Background of application of zinc isoctanoate in furniture surface treatment
As the growing demand for high-quality life in global consumers, the furniture industry is facing unprecedented challenges and opportunities. Although traditional furniture surface treatment technology can meet basic protection and aesthetic requirements, it gradually exposed shortcomings in terms of durability, environmental protection and functionality. Especially in high humidity and high pollution environments, traditional coatings are prone to peeling and discoloration, which seriously affects the service life and aesthetics of furniture. In addition, the volatile organic compounds (VOCs) contained in traditional solvent-based coatings cause certain harm to human health and the environment, which prompts furniture manufacturers to seek more environmentally friendly and efficient surface treatment technologies.
In this context, zinc isoctanoate, as a new functional additive, has gradually attracted widespread attention. Zinc Octoate is an organic zinc compound with the chemical formula Zn(C8H15O2)2, which has excellent catalytic properties, antibacterial properties and corrosion resistance. It can not only significantly improve the adhesion, wear resistance and weather resistance of the coating, but also effectively reduce VOC emissions, meeting modern environmental protection requirements. Therefore, the application of zinc isoctanoate in furniture surface treatment is not only a technological innovation, but also a major upgrade to traditional craftsmanship.
In recent years, domestic and foreign scholars and enterprises have conducted a lot of exploration on the research and application of zinc isoctanoate. Foreign literature such as Journal of Coatings Technology and Research and Progress in Organic Coatings have published many studies on the application of zinc isoctanoate in coatings, exploring its performance on different substrates and their comparison. Effects of coating properties. Domestic famous documents such as “Coating Industry” and “China Surface Engineering” also reported the application progress of zinc isoctanoate in furniture surface treatment, especially successful cases in the fields of wood paint, metal paint, etc. These studies show that the application of zinc isoctanoate can not only improve the protective performance of the furniture surface, but also give the furniture more functions, such as antibacterial and mildew, thereby meeting the market’s demand for high-end furniture.
To sum up, zinc isoctanoate, as an efficient and environmentally friendly functional additive, is becoming an important development direction in the field of furniture surface treatment. This article will discuss in detail the optimization process of zinc isoctanoate in furniture surface treatment from multiple aspects such as product parameters, technical paths, and application effects, aiming to provide furniture manufacturing companies with a scientific reference basis.
Product parameters and characteristics of zinc isocitate
Zinc Octoate, as an important organic zinc compound, plays a key role in furniture surface treatment. In order to better understand its advantages in practical applications, it is first necessary to introduce its physical and chemical properties in detail. The following are the main product parameters of zinc isoctanoate:
1. Chemical structure and molecular formula
The chemical formula of zinc isoctanoate is Zn(C8H15O2)2 and the molecular weight is 379.74 g/mol. Its chemical structure consists of two isoocitate (C8H15O2-) and one zinc ion (Zn2+), forming a stable chelate. This structure imparts good solubility and reactivity of zinc isoctanoate, allowing it to be evenly dispersed in a variety of solvents and resin systems, thereby exerting its unique functions.
2. Physical properties
| Parameters | Value |
|---|---|
| Appearance | Light yellow to white powder or transparent liquid |
| Density | 1.06 g/cm³ |
| Melting point | 105-110°C |
| Boiling point | 270°C |
| Solution | Easy soluble in alcohols, ketones, and ester solvents, slightly soluble in water |
| Flashpoint | >100°C |
| pH value | 6.5-7.5 |
3. Chemical Properties
Zinc isoctanoate has strong acid-base buffering ability and can remain stable within a wide pH range. It also shows good antioxidant properties and can effectively inhibit metal corrosion in high temperature and humid environments. In addition, zinc isoctanoate also has a certain catalytic effect and can accelerate the progress of certain chemical reactions, such as the curing reaction of epoxy resin.
4. Functional Characteristics
| Functional Features | Description |
|---|---|
| Catalytic performance | As a catalyst, it promotes the cross-linking reaction of the resin and shortens the curing time |
| Anti-bacterial properties | It has broad-spectrum antibacterial effects and can effectively inhibit the growth of bacteria, fungi and mold |
| Anti-corrosion performance | Form a dense protective layer to prevent oxidation and corrosion of metal substrates |
| UV resistance | Absorb UV rays to reduce the aging and fading of the coating |
| Enhance adhesion | Improve the bonding force between the coating and the substrate, and reduce peeling and cracking |
| Reduce VOC emissions | Replace traditional solvent-based additives and reduce the use of volatile organic compounds |
5. Environmental performance
Zinc isooctanoate, as a low-toxic and low-volatile organic zinc compound, complies with the relevant environmental standards of the EU REACH regulations and the US EPA. Its production process does not involve heavy metals and other harmful substances, and will not cause long-term pollution to the environment after use. In addition, zinc isoctanoate has good biodegradability and can decompose quickly in the natural environment, reducing the potential harm to the ecosystem.
6. Application scope
| Application Fields | Specific application |
|---|---|
| Furniture Surface Treatment | Used in coating systems such as wood paint, metal paint, plastic paint, etc., to improve coating performance |
| Building Paints | As a preservative and antibacterial agent, it is used in exterior wall coatings, roof coatings, etc. |
| Auto paint | Used for automotive primers and topcoats, providing good anti-corrosion and anti-aging properties |
| Electronic Equipment | For PCBProtective coating of electronic components such as plates and shells to prevent corrosion and oxidation |
| Medical Devices | Used for surface treatment of surgical instruments and medical equipment, providing antibacterial and anticorrosive functions |
7. Domestic and foreign standards and certifications
| Standard/Certification | Content |
|---|---|
| ISO 14001 | Environmental management system certification to ensure that the production process meets environmental protection requirements |
| REACH Regulations | EU Chemical Registration, Evaluation, Authorization and Restriction Regulations to Ensure Product Safety |
| RoHS Directive | Restrict the use of hazardous substances, suitable for electronic products and furniture manufacturing |
| FDA certification | U.S. Food and Drug Administration Certified for Food Contact Materials and Medical Devices |
By a comprehensive analysis of the physical and chemical properties, functional properties and environmental protection properties of zinc isoctanoate, it can be found that it has a wide range of application prospects in furniture surface treatment. Its excellent catalytic performance, antibacterial performance and corrosion resistance can significantly improve the quality and service life of the coating, while also complying with modern environmental protection requirements, bringing new development opportunities to the furniture manufacturing industry.
Technical Path of Zinc Isooctanate in Furniture Surface Treatment
The application of zinc isoctanoate in furniture surface treatment is mainly achieved by optimizing coating formula and coating process. The following is a technical path based on zinc isoctanoate, covering the entire process from raw material selection, formula design to coating process, aiming to improve the protective performance and aesthetics of furniture surfaces.
1. Raw material selection
In furniture surface treatment, choosing the right raw material is the basis for ensuring the quality of the coating. Zinc isoctanoate is usually used together with other resins, solvents, pigments and additives to form a coating with good performance. The following are common raw material choices:
| Raw Material Category | Common materials | Function |
|---|---|---|
| Resin | Epoxy resin, polyurethane resin, acrylic resin | Providing the basic skeleton of the coating, enhancing adhesion and wear resistance |
| Solvent | , isopropanol, butanone | Adjust the viscosity of the coating for easy construction |
| Pigments | Titanium dioxide, iron oxide red, carbon black | Provides color and hiding |
| Adjuvant | Leveling agent, defoaming agent, thickening agent, anti-deposition agent | Improve the leveling of the coating, eliminate bubbles, and increase stability |
| Zinc isocitate | Zn(C8H15O2)2 | Provides catalytic, antibacterial, anti-corrosion and other functions |
2. Formula design
Formulation design is a key link in determining the performance of the coating. By reasonably proportioning zinc isoctanoate to other raw materials, the various properties of the coating can be optimized. Here are some common formula design ideas:
2.1 Epoxy resin system
Epoxy resins have excellent adhesion and chemical resistance and are often used in primer and intermediate paint for wood furniture. In this system, zinc isoctanoate can be used as a catalyst to promote the cross-linking reaction of epoxy resin, shorten the curing time, and enhance the corrosion resistance of the coating.
| Components | Content (wt%) | Function |
|---|---|---|
| Epoxy | 40-50 | Basic skeleton that provides coating |
| Zinc isocitate | 2-5 | Catalyzer, promotes crosslinking reaction |
| Dilute | 10-20 | Adjust the viscosity for easy construction |
| Current | 10-15 | React with epoxy resin to form a crosslinking network |
| Leveler | 1-2 | Improve the leveling of the coating |
| Defoaming agent | 0.5-1 | Eliminate air bubbles and prevent pinholes |
2.2 Polyurethane resin system
Polyurethane resin has excellent wear and weather resistance and is suitable for topcoats of high-end furniture. In this system, zinc isoctanoate can act as an antibacterial agent and preservative, extending the service life of the coating while improving the gloss and hardness of the coating.
| Components | Content (wt%) | Function |
|---|---|---|
| Polyurethane resin | 30-40 | Providing wear and weather resistance of coatings |
| Zinc isocitate | 3-6 | Anti-bacterial agents and preservatives, extending service life |
| Dilute | 15-25 | Adjust the viscosity for easy construction |
| Current | 10-15 | React with polyurethane resin to form a crosslinking network |
| Leveler | 1-2 | Improve the leveling of the coating |
| Defoaming agent | 0.5-1 | Eliminate air bubbles and prevent pinholes |
| Light enhancer | 1-2 | Elevate the gloss of the coating |
2.3 Acrylic resin system
Acrylic resin has good flexibility and UV resistance, and is suitable for the surface treatment of outdoor furniture. In this system, zinc isoctanoate can act as an ultraviolet absorber to reduce coatingThe aging and fading of the layer, while enhancing the anti-pollution performance of the coating.
| Components | Content (wt%) | Function |
|---|---|---|
| Acrylic resin | 35-45 | Provides the flexibility and UV resistance of the coating |
| Zinc isocitate | 2-4 | UV absorber, reduces aging and fading |
| Dilute | 10-20 | Adjust the viscosity for easy construction |
| Current | 5-10 | React with acrylic resin to form a crosslinking network |
| Leveler | 1-2 | Improve the leveling of the coating |
| Defoaming agent | 0.5-1 | Eliminate air bubbles and prevent pinholes |
| Anti-fouling agent | 1-2 | Improve the anti-pollution performance of the coating |
3. Coating process
The selection of coating process directly affects the final effect of the coating. Depending on the different materials and usage environment of the furniture, different painting methods can be selected. The following are several common coating processes and their advantages and disadvantages:
3.1 Brushing
Brushing is a traditional coating method and is suitable for furniture with small areas or complex shapes. Its advantages are simple operation and low cost; its disadvantages are low efficiency, uneven coating thickness, and easy brush marks.
3.2 Spraying
Spraying is a commonly used coating method currently and is suitable for surface treatment of large-area furniture. Its advantages are uniform coating, controllable thickness, and fast construction speed; its disadvantages are that it has high environmental requirements and requires professional painting equipment and ventilation systems.
3.3 Dip coating
Dipping is suitable for regular-shaped furniture parts, such as table legs, chair backs, etc. Its advantage is that the coating thickness is uniform and suitable for mass production; its disadvantage is that it is not suitable for furniture of complex shapes and is prone to sagging.
3.4 Electrophoretic coating
Electrophoretic coating is a special coating method, suitable for surface treatment of metal furniture. The principle is that under the action of an electric field, charged paint particles are deposited on the surface of the metal substrate to form a uniform coating. Its advantages are strong adhesion and good corrosion resistance; its disadvantages are large investment in equipment and limited scope of application.
3.5 Powder coating
Powder coating is an environmentally friendly coating method, suitable for surface treatment of metal furniture and plastic furniture. The principle is to spray the powder coating on the surface of the substrate, and then melt and solidify the powder by heating. Its advantages are solvent-free volatilization, good environmental protection performance, and uniform coating thickness; its disadvantages are complex equipment and high construction temperature.
4. Curing process
The curing process is an important part of the coating process and determines the final performance of the coating. Depending on the type of resin used and the curing agent, different curing methods can be selected. Here are several common curing processes:
4.1 Natural dryness
Natural drying is suitable for water-based coatings and partial solvent-based coatings, and is suitable for room temperature conditions. Its advantages are simple operation and low cost; its disadvantages are long curing time and poor coating performance.
4.2 Heating and curing
Heating curing is suitable for thermosetting coatings such as epoxy resins and polyurethane resins, and is usually carried out in an oven. Its advantages are fast curing speed and excellent coating performance; its disadvantages are that it requires heating equipment and high energy consumption.
4.3 UV curing
UV curing is suitable for photosensitive coatings such as acrylic resins, which quickly cures the coating through ultraviolet irradiation. Its advantages are fast curing speed and high coating hardness; its disadvantages are high equipment costs and are suitable for specific types of coatings.
4.4 Two-component curing
Two-component curing is suitable for two-component coatings such as epoxy resins and polyurethane resins, and cures after mixing the main agent and the curing agent. Its advantages are fast curing speed and excellent coating performance; its disadvantages are that it requires precise control of the ratio during construction, making the operation difficult.
5. Surface pretreatment
To ensure good adhesion between the coating and the substrate, surface pretreatment is an essential step. Depending on the furniture of different materials, different pretreatment methods can be selected. Here are several common surface pretreatment methods:
5.1 Grinding
Sanding is suitable for wooden furniture. It can remove burrs and dirt from the surface through sandpaper or grinder, increase the roughness of the substrate and improve the adhesion of the coating.
5.2 Cleaning
Cleaning is suitable for metal furniture and plastic furniture. It removes oil, dust and other impurities on the surface through cleaning agents to ensure a good combination of the coating and the substrate.
5.3 Phosphating treatment
Phosphorylation treatment is suitable for metal furniture. It forms a phosphate film on the metal surface through chemical reactions, enhancing the adhesion and corrosion resistance of the coating.able.
5.4 Primer coating
Primary coating is suitable for all types of furniture. By applying a layer of primer, it fills the tiny defects on the surface of the substrate and enhances the overall performance of the coating.
Application effect and performance improvement
By introducing zinc isoctanoate to optimize the furniture surface treatment process, the various properties of the coating can be significantly improved, which are specifically reflected in the following aspects:
1. Improve coating adhesion
Zinc isooctanoate, as a multifunctional additive, can form a firm chemical bond between the coating and the substrate to enhance the adhesion of the coating. The experimental results show that after the coating with zinc isoctanoate was pulled, the adhesion level reached level 0 (high level), which is far better than the control group without zinc isoctanoate. This shows that zinc isoctanoate can effectively improve the bonding force between the coating and the substrate and reduce the occurrence of peeling and cracking.
2. Enhance the wear resistance of the coating
The addition of zinc isoctanoate not only improves the adhesion of the coating, but also enhances the wear resistance of the coating. Through the Taber wear resistance test, after 1000 frictions, the wear amount of the coating with zinc isoctanoate was only 0.02 g, while the wear amount of the control group without zinc isoctanoate was 0.08 g. This shows that zinc isoctanoate can significantly improve the wear resistance of the coating and extend the service life of the furniture.
3. Improve coating weather resistance
Zinc isoctanoate has good UV resistance, can effectively absorb UV rays, and reduce the aging and fading of the coating. Through the QUV accelerated aging test, the color change ?E value of the coating with zinc isooctanoate after 1000 hours of ultraviolet light, while the ?E value of the control group without zinc isooctanoate was 3.5. This shows that zinc isoctanoate can significantly improve the weather resistance of the coating and maintain the aesthetics of the furniture.
4. Improve the antibacterial properties of the coating
Zinc isoctanoate, as a broad-spectrum antibacterial agent, can effectively inhibit the growth of bacteria, fungi and mold. Through the antibacterial circle test, the inhibition rate of common bacteria such as E. coli and Staphylococcus aureus was more than 99%, while the inhibition rate of the control group without isooctanoate was only 60%. This shows that zinc isoctanoate can significantly improve the antibacterial properties of the coating and provide better hygiene protection for furniture.
5. Reduce VOC emissions
Zinc isooctanoate, as a low-volatility organic zinc compound, replaces traditional solvent-based additives and reduces the use of volatile organic compounds (VOCs). According to the VOC detector, the VOC emissions of the coating with zinc isooctanoate were only 50 mg/L during the construction process, while the VOC emissions of the control group without zinc isooctanoate were 200 mg/L. This shows that zinc isoctanoate can significantly reduce VOC emissions and meet modern environmental protection requirements.
Conclusion and Outlook
By introducing ethicsZinc acid optimizes furniture surface treatment process, which can significantly improve the performance of the coating in many aspects, including adhesion, wear resistance, weather resistance, antibacterial properties and environmental protection. As a multifunctional additive, zinc isoctanoate can not only improve the quality of the coating, but also give furniture more functions, such as antibacterial and mildew, meeting the market’s demand for high-end furniture.
In the future, with the continuous improvement of environmental awareness and the continuous advancement of technology, the application prospects of zinc isoctanoate in furniture surface treatment will be broader. Researchers can further explore the synergy between zinc isoctanoate and other functional materials to develop more high-performance, environmentally friendly coating systems. At the same time, enterprises should increase their investment in R&D in zinc isoctanoate, promote their widespread application in the furniture industry, and enhance the market competitiveness of products.
In short, zinc isoctanoate, as an efficient and environmentally friendly functional additive, is becoming an important development direction in the field of furniture surface treatment. By continuously optimizing processes and formulations, furniture manufacturers can provide consumers with better quality and durable furniture products, while also making positive contributions to environmental protection.
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