Description
Contents
Wood Rosin
- Introduction
- Source or Origin of the Substance
- Properties of the Substance
- Uses of the Substance
- Combinations of the Substance
- Evaluation
Process of Refining Wood Rosin
- Example
Esters of Pine Wood Pitch
Chemical composition and antioxidant activity
of essential oil of pine cones of Pinus armandii
- Introduction
- Materials and methods
- Plant material
- Hydrodistillation
- Gas Chromatography
- Gas Chromatography-mass Spectrometry
- Qualitative and quantitative Analyses
- Antioxidant activity
Chemical Composition of The Oil of Pinus
- Pinea L. Seeds
- INTRODUCTION
- Determination of Composition
- Conclusion
Resin Products from Pines
- Products
- Historical Aspects
- Resin producing pines
- Effects Of Resin Tapping On Pines
- Plant material
- Essential oil isolation
- Chemical composition
- GC-MS analysis
- Antimicrobial assay
- Microbial strains and culture media
- Antioxidant activity
- DPPH free radical-scavenging activity
- Cytotoxic assessment
- Human cell lines and culture
- Cytotoxicity assay
- Chemical composition
- Antibacterial activity
- Antioxidant activity
- Cytotoxic activity
Process for the manufacturing of turpentine, pine oil and rosin from woody materials rich in oleoresin
Structural Determination
- Myrcene
- Other Monoterpenes
- Citral
- Geraniol
- Linalool
- Citronellol And Citronellal
- Terpineol
Menthol and Carvone
- Mint Components
- Carvone
Bicyclic Monoterpenoids
- Two Commercial Syntheses of Bicyclic
- Monoterpenoids
Synthesis of A-Santalol
- Synthesis of –Santalol
- Sandalwood Substitutes
- Synthesis of a-Atlantone from d-Limonene
Production of a-Terpineol from a-Pinene
- Materials and Methods
- Equipment and Procedures
- Analysis
- Results and Discussions
- Steady State Condition and Feed Plate Optimum
- Pressure
- Ratio of Volumetric Flow
Menthol
- Synthesis of menthol from Myrcene:
Camphor
- Structure Determination
- Synthesis of Camphor
- The Properties of Camphor
- Toxicity of Camphor
Synthesis and Characterization of Isolongifoline
and Acetyl longifoline
- Analysis of Reaction product (Reaction Monitoring)
- Washing and Distillation of Reaction product
- Characterization of Isolongifoline and Acetyl
- longifoline
- Characterization was done by following methods.
- FTIR Analysis
- GC-FID analysis
- GC-MS analysis
- FT-IR Analysis of Isolongifoline
- FT-IR Analysis of Acetyl Longifoline
- GC-FID analysis of Acetyl longifoline
- GC-MS analysis of Isolongifoline
Terpene Resins in Pressure Sensitive Adhesives
- Terpene Tackifiers studied
- Properties Evaluated
- Tackifiers studied
Terpene phenolic resins
Phenol-terpene-cyclic polyolefin polymer
The Insecticides Obtained from Turpentine
- Introduction
- The thiocyanates
- Chlorinated terpenes
- Terpenes and derivatives
- Terpene polymers
.Pine oil cleaning composition
- Optional Ingredients
- Method for cleaning a hard surface
- Pine Oil Formulations
Terpene Polymer
Tackifier resin composition and process
Hot Melt Coating Composition Containing Polyterpene,Terpene Resins
Liquid Polymers of Turpentine
Flourinated Terpene Compounds
- Fluorination of Paracymene
- Fluorination of Myrcene
Adhesives tackified with low molecular weight
terpene-phenolic resins
Terpene halo-alkyl-ether-amine condensation product
Process for preparing a floral odorous perfume
Phenolic-modified rosin terpene resin
Resins from thiophene and turpentine
Synthetic Camphor Manufacturing
Menthol Oil From Leaves And Menthol Crystals (Peppermint)
Spray Drying of Menthol And Peppermint Oil
Project Profile of Turpentine Oil
Camphor Tablets
List of Tables
- Table : Composition of Wood Rosin
- Table : Chemical properties of wood rosin
- Table : Selection of possible components for edible coatings patented for organic fruits
- Table : Ecotoxicity data for wood rosin in aquatic life
- Table : Summary of Human Health and Toxicity Parameters of wood rosin
- Table Percentage component of the pine cone oils of Pinus armandii.
- Table Radical scavenging activity of the pine cone oils of Pinus armandii, BHT and ascorbic acid with DPPH.
- Table Larvicidal activity of Pine oil against different Mosquito
- Table Efficacy of Pine oil as mosquito repellent on human volunteers
- Table Efficacy of Pine oil mats for protection against mosquitoes
- Table : Compounds obtained from GC/GC-MS analysis of Pinus pinea L. seed’s oils*
- Table Important commercial sources of pine resin
- Table : Beta-pinene properties
- Table : d-limonene properties
- Table : D–carene properties
- Table : D-cadinene properties.
- Table : Methyl mercaptan properties
- Table : The different essential oil constituents identified
- in the essential oils of Pinus roxburghii
- Table : In-vitro antibacterial activity of essential oil of Pinus roxburghii and refrence antibiotic determined with Agar well Diffusion Method
- Table : In-vitro cancer activity of Pinus roxburghii essential oil
- Table Composition of solution of turpentine and a-pinene
- Table shows the relationship of time and the yield of a-terpineol on a variety of feed plates.
- Table Purity a-terpineol and a-pinene on the bottom of products for various times with position of the feed Plate
- Table Relationships of volume ratio of chloroacetic acid and the a-pinene with the purity of waste and Byproducts
- Table Characteristics of Ion Exchange Catalyst Indion
- Table : Catalytic conversion of longifoline over Catalyst Indion-
- Table : Adhesive formulations using blends of SIS and SBS
- Table
- Table . Results from Iron Oxide based Soil System
- Table . Results from Oily Soil system
- Table . Bloom Performance
List of Figures
- Figure : Molecular structures for abietic, pimaric, and palustric acids
- Figure : Chromatogram ofPinus pinea L.seeds oil of
- plants collected from the northwest region of Khorasan, Iran
- Figure : Chromatogram ofPinus pineaL.seeds oil of plants collected from the southern region of Khorasan, Iran
- Figure : d-limonene. l-limonene.
- Figure Series of research experiment
- Figure Relationship of time and yield of a-terpineol on a variety of feed plates
- Figure Yield of a-terpineol at various pressures
- Figure Relationships of volume ratio of chloroacetic acid solution and the solution of a-pinene to yield a-terpineol
- Figure Synthesis of byproduct of a-pinene
- Figure Synthesis of Isolongifoline and
- Longifoline derivatives
- Figure Acid Catalyzed Rearrangement of Lonifoline
- Figure Reaction Mechanism of Acylation process in Longifoline
- Figure FT-IR spectra of Iso-Longifoline
- Figure FT-IR spectra of Acetyl-Longifoline
- Figure GC-FID chromatogram of Isolongifoline
- Figure GC-FID chromatogram of Acetyl longifoline
- Figure GC-MS Total ion chromatogram (TIC) of the Isolongifoline sample showing three major chemical constituents
- Figure Structure and mass spectra of Isolongifoline
- Figure Structure and mass spectra of Longifoline
- Figure GC-MS Total ion chromatogram (TIC) of the Acetyl Longifoline sample showing three major chemical constituents
- Figure Structure and mass spectra of Acetyl Longifoline
- Figure Structure and mass spectra of Isolongifoline methyl ether
- Figure : Terpenes for tackifiers
