Project report on Resins - Technology Book - Feasibility Report - Market Survey - Industrial Report

manufacturing technology & formulations hand book on thinners, putty, wall & industrial finishes and synthetic resins

EIRI Team — Wed, 06 Apr 2016 08:08:18 +0000

MANUFACTURING TECHNOLOGY & FORMULATIONS HAND BOOK ON THINNERS, PUTTY, WALL & INDUSTRIAL FINISHES AND SYNTHETIC RESINS

Thinner

Volatile Lubricants
Measures of Solvency
Anilline Point
Kauri-Bulanol Value
Liquid Chromatography
Composition
Viscocity Reduction
Tests for Purity
Volatility

Inorganic Pigments

The Function of Pigments
Properties of Pigments
Optical Data
Particle Shape
Dispersibility
The Classification of Pigment
Properties of Inorganic Pigments
Iron Oxides
Natural Iron Oxides
Synthetic Iron Oxides
Chromates
Zinc Chromates
Lead Chromate
Chrome Greens
Prussian Blue
Ultramarine Blue
Chrome Oxide Pigments
Cadmium Pigments
ed lead
White Lead
Zinc Oxide
Zinc Sulfide Lithopone
Zinc Phosphate
Calcium Plumbate
Carbon blacks
Mixed Phase Pigments
Bronze Powders
Stainless Steel Flake

Titanium Dioxide Pigments

The sulphate process
The Chloride Process
Application of Titanium Pigments
Surface Coating Industry
Dispersion of Tatanium Pigments
Opacity
Tinting Strength
Durability
Gloss Development
Storage Stability
Other Industry
Plastic Industry
Rubber Industry
Paper Industry
Ceramic Industry
Other Applications

Organic Pigments

Classification of Organic
Pigments
Colour and Chemical Constitution
Manufacture of Azo Pigments
Azo Condensation Pigments
Pigments Conditioning
Testing
Pigment Crystals and Particle Size
Dyestuffs
Colour Index Classification
Production of Organic Pigment
Cost Comparisons
Application of Organic Pigments
Industrial Finishes
Coil Coatings
Automotive Finishes
Decorative Paints
Printing Inks
Artists Colour
Commercial Pigments
Arylamide Yellows (Hans Yellows)Shades: Bright greenish yellow to reddish yellow
Diarylide Yellows (Benzidine Yellows)
Shades: Strong greenish yellow to reddish yellow
Copper Azo yellow
Pyrazolone Orange and Red Pigments
Dinitronitine Red (Orange)
Naphthol Reds (BON Arylamide Reds)
Shade:Yellowish red to bordeaux
Lithol Reds
Shade:ranges from yellowish red (Na) to bluish red (Ca)
Lake Red (PR 53)
Red 2B Toner
Shade: yellowish red (Ba) to bluish red (Ca)
Claret Toner
Red B Toners
Dianisidine Blue
Alizaline Lake
Ouinacridone Pigments
Perylene Reds
Thioindigo Red
Indanthrone Blues

Extender Pigments

Particle Size and Shape
Particle Size Distribution
Specification
Particle Size Distribution
Colour
Sleve Residue
Water-Soluble content and pH
Water Soluble content and pH
Volatile Matter
Oil Absorption
Dispersion
Safety Procautions
Tyes of Extender Pigments
Calcite (Whiting)
Calcium Carbonate (Synthetic)
Talc
Barytes
China Clay (Kaolin)
Silica
Crystalline Silica
Amorphous Silica (Tripoli)
Synthetic Silica
Mica
Asbestos
Wollastonite

Putty, Glazing, Compounds Caulking, Compounds, and Salants

Definition
Formulation of Putties
Oil Based Putty Metal Sash Grade (Linseed Oil)
Oil Based Putty Plumbers Grade (Oil)
Formulation of Glazing Compounds
Oil Based Glazing Compound Green House Grade
Water Based Glazing Compound High Quality Exterior Grade Acrylic
Oil Based Caulking Compounds
Water Based Caulking Compound White Gun Grade (Acrylic)
Physical Contents
Key Properties
Hot Melt Sealant
Physical Constants
Key Properties
Working Properties
subjective Test for Knife Compounds
Cone Penetrometer for Consistency
Mobilometer for Consistancy
Sandwich Squeeze for Consistancy
Brookfield Viscometer for Consistency
Extrudability with Caulking Gun
Extrusion Rheometer
Shearing Adhesiveness
Rheological Properties
Levelling Test
Sag (slump) test
Sag Test for vertical Joints
ASTM Slump Test
Slump Test for Horzontal Joints
Tack Free Time
Shrinkage
Apparatus
Procedure
Bend Test
Low Temperature Flexibility
Adhesion
Bond Strength by Direct Pull
ASTM Method for Bond Strength
Gravity Test for Adhesion
Hardness
Durometer Hardness under Standard Conditions
Durometer Hardness After Heat Aging
Penetrometer for Hardness
Penetrometer for Degress of Set
Compression Set
Aging Tests on Cauiks and Sealants
Heat Aging Test
Appearance
Oil Migration
Loss of Weight, Cracks Chalks
Articial Weathering Tests
Shrinkage
Apparatus
Procedure
Cohesiveness
Tensile Adhesiveness (Cohesion)

Paint Driers

Types of Driers and Manufacturing Methods
Direct Fusion Process
Precipitation Process
Direct Metal Reaction (DMR) Process
The Organic Radical of Metailo Organic Driers
Napthenates
Octoates
Performence of Synthetic Based Driers Versus Napthenates
Driers Recommendations
Mixed Driers Systems Are Normal for Air Dry Finishes
Temperature Has Considerable Effect on Drier Metal Activity
The Sequence of Drier Additon should be considered
Primary Driers
Cobalt
Manganese
Lead
Calcium
Zinc
Zirconium
Iron
Rare Earth and Cerium
Aluminium
Vandium
Stability on Drying Performance on Storage
Drier Related Paint Film Defects
Durability and Colour Retention
Hazing and Blooming
Drier for Use in Water Based Systems
The Future Drier Additves

Paint Additives

Additives in Solvent Thinned Paints
Wetting and Dispersing Agents
Anti Settling, Anti Sag and Bodying Agents
Aluminium Soaps
Hydrogenated Castor Oil (Triglyceride of 12- Hydroxyl Stearic Acid)
Heat Stable Polyol Esters
Modified Clays
Anti Skinning Agents
Phenols
Oximes
Anti flood and Antifloat Additives
Method of Cure
Recognizing Flooding and Floating
Midew inhibitors:Fungicides
Identification of Midew
Mildew Control
Latex Paint Additives
Surface Active Agents
Dispersing Agents (Anionic Surfactants)
Stabilizing Surfactants (Non-Ionic)
Anti Foam Agents
Latex Thickening Agents
Preservatives
Coalescing Aids
Wet edge Extenders
Freeze thaw Stabilizers
Other Considerations
Secondary Effects

Architectural Paints

Exterior Paints for Wood
Characteristics of Wood Sliding
Bindrs for Exterior House Paints
Pigments for Exterior House Paints
Pigments for Coloured Paints
Microorganics in Paints and Coatings
Tetrachlorophenol
Formulating Exterior Paints for Wood
Interior Paints for Plaster and Wall Board
Calceolate Flats
Alkyd Flats
Ease of Application
Water vs. Mineral Spirits
Odor of Paint and Coating
Hinding Power
Apperance of Coating
Scrub and Chemical Resistance
Durability and Recoatability
Galled Flats
Copolymer Flats
Resin Emulsion Flats
Paint Properties
Physical Constants
Copolymer Emulsion Interior Paints
Alkyd Emulsion Paints
Cooking Procedure
Exterior Emulsion Paints for Masonry
Interior and Exterior Enamels
Enamels for Wood and Concrete Floors
Procedure for Paint

Industrial Finishes

Introduction
Automotive Finishes
Automotive Lacquer Finishes
Metalized Finishes
Water Soluble Vehicles
Metal Decorating Finishes
Novelty Finishes
Wrinkle Finishes
Mixing Procedure
Hammer Finishes
Aluminium Dispersion
Hammer Finish
Multicolor Finishes
Baking Crystal Finish
Cooking Procedure
Crystal Lacquer Finish
Crackle Lacquer Finish
Flock Finishes
Miscellaneous Novelty Finishes
Paper Coatings
Water Soluble Organic Coating
Waxes for Coatings
Cellulosic Polymers in Paper Coatings
Lacquer Emulsions
Ethyl Cellulose
Cellulose Acetate
Vinyl Resins in Paper and Textile Coatings
Calender Coating and Sheeting
Organosols and Plastisois and Paper and Textiles
Organosols and Plastisols for Metal
Polyvinyl Chloride Latexes
Polyvinylidene Chloride Copolymers in Paper Coalings
Polyamide Expoxy Coatings for Paper
Alkyd Amino Resin Coatings for Paper
Advantage of Hall Second butyrate
Precautions in the use of Half Second Butyrate
Application of Half Second Butyrate
Formulating Technique with Half Second Butyrate
Clear Lacquer for Aluminium
Resin Combination with half Second Butyrate
Lacquer for Plastics

EIRI a pioneer industrial consultant working over 32 years in preparation of Project Reports, Market Survey cum Detailed Techno Economic Feasibility Reports, Market Survey Reports and Practical Project Execution Know How Reports . Apart from these, EIRI is also known for Industrial Process Technology Books and Trade Directories with Liasioning Services.

Recipient of Udyog Rattan Award: EIRI has been awarded with the Udyog Rattan Award in 1996 for the excellence job served to the nation.

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RESIN COATED SAND

EIRI Team — Mon, 27 Oct 2014 06:26:36 +0000

Resin coated sand is a very versatile abrasive which finds
applicability in immence. Foundry operations in mould hattenns,
coastings etc. Resin coated sand exercises superianty over
ordinary porus sand in being dry-free flowing and having a
considerable shell life.

The foundary industry provides a large on test for phenoile
resins even through the amount of binding apart employed for
sand consolidation is only 2- 3 wt % or less.

Project Report Covers:

Introduction
Uses and Applications
Properties
Market Survey with future aspects
Present Manufacturers
B.I.S. Specifications
Manufacturing Process with Formulae
Cost Economics with Profitability Analysis
Capacity
Land & Building Requirements with Rates
List & Details of Plant and Machinery with their Costs
Raw Materials
Details/List and Costs
Power & Water Requirements
Labour/Staff Requirements
Utilities and Overheads
Total Capital Investment
Turnover
Cost of Production
Break Even Point
Profitability
Land Man Ratio
Suppliers of Plant & Machineries and Raw Materials.

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PHENOL FORMALDEHYDE RESIN

EIRI Team — Wed, 10 Sep 2014 11:06:23 +0000

Phenolic resin is the term that describe a wide variety of product, results from the reaction of phenol and aldehydes. Although phenol itself, C6H5OH is the dominant phenol, resorcinol and alkyl substituted phenols and p-phenyl phonel are used in substituted phenols and p-phenyl phenol are used in substantial volume. The aldehyde used is almost exclusively formaldehyde but small amounts of furfuraldehyde and acetaldehyde are also used.

Formaldehyde is sometimes used in the form of its dey powder polymer, paraform. The phenol formaldehyde, reaction product, may be liquid, a solid or a powder, and it may be pure resin or modified with filers or polymeric compounds. Most the resin may be delivered to the user ready to be cured or it may be in the temporary thermoplastic `Novolak' from to which a hardner hexmet hylenetetr-amine (hexa) will be added. Some phenolic resins, those based on substituted phenols, are permanently fusible and soluble in organic solvents.

Project Report Covers:

Introduction
Uses and Applications
Properties
Market Survey with future aspects
Present Manufacturers
B.I.S. Specifications
Manufacturing Process with Formulae
Cost Economics with Profitability Analysis
Capacity
Land & Building Requirements with Rates
List & Details of Plant and Machinery with their Costs
Raw Materials
Details/List and Costs
Power & Water Requirements
Labour/Staff Requirements
Utilities and Overheads
Total Capital Investment
Turnover
Cost of Production
Break Even Point
Profitability
Land Man Ratio
Suppliers of Plant & Machineries and Raw Materials.

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CNSL Based Resin in Liquid & Powder form (Water Soluble)

EIRI Team — Wed, 18 Dec 2013 08:28:01 +0000

The resins which are available in powder and liquid form are known as Epoxy Resins and CNSL have also worked on the same type of resins. Although the resins in powder and liquid form are not new products but in order to make them little modified and made their own patented product. But so far as the conventional resins is concerned, the epoxy resin can also be prepared on small scale.

Project Report Covers:

The post CNSL Based Resin in Liquid & Powder form (Water Soluble) appeared first on EIRI - eBooks and Project Reports.

UNSATURATED POLYESTER RESINS

EIRI Team — Tue, 22 Oct 2013 05:25:03 +0000

Polyester resins are unsaturated resins formed by the reaction of dibasic organic acids and polyhydric alcohols. Polyester resins are used in sheet moulding compound, bulk moulding compound and the toner of laser printers. Wall panels fabricated from polyester resins reinforced with fiberglass so-called fiberglass reinforced plastic (FRP) are typically used in restaurants, kitchens, restrooms and other areas that require washable low-maintenance walls. polyesters are condensation polymers formed by the reaction of polyols (also known as polyhydric alcohols), organic compounds with multiple alcohol or hydroxy functional
groups, with saturated or unsaturated dibasic acids. Typical polyols used are glycols such as ethylene glycol; acids used are phthalic acid and maleic acid. Water, a by-product of esterification reactions, is continuously removed, driving the reaction to completion. The use of unsaturated polyesters and additives such as styrene lowers the viscosity of the resin. The initially liquid resin is converted to a solid by cross-linking chains. This is done by creating free radicals at unsaturated bonds, which propagate in a chain reaction to other unsaturated bonds in adjacent molecules, linking them in the process. The initial free radicals are induced by adding a compound that easily decomposes into free radicals. This compound is usually and incorrectly known as the catalyst[citation needed. Substances used are generally organic peroxides such as benzoyl peroxide or methyl ethyl ketone peroxide.

DETAILED FEASIBILITY REPORT COVERS:

Introduction
Uses and Applications
Properties
Market Survey with future aspects
Present Manufacturers
B.I.S. Specifications
Manufacturing Process with Formulae
Plant Layout
Cost Economics with Profitability Analysis
Capacity
Land & Building Requirements with Rates
List & Details of Plant and Machinery with their Costs
Raw Materials
Details/List and Costs
Power & Water Requirements
Labour/Staff Requirements
Utilities and Overheads
Total Capital Investment
Turnover
Cost of Production
Break Even Point
Profitability
Land Man Ratio
Suppliers of Plant & Machineries and Raw Materials.

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