Bismuth isoctoate used in sealants and adhesives and its impact on performance

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The application of bismuth isooctanoate in sealants and adhesives and its impact on performance

Introduction

Sealants and adhesives are indispensable materials in modern industry and daily life, and are widely used in many fields such as construction, automobiles, aerospace, and electronic products. Their main function is to provide waterproofing, dustproofing, soundproofing, thermal insulation and structural connections. With the advancement of technology and the improvement of environmental awareness, the performance requirements for sealants and adhesives are getting higher and higher. Bismuth Neodecanoate, as an efficient organometallic catalyst, shows unique advantages in sealants and adhesives. This article will explore in detail the application of bismuth isooctanoate in sealants and adhesives and its impact on performance, with a view to providing a comprehensive reference for related industries.

Properties of bismuth isooctanoate

Bismuth isooctanoate is a colorless to light yellow transparent liquid with the following main characteristics:

  • Thermal stability: Stable at high temperatures and not easy to decompose.
  • Chemical Stability: Demonstrates good stability in a variety of chemical environments.
  • Low toxicity and low volatility: Compared with other organometallic catalysts, bismuth isooctanoate is less toxic and less volatile, making it safer to use.
  • High catalytic activity: It can effectively promote a variety of chemical reactions, especially showing excellent catalytic performance in esterification, alcoholysis, epoxidation and other reactions.

Application of bismuth isooctanoate in sealants and adhesives

1. Polyurethane sealants and adhesives

Polyurethane sealants and adhesives are widely used in construction, automotive, furniture and other industries due to their excellent adhesion, abrasion resistance, chemical resistance and weather resistance. The main applications of bismuth isooctanoate in polyurethane sealants and adhesives include:

  • Promote curing reaction: Bismuth isocyanate can effectively catalyze the reaction between isocyanate and polyol, accelerate the curing process, shorten the drying time of the coating film, and improve production efficiency.
  • Improve coating film performance: By adjusting the amount of catalyst, the hardness, flexibility and gloss of the coating film can be precisely controlled to meet the needs of different application scenarios.
  • Environmental protection: Compared with traditional heavy metal catalysts such as lead and tin, bismuth isooctanoate has lower toxicity and is more environmentally friendly.
2. Silicone sealants and adhesives

Silicone sealants and adhesives are widely used in construction, automobiles, electronic products and other fields due to their excellent high temperature resistance, low temperature resistance, chemical resistance and weather resistance. The main applications of bismuth isooctanoate in silicone sealants and adhesives include:

  • Promote curing reaction: Bismuth isooctanoate can effectively catalyze the silane cross-linking reaction, accelerate the curing process, shorten the drying time of the coating film, and improve production efficiency.
  • Improve coating film performance: By adjusting the amount of catalyst, the hardness, flexibility and transparency of the coating film can be precisely controlled to meet the needs of different application scenarios.
  • Environmental protection: The low toxicity and low volatility of bismuth isooctanoate make it widely used in environmentally friendly silicone sealants and adhesives.
3. Epoxy sealants and adhesives

Epoxy sealants and adhesives are widely used in heavy anti-corrosion, flooring, shipbuilding and other fields due to their excellent adhesion, chemical resistance and corrosion resistance. The main applications of bismuth isooctanoate in epoxy sealants and adhesives include:

  • Accelerate the curing reaction: Bismuth isooctanoate can significantly shorten the curing time of epoxy resin and improve production efficiency.
  • Improve mechanical properties: By optimizing the dosage of catalyst, the strength and toughness of cured epoxy resin can be improved to meet the requirements of high-performance applications.
  • Improve chemical resistance: Bismuth isooctanoate can enhance the chemical resistance of epoxy resin and extend the service life of the material.
4. Acrylic Sealants and Adhesives

Acrylic sealants and adhesives are widely used in construction, automobiles, electronics and other fields due to their good adhesion, weather resistance and UV resistance. Major applications of bismuth isooctanoate in acrylic sealants and adhesives include:

  • Promote polymerization reaction: Bismuth isooctanoate can effectively catalyze the polymerization reaction of acrylate monomer, accelerate the curing process, shorten the drying time of the coating film, and improve production efficiency.
  • Improve coating film performance: By adjusting the amount of catalyst, the hardness, flexibility and transparency of the coating film can be precisely controlled to meet the needs of different application scenarios.
  • Environmental protection: The low toxicity and low volatility of bismuth isooctanoate make it widely used in environmentally friendly acrylic sealants and adhesives.

Effects of bismuth isooctanoate on the properties of sealants and adhesives

1. Curing speed

Bismuth isooctanoate can significantly accelerate the curing reaction of sealants and adhesives and shorten the curing time. This not only improves production efficiency, but also reduces the construction cycle and production costs. For example, in polyurethane sealants, adding 0.5% bismuth isooctanoate can shorten the cure time from 24 hours to 6 hours.

2. Adhesion

���Bismuth octoate improves the adhesion of sealants and adhesives, allowing them to exhibit stronger bonding on different substrates. This helps improve product reliability and durability. For example, in silicone sealants, adding 0.3% bismuth isooctanoate can significantly improve its adhesion to substrates such as glass, metal and plastic.

3. Flexibility

Bismuth isooctanoate modulates the flexibility of sealants and adhesives to maintain good performance under varying temperature and stress conditions. This helps improve the product’s impact resistance and fatigue resistance. For example, in epoxy sealants, adding 0.2% bismuth isooctanoate can significantly improve its flexibility at low temperatures and heat resistance at high temperatures.

4. Chemical resistance

Bismuth isooctanoate can improve the chemical resistance of sealants and adhesives, making them more stable and corrosion-resistant when exposed to chemicals such as acids, alkalis, and solvents. This helps extend the life of the product. For example, in acrylic sealants, adding 0.1% bismuth isooctanoate can significantly improve its resistance to solvents and chemicals.

5. Environmental protection

The low toxicity and low volatility of bismuth isooctanoate make it widely used in environmentally friendly sealants and adhesives. This not only complies with the requirements of environmental protection regulations, but also improves the market competitiveness of the product. For example, in building sealants, using bismuth isooctanoate instead of traditional heavy metal catalysts such as lead and tin can significantly reduce the toxicity of the product and improve its environmental performance.

Optimization of reaction conditions

In order to give full play to the catalytic performance of bismuth isooctanoate, the reaction conditions need to be optimized. Here are some common optimization methods:

1. Temperature

Temperature is an important factor affecting the rate of catalytic reaction. Generally speaking, higher temperatures can increase the reaction rate, but may also lead to the occurrence of side reactions. Therefore, the appropriate reaction temperature needs to be determined experimentally. For example, in polyurethane sealants, a temperature range of 60-80°C is usually selected to balance the reaction rate and the occurrence of side reactions.

2. Catalyst dosage

Catalyst dosage has a significant impact on reaction rate and selectivity. Too little catalyst may lead to a slower reaction rate, while too much catalyst may lead to side reactions. Therefore, it is necessary to determine the appropriate catalyst dosage through experiments. For example, in silicone sealants, a catalyst dosage of 0.1-0.5 mol% is usually selected to balance the reaction rate and the occurrence of side reactions.

3. Response time

Reaction time has a significant impact on product selectivity and yield. A reaction time that is too short may result in an incomplete reaction, and a reaction time that is too long may result in side reactions. Therefore, the appropriate reaction time needs to be determined experimentally. For example, in epoxy sealants, a reaction time of 2-6 hours is usually selected to balance the reaction rate and the occurrence of side reactions.

4. Solvent

Solvent selection has a significant impact on reaction rate and selectivity. Different solvents may affect the solubility of the reactants and the polarity of the reaction medium, thereby affecting the progress of the reaction. Therefore, appropriate solvents need to be selected experimentally. For example, in acrylic sealants, non-polar solvents such as toluene and methylene chloride are usually selected to increase reaction rate and selectivity.

5. pH value

The pH value has a significant impact on the progress of the catalytic reaction. Different pH values ​​may affect the activity of the catalyst and the stability of the reactants, thereby affecting the progress of the reaction. Therefore, it is necessary to determine the appropriate pH value through experiments. For example, in polyurethane sealants, a neutral or slightly acidic pH is often chosen to increase reaction rate and selectivity.

Actual cases

Case 1: Polyurethane sealant

In order to improve the curing speed and adhesion of the product, a construction sealant manufacturer uses bismuth isooctanoate as a catalyst. By optimizing the amount of catalyst, the curing time was successfully shortened from 24 hours to 6 hours, while the adhesion of the product to substrates such as glass, metal and plastic was improved. Finally, the polyurethane sealant produced by the company has higher adhesion and weather resistance, meeting the high standards of the construction market.

Case 2: Silicone Sealant

In order to improve the curing speed and transparency of the product, an automobile sealant manufacturer uses bismuth isooctanoate as a catalyst. By optimizing the amount of catalyst, the curing time was successfully shortened from 12 hours to 4 hours, while the transparency and flexibility of the product were improved. Ultimately, the company produces silicone sealants with higher transparency and chemical resistance that meet the high standards of the automotive market.

Case 3: Epoxy sealant

In order to improve the curing speed and chemical resistance of the product, a ship sealant manufacturer uses bismuth isooctanoate as a catalyst. By optimizing the amount of catalyst, the curing time was successfully shortened from 8 hours to 2 hours, while the chemical resistance and corrosion resistance of the product were improved. Ultimately, the epoxy sealants produced by the company have higher chemical and corrosion resistance and meet the high standards of the marine market.

Case 4: Acrylic sealant

In order to improve the curing speed and UV resistance of the product, an electronic product sealant manufacturer uses bismuth isooctanoate as a catalyst. By optimizing the amount of catalyst, the curing time was successfully shortened from 10 hours to 3 hours, while the UV resistance and transparency of the product were improved. Finally, the company�The acrylic sealant produced has higher UV resistance and transparency, meeting the high standards of electronic products.

Conclusion

As an efficient organometallic catalyst, bismuth isooctanoate shows unique advantages in sealants and adhesives. It exhibits excellent catalytic properties in a variety of sealants and adhesives such as polyurethane, silicone, epoxy and acrylate, and can significantly improve the curing speed, adhesion, flexibility, chemical resistance and environmental performance of the product. . By optimizing reaction conditions, such as temperature, catalyst dosage, reaction time, solvent, pH value, etc., the catalytic performance of bismuth isooctanoate can be fully utilized and the comprehensive performance of the product can be improved. It is hoped that the information provided in this article will help researchers and practitioners in related industries better understand and utilize this important catalyst to promote the continued development of the sealant and adhesive field.

Extended reading:
DABCO MP608/Delayed equilibrium catalyst

TEDA-L33B/DABCO POLYCAT/Gel catalyst

Addocat 106/TEDA-L33B/DABCO POLYCAT

NT CAT ZR-50

NT CAT TMR-2

NT CAT PC-77

dimethomorph

3-morpholinopropylamine

Toyocat NP catalyst Tosoh

Toyocat ETS Foaming catalyst Tosoh

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  • by Published on 2024-09-26 17:16:12
  • Reprinted with permission:https://www.morpholine.cc/17624.html
  • Bismuth isoctoate used in sealants and adhesives and its impact on performance
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