1、萜烯酚乳液

What is Terpene Resins? The above information is believed to be accurate and presents the best explanation currently available to us. We assume no liability resulting from above content.

2、Development of terpene based sorbents via emulsion templating

Polymeric sorbent materials exhibiting excellent swelling capacity were developed using high internal phase emulsion (HIPE) templating approach. Precursor HIPEs were prepared by using continuous phases that composed of mixtures of β -myrcene (monomer) and 1,3-butanediol dimethacrylate (crosslinker).

3、Terpene Resins

Our product line ranges from straight terpene resins made solely from renewable materials to terpene-based copolymers with petroleum-based components. Our hydrogenated resins are excellent in terms of color, thermal stability, and UV resistance.

4、Preparation of High

Structural characterization of DESs, combined with density functional theory (DFT) calculations, verified that hydrogen bonds and covalent bonds drive DES formation. The DES prepared by the self-assembly of AlCl 3 and acetamide (ACA), [AlCl 3] 3 [ACA] 2, showed the best catalytic performance.

5、PREPARATION OF TERPENE

Series terpene-resin emulsions were prepared using polymeric surfactants designed for the emulsions.The results showed that hydrophile-lypophile balance (HLB) values could be used as the design basis to determine monomer ratios in the polymeric surfactants,HLB value of terpene-resins in this study was 13.Solvent was used to decrease melting ...

Waterborne terpene phenolic resin_GUANGXI TONE RESIN CHEMICAL CO.,LTD

A stable water - borne terpene phenolic resin.

Terpene Resin Dispersion

Terpene Resin Dispersion is an aqueous, solvent free waterborne resin emulsion. It is excellent pigment wetting, low particle sizes, and compatible with Acrylic, polyvinyl acetate, VAE, SBR, CR, NBR, EVA and other water base synthetic or natural polymers.

Baolin Chemical

We Are The Leading Manufacturer For Terpene Resin,Terpene Phenolic Resin,Glycerol Ester Of Rosin,Tackifier Resin And Water Based Emulsion.

Hydrogenated Rosin and Terpene Resins: Analysing Advantages for UV and

Given that the backbone structure of rosin resin or terpene resin is inherently hydrophobic, it is therefore essential to employ emulsifiers to effectively disperse them in water.

Improving the Performance of Photoactive Terpene

Resin formulations based on biobased terpenes were investigated to offer a simple, scalable, and environmentally friendly route for rapid photocuring.

Terpene Resin Emulsifiers

Terpene resin, a high molecular material widely used in the chemical industry, is known for its unique physical and chemical properties. to fully utilize its performance, it must be mixed with other substances, which requires an effective emulsifier. This article explores the interactions between terpene resin and emulsifiers, as well as how emulsifiers can improve the processing and application of terpene resin.

1. Properties and Applications of Terpene Resin

Terpene resin is a high molecular weight polymer synthesized through the polymerization of terpenoid compounds. It exhibits excellent mechanical properties, chemical resistance, and electrical insulation, making it widely used in coatings, adhesives, sealing materials, composite materials, and other fields. Due to the presence of numerous carbon-carbon double bonds in its molecular chain, terpene resin also demonstrates good light stability and thermal stability.

2. The Role and Classification of Emulsifiers

Emulsifiers are chemicals that reduce the interfacial tension between water and oil, enabling oil droplets to disperse in water to form stable emulsions. In the processing of terpene resin, emulsifiers play a critical role. They not only enhance the affinity between terpene resin and water, reducing agglomeration, but also improve the rheological properties of the product to meet the demands of various applications.

Based on their mechanisms, emulsifiers can be classified into surfactant-type, ionic, and non-ionic categories. Surfactant-type emulsifiers primarily achieve emulsification by reducing the surface tension of water; ionic emulsifiers stabilize oil droplets through electrostatic interactions between ions; and non-ionic emulsifiers rely on interactions between polar groups in their molecules and hydrophobic groups on the surface of oil droplets.

3. Interactions Between Terpene Resin and Emulsifiers

When terpene resin interacts with emulsifiers, a series of interactions occur. First, surfactant-type emulsifiers form stable complexes with non-polar groups in terpene resin, significantly reducing its surface tension and improving water wettability. Second, ionic emulsifiers further stabilize oil droplets by interacting with polar groups in terpene resin through electrostatic forces, preventing aggregation and sedimentation during processing. Finally, non-ionic emulsifiers effectively emulsify oil droplets by leveraging interactions between polar groups in their molecules and hydrophobic groups on the oil droplet surface.

4. Practical Applications of Terpene Resin Emulsifiers

In industrial production, terpene resin often needs to be mixed with other substances to prepare various products. For example, in coating formulations, terpene resin must be blended with pigments, fillers, and additives. To ensure uniform dispersion of these components in terpene resin, emulsifiers are used to reduce interfacial tension. By selecting appropriate emulsifier types and dosages, the rheological properties of the product can be optimized, enhancing gloss and adhesion of the coating film.

5. Future Prospects

As technology advances, the demand for higher-performance terpene resin continues to grow. Researchers are exploring new emulsifier types and synthesis methods to meet these needs. For instance, introducing novel modified functional groups or developing innovative emulsifier structures could further improve emulsification efficiency and product performance. Additionally, the development of environmentally friendly emulsifiers represents a key direction for future research, aligning with sustainable development goals.

There is a close interaction between terpene resin and emulsifiers. By rationally selecting and using emulsifiers, the processing and application performance of terpene resin can be significantly improved. This not only propels the development of the terpene resin industry but also provides valuable insights for emulsifying other high molecular materials. Future research is expected to yield more innovative breakthroughs, offering greater convenience and benefits to the petrochemical industry.