC.)

SUPPLIERS OF PLANTS, MACHINERY AND EQUIPMENTS

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