1、Preparation of terpene resin emulsion and study on its
A novel terpene-based emulsifier,TP-1000,is synthesized through Diels Alder addition reaction between α-pinene and maleic anhydride (MAH),and esterification reaction between α-pinene and polyethylene glycol 1000 (PEG-1000).TP-1000 is used to prepare stable terpene resin emulsion successfully.Results show that the terpene resin ...
2、Synthesis and Characterization of Allyl Terpene Maleate Monomer
Using terpenes from turpentine, maleic anhydride and allyl chloride as reactants, the synthesized monomer, terpene-diallyl maleate adduct, was prepared by D-A addition, hydrolysis, and...
3、Terpene
In the present work, we have introduced a new printable monomer designed for use in SLA 3D printing, obtained from the ring opening of maleic anhydride with the primary alcohol from the terpene-based molecule perillyl alcohol (Scheme 1).
4、Synthesis and Properties of Polymerized Terpene Maleic
And then, the polymerized terpene maleic anhydride polyethelene glycol ester polymer surfactants (Ⅰ-Ⅴ) were synthesized by the reactions of the terpene maleic anhydride and different polyethelene glycol (400, 600, 1 000, 2 000, 4 000).
Terpene
Free radical copolymerization of 1,3-cyclooctadiene with maleic anhydride or N -substituted maleimides: a simple way to obtain high-performance transparent plastics.
Terpene
Terpinolene-maleic anhydride or terpinolene-itaconic anhydride resins were used in thermoset coatings crosslinked with an epoxidized soybean oil.
Characterization and properties of terpene
A kind of terpene-maleic resin was synthesized from maleic anhydride (MA) and β-phellandrene, a byproduct of turpentine application, aiming at developing the fine chemical applications of...
液态萜烯
Abstract: By using DSO and TGA, the curing properties of the novel liquid terpenemaleic anhydride (T-M) for epoxy resin are investigated by comparing with that of methyltetrahydrophthalic...
Synthesis and Characterization of Allyl Terpene Maleate Monomer
Using terpenes from turpentine, maleic anhydride and allyl chloride as reactants, the synthesized monomer, terpene-diallyl maleate adduct, was prepared by D-A addition, hydrolysis, and...
Method of preparing hydrogenated terpinene maleic anhydride glycidyl
Background technique [0002] Terpene maleic anhydride (TMA) is an adduct of dipentene and maleic anhydride, which is a by-product of natural turpentine or synthetic camphor, and is usually used as an intermediate for important fine chemicals such as epoxy resin curing agents and pesticide synergists.
Terpene resin, a natural polymer compound extracted from plants, has attracted significant attention from scientists and the industrial sector due to its unique chemical structure and biological activity. As one of its derivatives, maleic anhydride is highly valued for its potential applications in plastics, adhesives, coatings, and other fields. This article explores the interactions between terpene resin and maleic anhydride and their prospects in modern materials science.
1. Basic Characteristics of Terpene Resin
Terpene resin is a mixture composed of various terpene compounds, featuring complex molecular structures, including monocyclic, bicyclic, tricyclic, and polycyclic configurations. Its key properties include a high melting point, excellent heat resistance, and superior chemical corrosion resistance. Due to its distinctive physicochemical properties, terpene resin occupies an irreplaceable position in many high-end applications.
2. Structure and Performance of Maleic Anhydride
Maleic anhydride is an unsaturated acid anhydride containing two carbon-carbon double bonds. Industrially, it is widely used as a cross-linking agent for polymers, significantly enhancing mechanical properties, thermal stability, and chemical resistance. The introduction of maleic anhydride not only increases the cross-linking density of materials but also improves processability.
3. Synthesis Methods for Terpene Resin Maleic Anhydride
Terpene resin maleic anhydride can be synthesized through multiple approaches. The most common method is esterification, which involves reacting maleic anhydride with terpene resin to produce maleic anhydride-modified terpene resin. This process typically requires catalysts to accelerate reaction rates and control the structure and performance of the product.
4. Impact of Maleic Anhydride on Terpene Resin Performance
The incorporation of maleic anhydride significantly enhances the properties of terpene resin. On one hand, it improves heat resistance and chemical resistance; on the other hand, it enhances processability, such as flowability and plasticity. Additionally, maleic anhydride-modified terpene resin exhibits better mechanical strength and impact resistance, offering broad application prospects in high-performance composite materials.
5. Application Prospects and Challenges
With technological advancements, maleic anhydride-modified terpene resin shows tremendous potential in various fields, such as high-performance plastics, adhesives, coatings, and sealants. challenges remain, including cost and environmental impact. Researchers are exploring more economical synthesis methods and developing eco-friendly materials to meet stringent environmental regulations.
terpene resin maleic anhydride, as an emerging material, holds vast potential in modern materials science. Through in-depth research on terpene resin and maleic anhydride, we can develop more efficient and environmentally friendly materials to meet society’s demand for high-performance materials. In the future, with continuous technological progress, terpene resin maleic anhydride will demonstrate its unique value in broader applications, contributing further to human development.
