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Manufacture of Perfumes, Fragrance, Scents, Essences and Incense Sticks (Agarbatti) with Formulations (A Complete Book on Perfumes with Formulations)

EIRI Team — Fri, 01 Apr 2016 13:45:46 +0000

PERFUME SELECTION AND TECHNIQUES

Deodorants and antiperspirants
Cosmetic regulations
Voluntary guidelines
Consumerism
Legal requirements
Perfume Selection and Evaluation
Assessing Consumer Acceptance
Techniques for Perfume Evaluation
The status of cosmetics today

FORMULATIONS OF VARIOUS FRAGRANCE AND ESSENCES

Lavender Fragrance Formula No. 1
Lavender fragrance Formula No. 2
Lavender Fragrance Formulation No. 3
Lavender Fragrance Formulation No. 4
Lavender Essence (Natural)
Lavender Fragrance Formulation No. 5
Lavender Sweet)
Rose Fragrance Formulation No. 1
Rose Fragrance Formulation No. 2
Rose Fragrance Formulation No. 3
Rose Fragrance Formulation No. 4
Rose Fragrance Formulation No. 5
Rose Fragrance Formulation No. 6 (Rose F)
Rose Fragrance Formulation No. 7 (Rose MS)
Jasmine Fragrance
Jasmine Fragrance Formulation No. 1
Jasmine Alcohol Formulation No. 2
Jasmine Formulation No. 3
Jasmine Fragrance Formulation No. 4
Jasmine Fragrance Formulation No. 5
Jasmine fragrance Formulation No. 6
Jasmine Fragrance Formulation No.7
Jasmine Fragrance Formulation No. 8
Jasmine Fantasy Fragrance Formulation No. 9
Voilet Fragrance Formulation No. 1
Violet Fragrance Formulation No. 2
Violet Fragrance Formulation No. 3
Violet Fragrance Formulation No. 4
Violet Fragrance Formulation No. 5
Violet Fragrance Formulation No. 6
Orris Tincture Formulation
Chypre Fragrance Formulation No. 1
Chypre Fragrance Formulation No. 2
Chypre Fragrance Formulation No. 3
Chypre Fragrance Formulation No. 4
Chypre ID
Chypre Fragrance Formulation No. 5
(Base Chypre H)
Amber Fragrance
Amber Fragrance Formulation No. 1
Amber Fragrance Formulation No. 2
Amber Fragrance Formulation No. 3
Amber Fragrance Formulation No. 4
Amber Fragrance Formulation No. 5
Amber Fragrance Formulation No. 6
(Amber Concrete (Fixativel)
Amber Fragrance Formulation No. 7 (Chypre bases)
Camation Fragrance
Camation Fragrance Formulation No. 1
Camation Fragrance Formulation No. 2
Camation Fragrance Formulation No. 3
Carnation Fragrance Formulation No. 4 (Base Claveline No. 1)
Carnation Fragrance Formulation No. 5
Carnation Fragrance Formulation No. 6 (Oeillet De Nice)
Muguet Fragrance
Muguet Fragrance Formulation No. 1 (Lity of the Valley)
Muguet Fragrance Formulation No. 2 (Lity) of the Valley)
Muguet Fragrance Formulation No. 3
Lilac Fragrance
Lilac Fragrance Formulation No. 1
Lilac Fragrance Formulation No. 2
Lilac Fragrance Formulation No. 3
Lilac Fragrance Formulation No. 4
Lilac Fragrance Formulation No. 5
Lilac Fragrance Formulation No. 6
Lilac Fragrance Formulation No. 7
Acacia Fragrance
Acacia Fragrance Formulation No. 1
Cassie Fragrance
Cassie Fragrance Formulation No. 1
Narcissus Fragrance
Narcissus Fragrance Formulation No. 1
Narcissus Fragrance Formulation No. 2 (Base Narceine)
Narcissus Fragrance Formulation No. 3
Kewra Fragrance
Kewra Fragrance Formulation No. 1
Artificial Fruit Essences
Lemon Essence Formulation No. 1
Orange Essence Formulation No. 2
Orange Essence Formulation No. 3
Raspberry Essence Formulation No. 4
Raspberry Flavour Formulation No. 5
Pineapple Flavour Formulation No. 6
Mineral Water Essences
Ice Cream Soda Essence Formulation No. 1
Ginger Ale Essence Formulation No. 2
Lemonade Essence Formulation No. 3
Raspberry Essence Formulation No. 1
Raspberry Essence Formulation No. 2
Oil Fashioned Perfumes
Fashioned Perfume Formulation No. 1
Fashioned Perfume Formulation No. 2

PERFUMES FOR COSMETIC CREAMS

Perfume for Cream (Rose)
Perfume for Face Cream
Perfume for Cream (Jasmine)
Perfume for Face Cream
Perfume for Face Cream
Floral, Woddy, Oriental Perfumes
Perfume for Cosmetic Ceram Using Geraniol in Rose

PERFUMES FOR FACE POWDERS AND ROUGES

Perfume for Powder
Perfume for Powder
Face Powder Perfume
Toilet Powder Perfume
Perfume for Face Powder
Face Powder Perfume
Perfumes for Rouges
Perfume for Rouges
Process

PERFUME FOR INCENSES (AGARBATTI AND DHOOP)

Perfume for Incense
Process
Pine Incense Powder
Process
Oriental Incense Powder
Process
Perfumed Incense
Perfumed Incense Formulation
Perfumed Incense Formulation II
Incense Cake (Dhoop)

MANUFACTURE OF VARIOUS TYPES OF AGARBATTIS AND AGARBATTI COMPOUNDS WITH FORMULATIONS

Introduction
Uses of Agarbatti
Uses of Agarbatti
Formula for medium quality agarbatti compound
Formula No. 1
Market Prospect
Formula for manufacture of various types of agarbatties
Formula for Synthetic Perfume Manufacture
Formula No. 1
Raw Materials for Synthetic Perfume
Formula for Agarbatti Manufacture as Mosquito repellant
Manufacture of Agarbatti

MANUFACTURE OF DUMMY INCENSE STICKS

Introduction
Profitability and ments of the industry
Main raw materials and their objects
The builders for Dummy Agarbatties
Preservatives for incense Sticks
Bamboo Sticks
Formula for most Popular Dummy Sticks
Process of Manufacture

TECHNOLOGY AND FORMULATIONS OF FRAGRANCES, PERFUMES (SCENTS) AND ESSENCES

Introduction
Formula for Strong Rose Flavour
Formula No. 1
Formula for Rose Fragrance (Scents)
Formula No. 2
Formula for Rose Fragrance
Formula No. 3
Formula for Lavender Fragrance (Scents)
Formula for Marcissu Essences
Formula for Khus Essence
Formula for Lity Perfume
Formula for Strong Jasmine Flavour
Formula for Common Jasmine Flavour
Formula for Quality Lavender Essence
Formula for Flowers Compound Essence
Formula for Flavour of Synthetic Musk
Formula for Camphor Compound Essence
Formula for compound flavours of Camphor and Fruits
Process of Manufacture

FLOWER PERFUMES WITH FORMULATIONS

Rose
Red Rose
Rose damascena
Rose Centifolia
Tea Rose
Rose Marechal Niel
White Rose
Rose Extender 1
Rose Rouge
Rose Blanche
Rose MS
Jasmin
Jasmin No. 1
Jasmin Fantasy No. 3
Orangeflower and neroli
Orange Folwer A
Neroli A
Violet
Parma Violets Absolute, Art
Violet Base
Acacia
Broom
Carnation
Oeillet de Nice
Garden Pink
Sea Pink
Base Claveline No. 1
Oeillet de Nice No. 3
Carnation Flowers No. 4
Oeillet des Dunes No. 5
Cyclamen
Fougere (Fern)
Hawthorn
Heliotrope
Honeysuckle
Chevrefeuille No. 1
Hyacinth
Hyacinth No. 1
Lilac
Lilac Base
Lily of the valley
Muguet No. 1
Muguet No. 2
Linden (Lime Blossom)
Tilleul No. 1
Magnolia
Mignonette (Reseda)
Reseda No. 1
Mimosa
Narcissus
Base Narceine No. 1
Narcissus No. 2
Nardo
New Mown hay
Nicotiana
Opopanax
Opopanax Art L
Orchid (Orchidee)
Pansy
Peony
Phiox
Stock
Sweet pea
Pois de Senteur No. 1
Seet Pea No. 2
Syringa (Philadelphus)
Aldehyde G Blend
Syringa No. 1
Trefle (clover)
Trefle No. 1
Tuberose
Base Tuberose No. 1
Base Tuberose No. 2 (Tuberic Alcohol)
Tuberose No. 3
Verbena
Wallflower
Wistaria
Ylang ylang
Ylang No. 1

MANUFACTURE OF NATURAL PERFUMES WITH FORMULATIONS

The perfume in the plant
The separation of natural odoriferous materials
Distillation
Expression
The sponge process
The Ecuelle method
Machine processes
Extraction
Enfleurage
Compare also the monograph on Jasmin
Strength of alcohol
Absolutes with synthetics
Extraction with liquid CO2
Extraction with butane
Production seasons
Yields per 100 kilos

PERFUMES AND SCENTS MANUFACTURE AND FORMULATIONS

Acacia
Acetic Acid, Tincture
Alpestrine, Perfume
Amber, Base
Amber, Concrete (Fixative)
Amber, Liquid (Chypre Basis)
Ambergris, Perfume Imitation No. 1
Ambergris, Perfume Imitation No. 2
Ambergris, Tincture
Bergammonia, Disinfectant
Bergamot, Essence (Natural ) No. 1
Bergamot, Essence (Natural) No. 2
Bouquet (For Soap)
Bouvardia
Calamus
Camphor, Tincture
Cananga (For Soap)
Capsicum
Carnation, Imitation No. 1
Carnation, Imitation No. 2
Carnation (For Soap)
Camation, Pink (Perfume)
Castor, Tincture No. 1
Castor, Tincture No. 2
Cedrela, Wood Type
Citronella (For Soap)
Coconut, Extract (Natural)
Coconut, Paste
Cologne
Color Base Standard Formula No. 1
Color base Standard Formula No. 2
Color Mixture
Colors (Natural Dyes)
Cover Odor , Perfume No. 1
Cyclamen, Base (Synthetic)
Cyclamen (For Soap)
Deodorant For Cream
Deodorant For Vessels
Deodorant for Water
Deodorants (Masking Agent)
Deodorants (Masking Agent) for Heavy Odors
Deodorants (Masking Agent) Grassy Odors
Diacetryl, Tincture
Eau De Cologne
Eau De Cologne (For Soap)Eglantine (Wild Rose)
Esters, General Base
Fenugreek, Tincture
Fem (For Soap)
Floral Fragrance (For Soap)
Floral, Imitation No. 1
Floral, Imitation No. 2
Fougere
Fougere, Base (Ferm)
Frangipani, Imitation No. 1 (Acutifolia Alba, Rubra)
Frangipani, Imitation 2
Frangipani, Imitation 3
Frangipani, Imitation No. 4
Freshener, Perfume
Gardenia, Base
Geranium
Geranium Imitation (For Soap)
Geranium, Synthetic
Gingergrass (For Soap)
Girofle, ImitationNo. 1
Girofle, Imitation No. 1
Halo, Sea Salt Odor
Hawthorn
Hawthorn (For Soap)
Heliotrope (For Soap)
Herbal Base Gold Water
HIP, Extract (Natural)
HIP, Imitation No. 1
Honey Synthetic (For Perfume)
Honeysuckle
Hyacinth
Ionone
Iris
Iris, Synthetic
Jasmine (For Brilliantine)
Jasmine Grandiflora
Jasmine, Imitation No. 1
Jasmine, Imitation No. 2
Jasmine, Imitation No. 3 (For Soap)
Jasmine, Infusion
Jasmine, Infusion
Jasmine, Synthetic No. 1
Jasmine, Synthetic No. 2
Jasmine, Synthetic No. 3
Jasmine, Synthetic No. 4
Jasmine, Synthetic No. 5
Jasmine, Synthetic No. 6
Jonquil (Daffodil) Imitation
Jonquil (Daffodil) Synthetic
Lavender, Essence (Natural)Lavender, Imitation No 12 (For Soap)
Lavender, Sweet
Leather
Lilac, Imitation
Lilac, Imitation No. 9 (For Soap)
Lilac, Synthetic No. 1 (For Soap)
Lilac, Synthetic No. 2 (For Soap)
Lily, Base
Magnolia
Mignonette (Reseda)
Mimosa, Imitation
Mimosa, Synthetic
Moss
Muguet (Lily of the Valley), Imitation No. 1
Muguet (Lily of the Valley),Imitation No. 2
Muguet (Lily of the Valley), Imitation No. 3 (For Soap)
Muguet (Lily of the Valley) Synthetic No. 1
Muguet (Lily of the Valley), Synthetic No. 2
Musk
Musk, Imitation No. 1 (For Powder)
Musk, Imitation No. 2 (For Soap)
Narcissus, ImitationNo. 1 (For Powder)
Narcissus, Imitation No. 2 (For Cologne)
Narcissus, Imitation No. 3 (For Cologne)
Narcissus, Imitation No. 4 Poeticus (For Cologne)
Narcissus, Imitation No. 5 (For Soap)
Narcissus, Synthetic 1
Narcissus, Synthetic 2
Narcissus, Synthetic 3
Narcissus, Synthetic 4
Neroli, Imitation No. 1
Neroli, Imitation No. 2
Neroli, Imitation No. 3
Neroli, Imitation No. 4 (For Soap)
Nerolin (B-naphthyl methyl ether or B-naphthyl ethyl ether)
Deodorzing Perfume
New Mown hay (Foin Coupe) Hay (Foin Coupe) Imitation No. 1
New Mown Hay (Foin Coupe) Imitation No.2
New Mown Hay (Foin Coupe) Imitation No 2
Opoponax, Imitation 1
Opoponax, Imitation 2
Opoponax, Imitation 3
Opoponax, Imitation 4 (For Soap)
Orange Blossom, Bouquet (For Soap)
Orange Flower, Imitation No. 1
Orange Flower, ImitationNo. 2
Orange Flower, Imitation No. 3
Orange Flower, Synthetic No. 4
Orchid, Imitation
Orris Root, Extract (Natural)
Orris Root, Florentine
Orris Root, Synthetic
Patchouli, ImitationNo. 1 (For Soap)
Patchouli, Imitation No. 2 (For Toilet Powder)
Pine Bouquet (For Soap)
Pine, Imitation No. 1
Pine, Imitation No. 2
Pine Needle
Pine Needle, Siberian Imitation No. 1
Pine Needle, Siberian ImitationNo. 2
Pine Needle, Siberian ImitationNo. 3
Rose, Bulgarian Type
Rose, For Cream
Rose for Face Powder No. 1
Rose for Face Powder No. 2
Rose, Imitation No.
Rose Imitation No. 5 (For Cosmetic Cream)
Rose ImitationNo. 6 (For Soap)
Rose Imitation No. (for Perfume)
Rose, Macedone
Rose, Moss
Rose, Oil, Synthetic
Rose, Oriental
Rose Otto
Rose, Synthetic No. 1 (General Base For Rose odor)
Rose, Synthetic No. 2
Rose, Synthetic No. 3
Rose, Synthetic No. 4
(Milk Like Compound)
Rose, White
Sandaiwood Santel (For Soap)
Sassafras, For Soap
Sebacic Acid, Stabilizer for Perfume
Soap, Perfume No. 1
Soap, Perfume No. 2
Soap, Perfume No. 3
Soap, Perfume No. 4
Soap, Perfume No. 5
Sweet Pea, Biosson
Syringa, Imitation No. 1
Syringa, Imitation No. 2
Tobacco for Snuff
Tobacco Perfumes, General Basic Material No. 1
Tobacco Perfumes, General Basic Material No. 2
Tobacco, Strong Odor
Trefle (Clover, Trefoil) for Soap)
Tuberrose, Imitation(For Soap)
Tuberose, Synthetic
Uny Cologne, Perfume Base
Vaporous Perfume Imitation No. 1
Vaporous Perfume, ImitationNo. 2
Vaporous Perfume, Imitation No. 3
Violet, For Face Powder
Vilet, Imitation No. 1
Violet Imitation No. 2
Violet, Imitation No. 3
Violet, Imitation No. 4 (For Soap)
Violet, Imitation No. 5 (For Soap)
VioletImitation No. 6
Violet Leaf
Violet, Synthetic
Wallflower
Wintergreen Imitation (For Soap)
Stir, Filter, Ylang Ylang Imitation No. 1
Ylang Ylang, Imitation 2
Ylang Ylang, Imitation 3
Ylang Ylang, Imitation 4
Ylang Ylang, Imitation 5
Ylang Ylang, Synthetic 1
Ylang Ylang Synthetic 2

TESTING AND PACKAGING OF PERFUMES

Introduction
Sampling
Sampling Equipment
Closed type (Undivided)
Closed type (Divided)
Closed type sampling tube, undivided
Closed type sampling tube, divided
Open type
Sampling scoop
Sampling from tanks
Open type sampling tube
Sampling scoop
Scale of sampling
Criteria for conformity
For individual samples
Values of K for achieving different acceptable quality levels
Examples
Packing and labeling
Instructions regarding costly materials
Analysis
Preparation of the Material for Physico chemical Analysis
Physical analysis
Estimation of relative density
Estimation of relative density by Pyknometer
Determination of freezing point
Suitable apparatus assembly for determination of freezing point
Results
Determination of refractive index by refractometer
Apparatus
Refractometer, light source (Sodium light)
Calculation
Apparatus
Reagents
Procedure
Dilutions of ethanol by volume and by mass
Principle
Apparatus
Procedure
Results
Determination of boiling (Distillation) range
Distillation flask
Assembly of apparatus for distillation test
Terminology
Material Requirement
trip tand
Determination of reidue on evaporation
Ma of perfumery material to be taken for the determination of reidue on evaporation
Chemical Analyi
Determination of content of alcohol inoluble olid impuritie
Determination of ater content
Determination of acid value
Determination of eter value content of eter and combined alcohol
Mo of perfumery material to be taken for determination of eter value, content of eter and combined alcohol.
Determination of eter value after acetylation and free alcohol
Dimethylaniline acetylchloride method (Fiore Method)
Determination of carbonyl value and content of carbonyl compound
Hydroylammonium chloride method
Procedure
Determination of phenol
Determination of heavy metal
Determination of lead content
Ammonium citrate olution (NH4)C6H5O7 lead free, prepare
Dithizone tock olution
Reagent blank determination
Epreion of reult
Determination of iron
tandard iron olution
Procedure
Detection of petroleum and mineral oil
Apparatu
Reagent
Procedure
Etimation of chlorine
Reult
Determination of cineole content
Procedure
Cineole a a function of the crytalliation temperature of the perfumery materials o cresol mixture

PROJECT PROFILE OF AEROSOL SPRAY

Manufacturing process
Essence and perfumery
Synthetic Rose otto
Red Roses No. 1057
Violet No. 1068
Plant Economics
Plant and Machinery
Fixed Capital
Raw Materials
Total working capital/month
Total Capital Investment
Total Fixed Capital
Turn Over/annum

PROJECT PROFILE OF SCENTS AND PERFUMES

Process of manufacture
Distillation
Extraction process
Extraction volatile solvent
Plant Economics
Plant and Machinery
Fixed Capital
Raw Materials
Total Working capital/Month
Total capital investment
Turn Over/Annum

PERFUMERY COMPOUNDS

Rose Concrete
Rose Absolut
Process of manufacture
Water Distillation
Water and steam distillation
Water and steam distillation
Steam distillation

INTIMATE SCENT, CHEMICALS ETC. FROM ALL TYPES OF FLOWERS

Manufacturing Process

The post Manufacture of Perfumes, Fragrance, Scents, Essences and Incense Sticks (Agarbatti) with Formulations (A Complete Book on Perfumes with Formulations) appeared first on EIRI - eBooks and Project Reports.

Textile Processing Chemicals, Enzymes, Dye Fixing Agents and Other Finishes with Project Profiles

EIRI Team — Fri, 28 Mar 2014 11:35:23 +0000

TEXTILE PROCESSING CHEMICALS, ENZYMES, DYE FIXING AGENTS AND OTHER FINISHES WITH PROJECT PROFILES

Enzymes used in Textile Processing
Enzymes as proteins
Biocatalyst Enzymes
Nomenclature
Activities of enzymes
Induced fit model
Enzymatic Reactions
Mechanism
Enzymes used in Textile
Amylase
Pectinase for Enzymes
Catalase
Cellulase
Laccases (copper containing oxidase enzymes)
Lipase (Water sluble enzyme)
Glucose oxidase enzyme
Xylanase

ENZYMATIC BIOPROCESSING

Utilization
Enzymes-Natural Biocatalysts
Inotex enzymatic products for bast fibre extraction improvement
Treatment of Mechanical opening & cleaning
Processing of Fiax, Hemp and Linseed
Enzymatic enrichment of dew retting process
REA 120 machinery concept for fibres opening and cleaning
Typical conditions
Repair of retted fibres
Repair of worst quality dew retted fibres with Texazym SCW
Material friendly cottonization
Effect of different commercial enzymes on the hemp fibre fineness improvement
Device for wet processing of loose fibres (tows for example)
Effect of different commercial enzymes on the improvement of hemp fibre fineness (fibre diameter) & tenacity
Processing of flax scutching tow (low quality) with Texazym BFE
Processing of linseed (variety Amon) tow with Texazym BFE
Application of enzymes (utilize fibre from linseed straw)
Laroche cottonization line
Comparison of stem biomass yield of different linseed varieties
Linen eco yarms and pretreatment of flax roving
Enzymatic processing of linseed stems, cultivar Amon
Improvement of whiteness after enzymatic bio retting for eco yarm production comparison of Texazym SCW with other types of enzymes
Results of industrial trials with enzymatic treatment of flax rovings
Technical bast fibre applications
Results

ANTIBACTERIAL AGENTS

Introduction
textile antimicrobial treatments
Antimicrobial finishing agents
Quaternary ammonium
Triclosan
Metallic salts
The bacterial counting test for comparing the antibacterial activity of metallic ioaded cotton
Plasma sputtering
The schematic view of Plasma sputtering system
The inhibitin zone of S aureus around untreated and copper coated cotton
Chitosan
The bacterial counting test for untreated wool with E coli
The bacterial counting test for untreated wool with S aureus
The bacterial counting test for silver coated wool with E.Coli
The bacteriala counting test for silver coared wool with s aureus
Quantitative Evaluation Against S. Aureus (Shake Flask Method)
Comparison of bacterial reduction before and after coating cotton fabrics with chitosan PBA particles or chitosan solution
Cyclodextrin
TEM micrographs of chitosan PBA particles stained for an appropriate period with 2% PTA solution
Mechanisms of antimicrobial finishes
Practical biocides
Evaluation of antimicrobial finishes
The future
Comparison between different AATCC test methods

TEXTILE FIBRES PROCESSING ENZYMES

Biotechnology
Production of enzymes
Role of enzymes in textile processing
Amylases
Textile desizing
Pectinases
Enzymatic scouring
Cellulases
Denim finishing
Pilling and fuzz fibre removal
Serine profeases subtilisins
Enzymatic treatment of wool
Cysterine proteases papain
Degumming of silk
Transgulutaminases (TGs)
Treatment of leather and wool
Lipases/esterases cutinase
Surface modification of synthetic fibres
Nitrilases and nitrile hydratases
Surface modification of polyacrylonitrile (PAN)
Laccases
Decolourization of textile bleaching and dyes
Catalases
Treatment of bleach liquor
Conclusions and fuure prospects

FABRIC FINISHING

Theory
Crosslinking Cellulose
Crease Recovery
Definitions
Cellulose Crosslinkers
Reactions of Formal dehyde
Formalion of Hydroxymethyl Derivatives
Reactions of Hydroxymethyl
Resin Formers (Aminoplasts)
Urea/Frmaldehyde (U/F)
Malamine/Formaldehyde
Synthesis of Hexamethoxymethyl Melamine
Important Features
Reactants
Dimethylolethylene Urea (DMEU)
Dimethylol-4/5 Dihydroxyethylene Urea (DMDHEU)
Carbamates
Controlling Formaldehyde
Atmospheric Formaldehyde
Fabrics Formaldehyde
Free Formaldehyde
Formaldehyde Release
Responsible for HCHO Release
Fabric pH and Formaldehyde Release
Effect of pH on CH2O Release
Technology of Reducing Frmaldehyde Release
Scavengers
Modified DMDHEU
Methylated DMDHEU
Diethyleneglycolated DMDHEU (ULf)
Alkylated DMDHEU
Non formaldehyde Dp Finishes
Formaldehyde Release Comparison of Modified DMDHEU
dimethyl-4-5, Dihydroxyethylene UREA (DMeDHEU)
Synthesis
Important Features
Butanetetracarboxylic Acid (BTCA)Sodium Hypophosphite
Sodium Phosphate
Reactive Silicones
Liquid Ammonia
Durable Press Catalyst
Bronsted Acids
Ionization Constant
Hydrogen Ion Concentration
Latent Acids
Lewis Acids
Important Considerations
Specific Catalyst and their use
Free Acids
Latent Acids
Metal Salts
Hot Catalyst
Buffers and Alkalinity
Buffers
Alkalinity
Chemical Process
Methylolation
Alkylation of N-Methylol Compounds
Proton Activated Alkylation
Cellulose Crosslinking with Lewis Acids
Alkoxylated Products (Reaction)
Crosslinking with Alkoxykated N-Methylol Cmpounds
Stability of Crosslink to Laundering
Hydrolysis of Cellulose Crosslinks
Properties Fabric
Durable Press Performance
Important Points
Relationship of DP Performance versus DMDHEU Add on
Different Crosslinkers
Tensile, Tear and Abrasion Resistance
Crease Recovery versus Resin Concentration
Important to Remember
Physical properties versus Add-on
Crease Recovery versus Curing Temperature
Important to Remember
Crease Recovery versus Temperature of Cure and Resin type
Other Fabric Properties
Shrinkage
Yellowing
Chlorine Resistance
Fabric Odor

MODIFICATION

Handbuilders
Non-durable
Starch
Polyvinyl Alcohol
Durable
Thermosetting Polymers
Thermoplastic Polymers
Suitable Monomers/Suitable Monomers/Comonomers
Fabric Softeners
Coefficient of Friction
Viscosity
Important Points to Remember
Selection of Softener
Raw Material Availability
Fat Derived Raw Materials
Softener Classifications
Anionic Softeners
Sulfates
Fatty Alcohol Sulfates
Sulfated Fatty Acid Esters
Sulfonated Fatty Amides and Esters
Sulfoethyl Fatty Esters (IGEPON A)
Sulfoethyl Fatty Amides (IGEPON)
Properties of Anionic Softeners
Advantages
Disadvantages
Cationic Softeners
Adsorption on Fiber Surface
Amine Functional Cationic Softeners
Cationic Amine Salts
Fatty Aminoesters
Fatty Amidoamides
Imidazolines
Quaternary Ammonium Salts
Synthesis of Monofatty Quats
Properties of Cationic Softeners
Advantages
Disadvantages
Nonionic Softeners
Polyethylene Emulsions
Composition of Polyethylene Emulsions
Typical Composition
Ethoxylated Nonionic Softeners
Silicone Chemistry
Reaction of Monochlorosilanes wiith Water
Reaction of Dichlorosilanes with Water
Reaction of Trichlorosilanes with Water
Reaction of Hydogen silances with Water
Silicone Softeners
Dimethyl Fluids
Methylhydrogen Fluids
Amino Functional Silicones
Orientation of Dimethyl Fluids on Fiber Surface
Epoxy Functional Silicones
Properties
Advantages
Disadvantages

FINISHES

Chemistry of Wetting
Spreading of Liquids on Smooth Surfaces
Work of Adhesion
Critical Surface Tension
Critical Surface Tension of Teflon
Critical Surface Tensions of Smooth Surfaces
Critical Surface Tension of end Groups
Contact Angles in Real Systems
Repellent Finishes
Hydrocarbon Hydrophobes
Paraffin Waxes
Wax Emulsion Composition
Fiber Reactive Hydrocarbon Hydrophobes
N-Methylol Stearamide
Pyridinium Compounds
Resin Formers
Metal Complexes
Silicone Water Repellents
Application to Fabrics
Advantages and Disadvantages
Fluorochemical Repellents
Effect of Fluorination on Critical Surface Tension
Commercial Products
Effect of Perfluoro Side Chain
Polymer Backbone Effect
Relationship between Oil Repellency and Length of Perfluoroalkyl Side Chain
Add on
Extenders
Oil Repellency versus Fluorochemical Add-on
Finishing of Repellent with Fluorochemicals
Rainwear
Typical Rainwear Formulation
Stain and Soil Retardancy
Uphotstery Anti soil Finishes
Treatments of Carpet Anti soil
Fluorochemical Finishes
Other Carpet Antisoil Treatments
Light Scattering Fibers
Stain Blockers

SOIL RELEASE FINISHES OF FABRICS

Soils
How fabrics are Soiled
Removal of soil
Particulate Soil
Oily Soils
Roll up Mechanism
Rolling up Process of Soil Release
Rollup Thermodyamics
Fiber Oil Detergent Interaction
Fiber
Effect of Hydrophobic Surfaces on Soil Release
Soil Release Chemicals
Acrylic Soil Release Finishes
Polymethacrylic Acid
Pol(methacrylic acid) Soil Release Finishes
Effect of Crosslinking
Methacrylic Acid Ethyl Acrylate Co-Polymers
Mechanism
70/30 Methacrylic Acid Ethyl Acrylate SR Finish
Effect of Crosslinking
Practical Considerations & Fabric Properties
Dual Action Fluorochemical Soil Release
Polymer Composition
Method
Practical Considerations & Fabric Properties
Fluorochemical Soil Release Agent
Flip Flop Mechanism
Polyoxyethylene Copolymers
Polyoxyethylene Type SR Finish
Sulfoisophthalic Acid Copolymers
Sulphoisophthalic Type SR Agent
Practical Considerations & Fabric Properties
Most Important Points to Remember
Non Ionic Detergents
Effect of Surfactant Type on Soil Removal From Polymer Films
Soil Release Tests
Release Point
Rp Determinations
Roll up of Oil in Detergent Solutions
Application of Rp Measurements
Results Versus Residual Soil
Geometry of Yams and Fabrics

FLAME RETARDANT FINISHES

Details of Combustion
Flammability Parameters for Fibers
Combustion of Cellulose
Combustion Cycle
Cellulose Pyrolysis Products
Other Pryolysis Products
Flame Retardancy
Feedback Mechanism
Combustion Feedback Mechanism
Char Frmation
Parameters that Characterize Burning Textiles
How Certain Elements Work
Boron
Phosphorus & Nitrogen
Halogens
Flame Retardant Chemicals & Processes for Cellulose
Non Durable
Boric Acid/Borax
Dimmonium Phosphate and Phosphoric Acid
Sulfarmic Acid and Ammonum Sulfamate
Durable
Tetrakis(hydroxymethyl) phosphonium Derivatives
Tetrakis(hydroxymethyl) phosphonium Hydroxide (THPOH)
Fyrol 76
Phosphonic and Phosphoric Acid Derivatives
Retardant Method for Specific Fibers
Rayon Additives
Polyeste
Decabromodiphenyl Oxide (DBDPO)
Tris(2-3 Dibromopropyl) Phosphate (TRIS)
Antiblaze 19T
Nylon
Thiourea urea Melamine
Halogenated Systems
Polyester/Cotton Blends
Decabromodiphenyl Oxide Antimony Oxide
Wool
Dyebath Exhaustible Finishes
Titanium Complexes
Hexafluoro Zircnates

THERMAL AND SORPTION TECHNOLOGY

Thermal behaviour
Materials for flame protection
Flame resistant Cellulosics
Thermal and flame retardant properties of some fibres
Flame retardant Polyester
Flame retardant Acrylic
Armids
Phenolics
Modacrylic
Aim of our work
Experimental
Materials
Fibres used for thermal and sorption study
Methods
Thermal analysis
Differential Scanning Calorimetry (DSC)
Sorption study
Dynamic Sorption Analysis
Water Retention Value
Visualization of burned fibers
Results and discussion
Thermal analysis
Mass changes by TGA
TGA graph of cellulosics
TGA plots of synthetic FR fibers
TGA plots of melamine & modacrylic fibers
TGA plots of other high performance
Energy changes by DSC
DSC Plots of cellulosics
DSC Plots of synthetic FR fibers
Sorption study
Water vapor sorption
DSC plots of melamine & modacrylic fibers
Sorption isotherms of cellulosics
Sorption isotherms of synthetic FR fibres
Water retention values (WRV)
WRV of standard and modified cellulosics
WRV of synthetic FR fibers
Visualization of burned fibers
SEM images of FR fibers before and after burning
conclusions and Outlook

VOLATILE PHOSPHORUS

Experimental
Materials
Formulation and Application of Back coating
Flame retardants used and their chemical characteristics
Flammability Measurement
Generic back coating formulation
Thermal Analytical Procedures
Results & Discussion
Phosphorus Mobility in back coated Formulations
TGA responses of Antiblaze CU, tributyl phosphate (TBP), triphenyl phosphate (TPP), and triphenylphosphene oxide (TPPO) under nitrogen
Phosphorus Retention in Fabric Chars
Flammability testing results of back coated cotton and polyprpylene fabrics after a 40 Deg C water soak treatment
TGA and LOI results for back coated 360 pergm cotton fabrics
Difference between actual and theoretical phosphorus contents (P) of charred back coated cotton fabric
Phosphorus concentrations and residual weights for back coated cotton samples containing 250 dry parts Antibiaze MCM in the formulation
Phosphorus concentrations and residual weights for back coated cotton samples containing 250 dry parts Antiblaze NH in the formulation
Phosphorus concentrations and residual weights for back coated cotton samples containing 250 dry parts Antiblaze CU in the formulation
Phosphorus concentrations and residual weights for back coated cotton samples containing 100 dry parts Antiblaze CU in the formulation
Addition of Volatile Components to APP
Flammability testing for mixed flame retardant formulations (prewater soak)
Phosphorus concentrations and residual weights for back coated cotton samples containing 250 dry parts Fyrol 51 in the formulation
Phosphrus concentrations and residual weights for back coated cotton samples containing 100 dry parts Fyrol 51 in the Formulation
Durability results and flammability testing (postwater soak)

CHELATING AGENTS

Synthetic Chelating Agents
Ligno Sulfonates
Humic or Fulvic acids
Organic Acids
Advantages
Disadvantages
Protein (Amino Acids)

DYE FIXING AGENTS

Application Examples

ANTI STATIC AGENT WITH SPIN FINISH

Examples
Method of production of amine alkoxylates
Conversion to dialkyl sulphate quaternaries
Conversion to EO/PO block copolymer
heat Stability
Ester based
Mineral oil based

OTHER IMPORTANT FINISHES

Antipill Fabric Finishing
Mechanism of Pilling
Pill Formation
Pill Build up
Factors Affecting Pill Formation
Fiber variables
Yarn Variables
Fabric Construction
Preparaton and Dyeing
Fabric Finishing
Film Forming Binders
Durable Press Reactants
Fabric Softeners
Singing and Shearing
Heat setting
Summary
Antistatic Finishes
Causes of Static
Problems Caused by Static Electricity
Mechanism of Control
Static Fliminators
Antistatic Agents
Fiber Polymer modications
Non Durable Antistatic Agents
Cationic Materials
Non Ionic Materials
Durable Antistatic Finishes

PLANT ECONOMICS OF ACRYLIC COPOLYMER EMULSION

Plant and Machnery
Fixed Capital
Raw Materials
Total Working Capital/Month
Total Capital Investment
Turn Over/Annum

PLANT ECONOMICS OF ANTI FOAMING AGENT (SILICONE BASED) FOR DISTILLERY, SUGAR INDUSTRY, PAPER PLANT ETC.

Plant and Machinery
Fixed Capital
Raw Materials
Total Working Capital/Month
Total Capital Investment
Turn Over/Annum

PLANT ECONOMICS OF CATIONIC SOFTENER

Plant and Machinery
Fixed Capital
Raw Materials
Total Working Capital/Month
Total Capital Investment
Turn Over/Annum

PLANT ECONOMICS OF CHELATED ZINC (ZN-EDTA) 12%

Plant and Machinery
Fixed Capital
Raw Materials
Total Working Capital/ Month
Total Capital Investment
Turn Over/Annum

PLANT ECONOMICS OF CHELATED ZINC EDTA & CHELATED COPPER EDTA

Plant and Machinery
Fixed Capital
Raw Materials
Total Working Capital/Month
Total Capital Investment
Turn Over/Annum

PLANT ECONOMICS OF DYE FIXING AGENTS (LOW FORMALDEHYDE FOR PIGMENT PRINTING LIKE ACRAFIX ML)

Plant & Machinery
Fixed Capital
Raw Materials
Total Working Capital/Month
Total Capital Investment
Turn Over/Annum

PLANT ECONOMICS OF DYE FIXING AGENTS (NON FORMALDEHYDE DYEFIXING AGENT FOR DIRECT/REACTIVE PRINTING LIKE TINOFIX FRD OF M/S CIBA GAIGY)

Plant and Machinery
Fixed Capital
Raw Materials
Total Working Capital/Month
Total Capital Investment
Turn over/Annum

PLANT ECONOMICS OF DYE LAVELLING AGENT

Plant and Machinery
Fixed Capital
Raw Materials
Total Working Capital/Month
Total Capital Investment
Turn over/Annum

PLANT ECONOMICS OF ENZYME USED FOR DENIM CLOTH AND GARMENT WASHING

Plant and Machinery
Fixed Capital
Raw Materials
Total Working Capital/Month
Total Capital Investment
Turn over/Annum

PLANT ECONOMIC OF ENZYMES BIO TECHNOLOGY BASED

Plant and Machinery
Fixed Capital
Raw Materials
Total Working Capital/Month
Total Capital Investment
Turn over/Annum

PLANT ECONOMICS OF NON IONIC SURFACTANTS WETTING AGENTS

Plant and Machinery
Fixed Capital
Raw Materials
Total Working Capital/Month
Total Capital Investment
Turn over/Annum

PLANT ECONOMICS OF SILICONE EMULSION FOR TEXTILE

Plant and Machinery
Fixed Capital
Raw Materials
Total Working Capital/Month
Total Capital Investment
Turn over/Annum

PLANT ECONOMICS OF SIZING SOFTENER (SILK SIZING LIQUID WATER SOLUBLE)

Plant and Machinery
Fixed Capital
Raw Materials
Total Working Capital/Month
Total Capital Investment
Turn over/Annum

PLANT ECONOMICS OF TEXTILE & FINISHING AGENTS

Plant and Machinery
Fixed Capital
Raw Materials
Total Working Capital/Month
Total Capital Investment
Turn over/Annum

PLANT ECONOMICS OF TEXTILE PRINTING PASTE (GUM)

Plant and Machinery
Fixed Capital
Raw Materials
Total Working Capital/Month
Total Capital Investment
Turn over/Annum

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