Epoxy curing agent News Application and performance optimization of bismuth isooctanoate in the preparation of polyurethane elastomers

Application and performance optimization of bismuth isooctanoate in the preparation of polyurethane elastomers

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Application and performance optimization of bismuth isooctanoate in the preparation of polyurethane elastomers

Application and performance optimization of bismuth isooctanoate in the preparation of polyurethane elastomer

Introduction

Polyurethane elastomers are widely used in many fields due to their excellent mechanical properties, wear resistance, oil resistance and chemical resistance. Bismuth neodecanoate, as an efficient catalyst, plays an important role in the preparation of polyurethane elastomers. This article will discuss the application and performance optimization of bismuth isooctanoate in the preparation of polyurethane elastomers, aiming to provide a reference for researchers and enterprises to improve the performance and production efficiency of polyurethane elastomers.

1. Basic characteristics of bismuth isooctanoate

  1. Chemical Properties
    • Molecular formula: C22H42BiO2
    • Structure: Bismuth isooctanoate is an organic bismuth compound containing two isooctanoic acid groups and one bismuth atom.
    • Solubility: Soluble in most organic solvents, insoluble in water.
    • Melting point: about 100°C
    • Boiling point: about 300°C
  2. Catalytic Performance
    • High efficiency: Bismuth isooctanoate has high catalytic performance and can significantly accelerate the reaction between isocyanate and polyol.
    • Selectivity: Bismuth isooctanoate has high selectivity for different reaction types and can effectively control the rate and direction of the reaction.
    • Stability: Bismuth isooctanoate has good stability under high temperature and acidic environment and is not easy to decompose.
  3. Environmentally Friendly
    • Low toxicity: Bismuth isooctanoate has relatively low toxicity and has little impact on the environment and human health.
    • Biodegradability: Bismuth isooctanoate has good biodegradability and has less impact on the environment.

2. Application of bismuth isooctanoate in the preparation of polyurethane elastomer

  1. Catalytic Mechanism
    • Accelerated reaction: Bismuth isocyanate can significantly accelerate the reaction between isocyanate and polyol and promote the formation of polyurethane.
    • Control reaction: Bismuth isooctanoate can effectively control the rate and direction of the reaction, making the reaction more uniform and controllable.
    • Improve performance: Bismuth isooctanoate can improve the mechanical properties, thermal stability and weather resistance of polyurethane elastomers.
  2. Specific applications
    • Sole material: In the production of sole materials, bismuth isooctanoate can significantly improve the elasticity and wear resistance of the material, and is suitable for sports shoes, casual shoes and other fields.
    • Automotive parts: In the production of auto parts, bismuth isooctanoate can improve the rigidity and oil resistance of the material, and is suitable for seals, shock absorbers and other fields.
    • Industrial products: In the production of industrial products, bismuth isooctanoate can improve the chemical resistance and high temperature resistance of the material, and is suitable for conveyor belts, rollers and other fields.

3. Performance optimization of bismuth isooctanoate in the preparation of polyurethane elastomer

  1. Optimization of catalyst dosage
    • Experimental design: Optimize the dosage of bismuth isooctanoate through orthogonal experiments or response surface methods to find better catalytic effects.
    • Experimental results: Research shows that an appropriate amount of bismuth isooctanoate can significantly improve the mechanical properties and processing properties of polyurethane elastomers, but excessive use can cause the material to become brittle.
  2. Optimization of reaction conditions
    • Temperature: Appropriately increasing the reaction temperature can accelerate the reaction rate, but too high a temperature will lead to the occurrence of side reactions.
    • Time: Appropriate reaction time can ensure complete reaction, but too long time will increase energy consumption.
    • Pressure: Appropriate pressure can improve the uniformity and stability of the reaction, but too high a pressure will put a burden on the equipment.
  3. Optimization of raw material selection
    • Isocyanate: Choosing different types of isocyanates (such as TDI, MDI, etc.) can adjust the properties of polyurethane elastomers.
    • Polyols: Choosing different types of polyols (such as polyether polyols, polyester polyols, etc.) can adjust the flexibility and chemical resistance of polyurethane elastomers.
    • Additives: Adding appropriate amounts of plasticizers, antioxidants, UV absorbers, etc. can further improve the performance of polyurethane elastomers.
  4. Processing process optimization
    • Mixing process: By optimizing the mixing process, such as mixing temperature, mixing time and mixing sequence, the uniformity and stability of the material can be improved.
    • Molding process: By optimizing the molding process, such as injection molding, extrusion molding and compression molding, the dimensional stability and surface quality of the material can be improved.
    • Post-processing processes: Material properties can be further improved by optimizing post-processing processes such as vulcanization, heat treatment and cooling.

4. Case analysis

  1. Sole material��
    • Case Background: A shoe material manufacturer uses bismuth isooctanoate as a catalyst when producing high-performance sole materials.
    • Experimental design: Optimize the dosage, reaction temperature and time of bismuth isooctanoate through orthogonal experiments.
    • Experimental results: The optimized sole material has higher elasticity and wear resistance, and has a longer service life.
    • Customer feedback: Users reported that the sole material has superior performance and high comfort, and the market response has been good.
  2. Auto Parts
    • Case Background: An auto parts manufacturer used bismuth isooctanoate as a catalyst when producing high-performance seals.
    • Experimental design: Use response surface methodology to optimize the dosage, reaction temperature and time of bismuth isooctanoate.
    • Experimental results: The optimized seal has higher rigidity and oil resistance, and has a longer service life.
    • Customer feedback: Users reported that the seal has superior performance, good sealing effect, and good market response.
  3. Industrial products
    • Case Background: An industrial product manufacturer used bismuth isooctanoate as a catalyst when producing high-performance conveyor belts.
    • Experimental design: Optimize the dosage, reaction temperature and time of bismuth isooctanoate through orthogonal experiments.
    • Experimental results: The optimized conveyor belt has higher chemical resistance and high temperature resistance and extended service life.
    • Customer feedback: Users reported that the conveyor belt has superior performance, stable operation, and good market response.

5. Conclusions and suggestions

Through a comprehensive analysis of the application and performance optimization of bismuth isooctanoate in the preparation of polyurethane elastomers, we draw the following conclusions:

  1. Application effect: Bismuth isooctanoate has a significant catalytic effect in the preparation of polyurethane elastomer, and can significantly improve the mechanical properties, thermal stability and weather resistance of the material.
  2. Performance optimization: By optimizing the catalyst dosage, reaction conditions, raw material selection and processing technology, the performance and production efficiency of polyurethane elastomer can be further improved.
  3. Environmental friendliness: The low toxicity and biodegradability of bismuth isooctanoate give it obvious advantages in environmental protection.

Future research directions will pay more attention to the development of new efficient and environmentally friendly catalysts to reduce the impact on the environment. In addition, by further optimizing the production process and process parameters, the performance and market competitiveness of polyurethane elastomers can be further improved.

6. Suggestions

  1. Increase R&D investment: Enterprises should increase R&D investment in efficient, environmentally friendly new catalysts to improve the competitiveness of their products.
  2. Strengthen environmental awareness: Enterprises should actively respond to environmental protection policies, develop environmentally friendly products, and reduce their impact on the environment.
  3. Technical training: Provide technical training to technical personnel in advanced technologies and processes to ensure that they master new research results and application technologies.
  4. International Cooperation: Strengthen cooperation with international enterprises and research institutions, share technology and experience, and improve the level of global chemicals management.

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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