Chemicals A-Z
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Turpentine Derived Scheme
Gum turpentine, wood turpentine, and sulphate turpentine are the three categories of turpentine, distinguished by their respective sources of raw materials. Sulphate turpentine is a byproduct of the pulp manufacturing process. This substance has a low level of alpha-pinene and a high concentration of 3-Carene. Gum turpentine is derived from pine resin through distillation. The isomers alpha-Pinene and beta-Pinene make up a large proportion of this substance, while Camphene, Dipentene, and Terpinolene are found in smaller quantities.
Extracted from pine trees, gum turpentine is an oil that ranges in color from colorless to pale yellow and contains a mixture of terpenes. Due to the existence of double bonds and rings, terpenes have the ability to undergo various reactions. The pinene structure in turpentine provides it with properties resembling those of other natural flavor and fragrance compounds. In contrast to petroleum-based compounds, this has a unique advantage.
The isomerization of turpentine results in intermediates like Camphene, an essential material in the synthetic scheme for a variety of fragrances. The substances known as Ocimene, Myrcene, and Geraniol, which are derived from the process of pyrolysis or hydrogenation, serve as the fundamental building blocks for a diverse range of flavor and fragrance formulations.
Pinonic acid and Pinic acid, both oxidation products of turpentine, possess versatile properties that make them suitable for a range of fine chemical uses, such as plasticizers, lubricants, and chemical additives. The execution of hydration reactions can be applied to formulate cough medicine and other related products.
To summarize, it can be concluded that turpentine, being an innate and renewable element, is exceedingly congruous with the contemporary inclination towards green, low-carbon, and sustainable advancement.
#Click here to learn the technology roadmap of turpentine-based polyterpene resins (2024v1).
## Click here to learn the Methodology for Carbon Reserves Calculation and Guidelines for Carbon Footprint Assessment (Not yet public)
Liquid Terpene Resin
CAS: 31393-98-3
SPECS: 31393
Liquid terpene Resin, is polymerized by gum turpentine, which is a kind of excellent tackifier, with the characteristics including strong cohesive force, good aging resistance, heat resistance, radiat…
Longifolene
CAS: 475-20-7
SPECS: 85%
Longifolene is an important tricyclic sesquiterpene in heavy turpentine oil, and its mass fraction can reach more than 65%.Beta-Caryophyllene is another important sesquiterpene. Longifolene is natural…
Myrac Aldehyde
CAS: 37677-14-8
SPECS: 99%
Myrac aldehyde is a colorless liquid with an aldehyde sweet odor. It made in the presence of Lewis acid, the diene addition reaction between myrcene and acrolein was catalyzed to obtain two mixtures o…
Myrtenol
CAS: 515-00-4
SPECS: 95%
Natural Myrtenol is found in eucalyptus oil and myrtle oil. It appears colorless liquid with wood and green odor.Foreverest® Myrtenol is a synthetic of beta-Pinene. There are three methods to prepare …
Ocimene
CAS: 29714-87-2
SPECS: 72%
Ocimenes are a group of isomeric hydrocarbons, the isomer of Myrcene.It includes α-Ocimene, cis-β Ocimene, and trans-β Ocimene. Ocimene is naturally found in many essential oils, such as basil oil, la…
Perilla Aldehyde
CAS: 2111-75-3
SPECS: 95%
Foreverest™ Perilla Aldehyde (Perillaldehyde) is a synthesis of beta-Pinene, appears colorless to pale yellow liquid. It has character with odors of purple perilla, cinnamic aldehyde and cumin aldehyd…
Pinane
CAS: 6876-13-7
SPECS: 98%
Pinane is a monoterpene and a carbobicyclic compound. It appears colorless oily liquid with mild odor. Pinane is prepared by the hydrogenation of pinene.It is mainly used to synthesize linalool, geran…