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Technology of Gum Rosins, Its Derivatives & Industrial Applications With Processing

EIRI Team — Thu, 30 Aug 2018 10:47:21 +0000

Contents

Rosin: Major Sources, Properties and various Applications

Resin Acids Chemical Reactivity
Oxidation, hydrogenation and dehydrogenation
Functionalization of dehydroabietic acid aromatic ring
Isomerization
Diels-Alder reactions
Reactions with formaldehyde and phenol
Reactions of the carboxylic group
Miscellaneous reactions

Major Applications of Rosin and Derivatives

Paper sizing
Emulsification
Adhesive tack
Polymer chemistry and processing
Printing inks
Miscellaneous applications

Rosin-Based Surfactants

Introduction
Synthesis of Rosin-based Surfactants
Synthesis of Cationic Surfactants
Rosin Acid-based Ester Quaternary Ammonium Salts
Synthesis of Anionic Surfactants
Synthesis of Zwitterionic Surfactants
Synthesis of Nonionic Surfactants
Physicochemical Properties
Physical Properties
Phase Behaviour
Applications
Paper Sizing and the Rubber Industry
Antibacterial Activity
Corrosion Inhibition

Synthesis of Bio-based Corrosion Inhibitors Based On Rosin (Preparation of Non Ionic Surfactants)

Introduction
Experimental
Materials
Synthesis of rosin / linoleic acid adduct (RLA)
Measurements
Electrochemical measurements
Surface Activity of the prepared surfactants
Electrochemical impedance spectroscopy (EIS)
Electrochemical polarization measurements:

Manufacturing of a bio-based epoxy

Synthesis of maleopimaric acid (MPA)
Synthesis of triglycidyl ester of maleopimaric acid
Cured resin preparation
Results and discussion

Graft copolymer of chitosan with poly[rosin-(-acryloyloxy)ethyl ester]

Graft copolymerization
Characterization
Drug release of Cts and Cts-g-PRAEE

Cationic Surfactants Based on Rosin as Corrosion Inhibitor (Preparing of Maleopimaric acid, rosin diethylaminoethyl ester, rosin catonic surfactants)

Preparation of maleopimaric acid (MPA)
Preparation of rosin diethylaminoethyl ester (RMAE):
Preparation of rosin cationic surfactants (QRMAE):
Characterization:
Electrochemical measurement:

Azo-dye Diamines and Rosin Derivative

Rosin-Maleic Anhydride Adduct (RMA)
Polymerization
Fabrication of Polymer Film
SHG Measurement
Measurement of Photoinduced Birefringence

Liquid crystal bio-based epoxy coating

Introduction
Materials
Measurements and characterization

Water Soluble Nonionic Rosin Surfactants

Esterification of rosin
Esterification of RMA-MPEG
Characterization of the prepared Surfactants
Electrochemical measurement

Novel Rosin-Based Biomaterials for Pharmaceutical Coating (Preparation of Coated Pellets)

Material characterization
Film preparation and characterization
Preparation of coated pellets
Drug release analysis

Renewable Degradable Rosin Acid-caprolactone Block Copolymers

Experimental Section
Characterization
Synthesis
Degradation of Block Copolymers

Renewable Rosin-fatty Acid Polyesters Novel Rosin Containing Pentablock Copolymers Degradable-vegetable Oil Based Polyesters

Experimental Section
Synthesis
Degradation of Polymers
ADMET and Thiol-ene Polymerization
Degradability of Polyesters

Polymethacrylate Containing Photoreactive Abietic Acid Moiety

Synthesis of New Polyurethane Coating Based On Rosin

Synthesis of Maleopimaric Acid ( MPA)
Synthesis of Polyurethane by Using TDI
(Toluene Diisocyanate).
Measurements
Testing of The Coatings

Hydrogenated rosin epoxy methacrylate

Introduction
Experimental

Synthesized and Chacterisation Polymeric Materials Based On Coconut Oil, Rosin & Maleic Anhydrides

Introduction
Experimental Setup for Synthesis of Alkyd Resin
Neutralization of Polymers
Methods of Physicochemical Analysis
Spectroscopic Study of Novel Polymer

Rosin-Derived Polyamide as Epoxy Curing Agent

Materials
Synthesis of Maleopimaric acid anhydride
Synthesis of Rosin-derived polyamide (RBPA)

Antifouling paint binders: Rosin-based systems

From tin-based to tin-free technologies
Tin-free paint modelling
Reaction rate estimation
Gravimetric approach
Assessing the risk of diffusion control.

Synthesis and biological evaluation of abietic acid derivatives

Chemistry
Biological evaluation
Conclusions
Experimental
Biological assays
Antitumor activity and cytotoxicity

Polyvinyl alcohol-modified, rosin-based, resin-fortified emulsion polymer

Rosin-Fatty Acid Styrene-Acrylic Polymers

New route to -hydroxydehydroabietic acid derivatives

Copolymer of Styrene and Rosin and Esters

Rosin Modified Unsaturated Polyester

Unsaturated Polyester
Curing Agents
Differential Scanning Calorimeter (DSC)
Mould Design and Fabrication
Viscosity Measurement
Density Measurement
Cure Characteristics

Modified Rosin

Rosin Monomaleimides

List of Tables

Table Physical properties of rosin based cationic surfactants

Table shows the physical properties of some rosin-based anionic surfactants, and their surface activities were compared with that of widely used anionic surfactant of sodium dodecyl sulfate (K) and alcohol ether sulfate (AES). The dCMC of most anionic surfactants were between and , and their CMC values were between — mol/L. Rosin-based anionic gemini surfactants also showed better CMC and dCMC values than conventional ones.

Table shows the physical properties of some rosin based zwitterionic surfactants. The dCMC of most zwitterionic surfactants were between and , and their CMC values were near – mol/L.

Table Physical properties of rosin based nonionic

surfactants

Table Corrosion inhibition of some rosin-based cationic surfactants

Table : Surface activity parameters of RPEG and RLA-PEG

Table : Inhibition efficiency of RPEG values for steel in M HCl with different concentrations of inhibitor calculated by Polarization and EIS methods

Table : Inhibition efficiency of values of RLA- PEG for steel in M HCl with different concentrations of inhibitor calculated by Polarization and EIS methods

Table Mechanical properties and thermal stability of cured tirglycidyl ester of maleopimaric acid and petroleum-based counterparts DEGBA

Table Synthesis and Molecular Weights of PAI-a

and PAI-b

Table Characterization of Biomaterials

Table Relative Solubility of Biomaterials

Table Formulations of Film Coating Solutions

Table Mechanical Properties of Free Films

Table WVTR Study of Free Films

Table Moisture Absorption Study of Free Films

Table Preparation of Block Copolymers Containing

CL and AEDA by ROP and ATRP

Properties measured for Vegetable oil and Castor

oil based polymers

Table ADMET Polymerization Results

Table Synthesis of PolyMAAsa

Table Composition of Novel polymers

Table Physicochemical Analysis of Novel Rosinated

Alkyd Res-ins based on coconut oil and rosin

Table The IR-spectral data of Novel Polymer AR-

Table The NMR-spectral data of Novel

Polymer AR-

Table Composition of the model paint used to assess the appropriateness of the Xmax concept applied to rosin-based tin-free products (compositions in solids vol. %)

Table

Table Cytotoxicity and anti-HSV- activity of abietane diterpenes on HeLa Cells determined by the end-point titration technique.

List of figures

Figure Diterpene carbon skeletons found in the most common resin acids.

Figure Structures of the most common abietane-type resin acids.

Figure S tructures of the most common pimarane-type resin acids.

Figure O xidation of levopimaric acid with formation of an endoperoxide.

Figure C onversion of abietadienoic acids into dehydroabietic acid and retene.

Figure Nitration of dehydroabietic acid.

Figure M echanism of the acid-catalyzed isomerization of abietadienoic resin acids.

Figure D iels-Alder reaction of levopimaric acid with maleic anhydride.

Figure F ormation of dimeric ketones of maleopimaric-type adducts

Figure A ddition of formaldehyde to abietic acid.

Figure Formation of rosin-modifi ed phenol-formaldehyde resins.

Figure F ormation of a chromane-type derivative of abietic acid through quinomemethide intermediate.

Figure Formation of a chromane-type derivative of abietic acid by reaction with diphenylolpropane.

Figure F ormation of levopimaric adducts with formaldehyde and their conversion into -hydroxymethyl derivatives.

Figure T ypical dimeric structures of abietic-type acids.

Figure S tructures of dehydroabietylamine and dehydroabietanol.

Figure I nteraction of aluminium resinates with cellulose surface.

Figure S ynthesis and polycondensation of a rosin-based poly(amide-imide).

Figure S ynthesis of vinyl-type ester monomers from the maleopimaric adduct

Figure S ynthesis of polyimides by Diels-Alder condensation of resin acid dimers with aromatic bismaleimides .

Figure Synthesis of epoxy resins from resin acid dimer adduct with acrylic acid.

Figure S ynthesis of secondary amines of methyl dehydroabietate.

Figure Phase diagram for the three-component water-surfactant-decanol system.

Figure Gun rosin usage in industry, the data adapted from reference

Figure Antibacterial activity of (C) compared with bromo-geramium and ofloxacin, the data adapted from reference

Figure Electropherogram for the enantiomeric separation of a mixture of three NDA-d/l-amino acids (i.e. NDA-d/l-?-Phen, NDA-d/l-Trp and NDA-d/l-Kyn).

Scheme : Reaction procedure of RPEG and RLA-PEG

Fig. FTIR spectra of a) RPEG and b) RLA-PEG

Fig. HNMR spectra of a) RPEG and b) RLA-PEG

Fig. CNMR spectra of a) RPEG and b) RLA-PEG

Fig. : Relation between surface tension and ageing time for different aqueous concentrations of RPEG and b) RLA-PEG

Fig. Adsorption isotherms of RPEG and RLA-PEG

Fig. (a) Nyquist diagram for steel in M HCl solution containing different inhibitor concentrations (RPEG) showing experimental (square)and fit data (circle), (b) Nyquist diagram for steel in M HCl solution containing different inhibitor concentrations (RLA- PEG) showing experimental (square) and fit data (circle)

Fig. : Equivalent circuit used for fitting

the impedance data

Fig. a: Polarization curves for steel in M HCl solution containing different inhibitor concentrations (RPEG). b: Polarization curves for steel in M HCl solution containing different inhibitor concentrations (RLA- PEG).

Figure Synthetic route for maleopimaric aicd and its triglycidyl ester

Figure (a) & (b) H-NMR and C-NMR spectra for tirglycidyl ester of maleopimaric acid

Figure FT-IR spectra for the mixture of maleopimaric acid and tirglycidyl ester of maleopimaric acid before and after curing reaction

Figure DMA curves for cured tirglycidyl ester of maleopimaric Acid

Fig. Synthetic scheme of Cts-g-PRAEE copolymer.

Figure IR spectra of (upper curve) PAI-a and (lower curve) PAI-b.

Figure : Structures of D-RMID and pPhDA

Figure FTIR Spectra of a) RMA and b) RMA-(MPEG )

Figure A general strategy toward renewable degradable rosin acid-caprolactone block Copolymers

Figure Triglyceride structure where R, R, and R represent fatty acid chains

Figure Common fatty acids obtained from vegetable oil triglycerides

Figure Vegetable oil based monomer synthesis

Figure H NMR of castor oil based monomers

Figure H NMR of ADMET prepared polyesters

Figure H NMR of oxalate polymer prepared by thiol-ene polymerization

Figure DSC thermograms (nd heating cycle) of polyesters: (top left) thiol-ene oxalate polymer (Mn = , g/mol); (top right) ADMET prepared oxalate polymer (Mn = , g/mol); (bottom left) ester polymer (Mn = , g/mol); (bottom right) hydroquinone polymer (Mn = , g/mol)

Figure GPC traces of ADMET prepared oxalate polymer before (green, Mn= , g/mol) and after (blue, Mn= , g/mol) acid degradation

Figure. -Scheme of synthesis of polyurethane rosin

Fig. Synthesis of the hydrogenated rosin epoxy methacrylate (HREM).

Fig. Schematic illustration (cross section view) of the behaviour of a biocide-based antifouling system exposed to sea water. In the TBT-SPCs, the main biocide complementing Cu+ was chemically anchored to the polymer binder matrix while in the tin-free alternatives they are usually embedded in the vehicle.

Fig. Scheme of the TBT-SPC mathematical model. The main processes involved in the activity of a TBT-SPC paint and their interactions are combined with chemical speciation calculations and transport phenomena. The mathematical model can provide reliable estimations of the A/F paint performance.

Fig. SEM picture of a cross section of an exposed antifouling paint based on ZnR and CuO (upper left picture) and its corresponding EDX analysis showing the Cu signals as dots (upper right picture). The intensity of the Zn (not shown) and Cu signal is processed by means of ImagePro, showing a distinct gradient from the unreacted paint to the paint surface (bottom). Under the inert paint, the Zn profile is constant and taken as reference (unreacted Zn-line). The Zn profile in the leached layer (Zn-line) shows a relative residual Zn value at the paint surface of around % of that in the unreacted paint film. The Cu profile (Cu-line) shows approximately the extent of the leached layer. The reason for the larger fluctuations in the Zn signal is a much lower concentration compared to Cu.

Fig. Molecular structures of abietic (), levipomaric (), pimaric () dihydroabietic( ), tetrahydroabietic () and dehydroabietic () acids. Adapted from .

Fig. Dissolution rate under static conditions ofWWrosin in artificial sea water ASTM – related to immersion time (days). Modified from .

Fig. Accumulated -D diffusion-controlled mass loss from a panel immersed in an infinite amount ofwater. Calculated using the transient diffusion equation (Eq. ()) solved for constant concentration at the film surface and infinite water volume.

Fig. Chemical structures of tested abietanes.

Figure : Tensile specimens mold

Figure : Viscosity change with temperature unsaturated polyester containing different concentrations of styrene

Figure : Density change with styrene concentration ratio for unsaturated polyester resin

Figure : Curing time for different volume fraction of unsaturated polyester with % MEKP

Figure : Gel time for unsaturated polyester containing different concentrations of styrene and MEKP ratios

Figure : Time to peak for unsaturated polyester containing different concentrations of styrene and MEKP

Figure : Exotherm temperatures for unsaturated

polyester containing different concentrations of styrene

and MEKP

Fig. Curing reactions of methyl maleopimarate/phenyl glycidyl ether (a), and abietyl glycidyl ether/aniline (b).

Fig. H NMR spectra of (i) abietic acid (ii) abietyl glycidyl ether (iii) methyl maleopimarate

Fig. DSC thermograms of curing of model compounds at different heating rates

Fig. Degree of conversion versus temperature at different heating rates

The post Technology of Gum Rosins, Its Derivatives & Industrial Applications With Processing appeared first on EIRI - eBooks and Project Reports.

Complete Hand Book on Adhesives and Adhesion Technology with Project Profiles

EIRI Team — Thu, 24 Apr 2014 13:13:07 +0000

COMPLETE HAND BOOK ON ADHESIVES AND ADHESION TECHNOLOGY WITH PROJECT PROFILES

RUBBER BONDING AND THERMOPLASTIC ELASTOMERS

The Solution
Adhesive Information
Elastomer Information
Cure process Effects
Bond Design Information
Cyanoacrylate Adhesives
Chemistry
Advantages
Disadvantages
Epoxy Adhesives
Chemistry
Advantages
Disadvantages
Hot Melt Adhesives
Chemistry
Advantages
Disadvantages
Light Curing Acrylic Adhesives
Chemistry
Advantages
Disadvantages
Polyurethane Adhesives
Chemistry
Advantages
Silicone Adhesives
Chemistry
Advantages
Disadvantages
No Mix and Static Mix Acrylic Adhesives
Application Method
Chemistry
Advantages
Disadvantages
Butyl rubber
General Properties
Typical Applications
Chlorosulfonated polyethylene
General Properties
Typical Applications
Copolyester
General Properties
Typical Applications
Epichlorohydrin Rubber (CO, ECO, GCO, GECO)
General Properties
Typical Applications
Ethylene Acrylic Rubber (EEA)
General Properties
Typical Applications
Ethylene Propylene Rubber (EPM, EPDM)
General Properties
Typical Applications
Ethylene Vinyl Acetate Copolymer (EVA)
General Properties
Typical Applications
Fluorocarbon Rubber (FKM)
General Prperties
Typical Applications
Fluorosilicone Rubber (FVMO)
General Properties
Typical Applications
Halogenated Butyl Rubber (BIIR, CIIR)
Halogenated Butyl Rubber (BIIR, CIIR)
General Properties
Typical Applications
Hydrogenated Nitrile Rubber (H-NBR, HSN)
General Properties
Typical Applications
Melt Processible Rubber (MPR)
General Properties
Typical Applications
Natural Rubber (NR)
International Types of Natural Rubber
General Properties
Typical Applications
Neoprene Rubber (Polychloroprene CR)
General Properties
Typical Applications
Nitrile Rubber (NBR, XNBR)
General Properties
Typical Application
Typical Applications
Polyether Block Amide (PEBA)
General Properties
Typical Applications
Polyacrylate Rubber (ACM)
General Properties
Typical Applications
Polyisoprene (IR)
General Properties
Typical Applications
Polyolefin Elastomers (POE)
General Properties
Typical Applications
Poly(propylene oxide)Rubber (GPO)
General Properties
Typical Applications
Polysulfide Rubber
General Properties
Typical Applications
Silicone Modified EPDM
General Properties
Typical Applications
Silicon Rubber (MO,VMO, PMO,PVMO)
General Properties
Typical Applications
Styrene Butadiene Rubber (SBR)
General Properties
Typical Applications
Styrenic TPEs (S-B-S, S-I-S,S-EB-S)
General Properties
Typical Applications
Thermoplastic Vulcanizates (TPV)
General Properties
Typical Applications

THERMOPLASTIC RUBBER (A-B-A BLOCK COPOLYMERS) IN ADHESIVES
Formulations
Hot Melt Pressure Sensitive Adhesives
Pressure Sensitive Adhesive Based on S-B-S
Hot Melt Applied Assembly Adhesives
Heat Activated adhesives
Contact Type Assembly Adhesives
Contact Adhesives
Contact Adhesive Effect of heat reactive resin
High viscosity construction mastic
Hot Melt Assembly Adhesive
Sealant for concrete joints
Binder for Carpet Backing

ADHESIVES BASED ON RESORCINOL

Chemistry of RF Resins
Wood Laminating and Fingerjointing Adhesives
Resorcinol-Formaldehyde Adhesive
Phenol-Resorcinol formaldehyde Adhesive and Powder, Liquid, or Sludge hardener
Urea-Resorcinol Formaldehyde Adhesive
Phenol Resorcinol Formaldehyde and Liquid hardener
Phenol Resorcinol Formaldehyde and Liquid Hardener
Special Adhesives of Reduced Resorcinol Content
East Setting Adhesive for Fingerjointing and Glulam
Branched PRF Adhesives
Cold Setting PF Adhesives Containing no Resorcinol
Formulation for Adhesives of Type-2

ADHESIVES BASED ON PHLOROGLUCINOL FOR MEDICAL APPLICATIONS

Materials and methods
Materials
Adhesive preparation
Adhesion properties
Degradation of alginate
Toxicity and biocompatibility testing
Results and discussion

PRESSURE SENSITIVE ADHESIVES FOR MEDICAL APPLICATIONS

Cardiac Surgery
Thoracic Surgery
Vascular Surgery
Oncologic Surgery
Plastic Surgery
Neurosurgery
Ophthalmologic Surgery
Orthopedic Surgery
Trauma Surgery
Head and Neck Surgery
Gynecologic and Urologic Surgery
Gastrointestinal Surgery
Dental Surgery
Drug Delivery and Tissue Engineering
Application techniques
Available Products
Applications

WOOD ADHESIVES

Adhesive application to wood
Wood adhesion
Formaldehyde Adhesives
Phenol Formaldehyde Adhesives
Resorcinol and Phenol Resorcinol Formaldehyde Adhesives
Urea Formaldehyde and Mixed Urea Formaldehyde Adhesives
Melamine Formaldehyde Adhesives
Isocyanates in Wood Adhesives
Polymeric Diphenylmethane Diisocyanate
Emulsion Polymer Isocyanates
Polyurethane Adhesives
Epoxy Adhesives
Polyvinyl and ethylene vinyl acetate dispersion adhesives
Biobased Adhesives
Protein Glues
Tannin Adhesives
Lignin Adhesives
Miscellaneous Composite Adhesion
Construction Adhesives
Hot Melts
pressure Sensitive Adhesives
Other Adhesives
Environmental Aspects

WOOD PYROLYSIS OR ADHESIVES LIQUEFACTION

Non adhesive Bonding
Solid Wood Bonding by Wood welding
Hardboard Composites

SILANE AND OTHER ADHESIONS

Evidence for Coupling Activity
Mechanism of Adhesion Promotion
Chemical Bond Theory
Deformable Layer Theory
Surface Wettability Theory
Restrained Layer Theory
Reversible Hydrolytic Bond Theory
Oxide Reinforcement
Acid Base Reactions
Methods of Use in Adhesive Technology
Silanes
Silane Coupling Reactions
Hydrolysis of the silane group
Condensation with the surface
Polymerization
Reaction with the polymer
Nature of Silane Films on Metals and Glass
Performance of Silanes in Adhesive Technology
Zirconates
Titanates
Chromium containing Promoters
Other Adhesion Promoters
Phosphorus Containing Compounds
Amines
Organic Resins
Miscellaneous Promoters
Effects other than Adhesion Promotion
Conclusions

ADHESIVE BASED ON POLYURETHANE

Introduction
Manufacturing Process
Plant Economics
Plant & Machinery
Fixed Capital
Raw Materials
Total Working Capital/Month
Total Capital Investment
Turn Over/Annum

ADHESIVE BASED ON VINYL ACETATE (FEVICOL TYPE)

Introduction
Manufacturing Process
Dispersion
Polymerization
Addition of other ingredients
Packing
Plant Economics
Plant & Machinery
Fixed Capital
Raw Materials
Total Working Capital/Month
Total Capital Investment
Turn Over/Annum

B.O.P.P. SELF ADHESIVE TAPES

Introduction
Manufacturing Process
Preparation of Adhesive Mass
Primer coat Formulation
Primer Coal Formulation
Adhesive Coat
Plant Economics
Plant & Machinery
Fixed Capital
Raw Materials
Total Working Capital/Month
Total Capital Investment
Turn Over/Annum

ESTER GUMS (FOOD GRADE)

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

LEATHER TO LEATHER ADHESIVE LATEX BASED ADHESIVES

Introduction
Process of Manufacture
Plant Economics
Plant & Machinery
Fixed Capital
Raw Materials
Total Working Capital/Month
Total Capital Investment
Turn Over/Annum

SYNTHETIC ADHESIVE FOR DECORATIVE LAMINATES BONDING

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

LIQUID ADHESIVE FOR CORRUGATED BOARD & BOXES

Introduction
Manufacturing Process
Formulation
Manufacturing Process
Manufacturing of Part A
Manufacturing of Part B
Mixing of Part A & Part B
Plant Economics
Plant & Machinery
Fixed Capital
Raw Materials
Total Working Capital/Month
Total Capital Investment
Turn Over/Annum

MELAMINE FORMALDEHYDE POWDER

Introduction
Melamine Formaldehyde
Process of Manufacture
Melamine formaldehyde
Raw Material Requirements
Plant Economics
Plant & Machinery
Fixed Capital
Raw Materials
Total Working Capital/Month
Total Capital Investment
Turn Over/Annum

RUBBER ADHESIVE

Introduction
Manufacturing Process
Plant Economics
Plant & Machinery
Fixed Capital
Raw Materials
Total Working Capital/Month
Total Capital Investment
Turn Over/Annum

THERMOSETTING ADHESIVE

Introduction
Polyvinyl Butyral Adhesives
Formulations of Polyvinyl Butyral Based Adhesive
Formulation No.1
Formulation No. 2
Plant Economics
Plant & Machinery
Fixed Capital
Raw Materials
Total Working Capital/Month
Total Capital Investment
Turn Over/Annum

The post Complete Hand Book on Adhesives and Adhesion Technology with Project Profiles appeared first on EIRI - eBooks and Project Reports.