Toluene diisocyanate manufacturer News Innovative application of environmentally friendly polyurethane soft foam catalysts in building sound insulation materials

Innovative application of environmentally friendly polyurethane soft foam catalysts in building sound insulation materials

Innovative application of environmentally friendly polyurethane soft foam catalysts in building sound insulation materials

Innovative application of environmentally friendly polyurethane soft foam catalysts in building sound insulation materials

Introduction

With the acceleration of urbanization and the improvement of people’s quality of life requirements, building sound insulation technology has become an indispensable part of modern architectural design. As a high-efficiency sound insulation material, polyurethane soft foam has been widely used in the field of building sound insulation. However, the catalysts used in the production process of traditional polyurethane soft foam often contain substances harmful to the human body and the environment, which not only limits its application scope, but also triggers widespread social concern about the safety of building materials. Therefore, the development of environmentally friendly polyurethane soft foam catalysts has become one of the research hotspots in the industry.

Polyurethane soft foam and its role in building sound insulation

Polyurethane soft foam is a porous structural material with good sound absorption properties. The principle is to absorb sound wave energy through the tiny bubbles inside the foam and convert it into heat energy, thus reducing the reflection and transmission of sound. This material can not only effectively reduce noise pollution inside and outside the building, but also improve the comfort of the space, which is of great significance for improving the living and working environment.

Sound-absorbing mechanism

The sound absorption mechanism of polyurethane soft foam mainly includes the following aspects:

  1. Sound wave entry: Sound waves travel through the air and enter the foam material.
  2. Sound wave scattering: The porous structure inside the foam causes sound waves to scatter multiple times, increasing the propagation path of sound waves in the material.
  3. Energy conversion: During the propagation process, sound waves interact with the foam wall, and part of the sound energy is converted into heat energy, which is absorbed by the material.
  4. Sound wave attenuation: After multiple scattering and energy conversion, the energy of sound waves gradually attenuates and is absorbed by the material or weakened to an acceptable level.
Application scenarios

The application scenarios of polyurethane soft foam in building sound insulation are very wide, including but not limited to:

  • Wall sound insulation: Polyurethane soft foam is filled inside the wall to effectively isolate external noise.
  • Ceiling Soundproofing: The soundproofing layer used on the ceiling to reduce noise interference between upstairs and downstairs.
  • Floor Sound Insulation: Lay polyurethane soft foam under the floor to reduce footsteps and other vibration noise.
  • Door and window sealing: Used to seal the gaps in doors and windows to prevent noise from intruding from the outside.

Limitations of traditional catalysts

Catalysts traditionally used to prepare polyurethane soft foam mainly include heavy metal salts such as organotin compounds. Although these catalysts can promote the reaction and speed up foam formation, they also have obvious shortcomings:

  1. Environmental impact: This type of catalyst will release toxic substances during production and use, causing pollution to the environment. For example, organotin compounds will produce toxic tin compounds after decomposition, causing serious pollution to water bodies and soil.
  2. Health risks: Long-term exposure to these chemicals may have adverse effects on human health, such as skin allergies, respiratory diseases, etc. Especially during construction, workers are exposed to these harmful substances and have higher health risks.
  3. Restricted use: Due to the above reasons, many countries and regions have severely restricted or even banned the use of this type of catalyst. For example, the EU REACH regulations strictly control the use of certain organotin compounds.

Progress in research and development of environmentally friendly catalysts

In order to overcome the problems caused by traditional catalysts, researchers began to explore new environmentally friendly catalysts. These catalysts are mainly divided into the following categories:

Bio-based catalyst

Bio-based catalysts use natural ingredients derived from vegetable oils or microorganisms as raw materials, and the catalysts developed are not only environmentally friendly, but also harmless to the human body. Common bio-based catalysts include:

  • Vegetable oil-based catalysts: Such as soybean oil, rapeseed oil, etc., which have good catalytic properties after chemical modification.
  • Microbial-based catalysts: Utilizing enzymes or other active substances produced by microbial fermentation, it has efficient catalysis and environmental friendliness.
Metal chelate catalyst

The complex formed by combining metal ions with organic ligands retains the activity of the metal catalyst and reduces the toxicity of the metal ions. Common metal chelate catalysts include:

  • Zinc chelates: Such as zinc-ethylenediaminetetraacetic acid (Zn-EDTA), which has good catalytic effect and low toxicity.
  • Iron chelate: Such as Fe-Citric Acid, suitable for the preparation of various polyurethane soft foams.
Non-metal catalyst

Including organic compounds such as amines and alcohols, as well as some inorganic acids and bases, these catalysts are equivalent to traditional catalysts in catalytic efficiency, and are safer and more environmentally friendly. Common non-metal catalysts include:

  • Amine catalysts: Such as triethylamine, dimethylcyclohexylamine, etc., which have good catalytic effect and low toxicity.
  • Alcohol catalyst: Such as isopropyl alcohol, butanol, etc., suitable for the preparation of different types of polyurethane soft foams.

Innovative application cases

Case 1: Application of bio-based catalysts in residential sound insulation projects

A well-known international building materials company uses a bio-based catalyst modified based on soybean oil in its new residential sound insulation solution. This catalyst not only meets the demand for efficient catalysis, but also significantly reduces production costs. More importantly, the entire production process achieves zero emissions, fully complying with green building standards.

Features Traditional Catalyst Bio-based catalyst
Catalytic efficiency High High
Cost Higher Moderate
Environmental impact Serious pollution Zero emissions
Security There is a certain risk Non-toxic and harmless
Case 2: Application of metal chelates in sound insulation engineering of commercial complexes

A large commercial real estate developer tried for the first time to use a new metal chelate catalyst to prepare polyurethane soft foam in its new commercial complex project. Practice has proven that this catalyst can not only effectively increase the density and strength of foam, but also significantly extend the service life of the material, greatly improving the economic and social benefits of the project.

Features Traditional Catalyst Metal chelate catalyst
Foam density General High
Strength General High
Service life Short Long
Economic benefits General Significant
Case 3: Application of non-metallic catalysts in theater sound insulation projects

A well-known theater used soft polyurethane foam prepared with non-metallic catalysts as sound insulation materials during the renovation process. This catalyst not only improves the sound absorption effect of the foam, but also greatly shortens the construction time and reduces the construction cost. In addition, due to the low toxicity and environmental friendliness of the non-metallic catalyst, the entire project has been highly recognized by the local government.

Features Traditional Catalyst Non-metal catalyst
Sound-absorbing effect General Excellent
Construction time Long Short
Construction Cost High Low
Environmental impact Serious pollution Low pollution

Technical advantages of environmentally friendly catalysts

Environmentally friendly catalysts have the following significant advantages over traditional catalysts:

  1. Environmentally friendly: Bio-based catalysts and non-metallic catalysts produce almost no toxic substances during production and use, and have minimal impact on the environment.
  2. High safety: These catalysts are harmless to the human body and will not cause health problems such as skin allergies and respiratory diseases. They are especially suitable for use in indoor environments.
  3. Cost Benefit: Although the initial R&D cost is high, with large-scale production and application, the cost gradually decreases, and the overall economic benefit is significant.
  4. Versatility: The environmentally friendly catalyst can not only be used in the preparation of polyurethane soft foam, but can also be applied to other types of polymer materials, with broad application prospects.

Future Outlook

With the advancement of science and technology and the increasing awareness of environmental protection, environmentally friendly polyurethane soft foam catalysts are gradually replacing traditional harmful substances and becoming the first choice in the field of building sound insulation materials. In the future, with the development and application of more new catalysts, we have reason to believe that polyurethane soft foam will play a greater role in building sound insulation and even wider fields, contributing to the creation of a more livable urban environment.

Technological development trends
  1. Efficient Catalysis: Further optimize the molecular structure of the catalyst, improve catalytic efficiency, shorten reaction time, and reduce energy consumption.
  2. Multi-functionalization: Develop catalysts with multiple functions, such as catalytic, antibacterial, fire-proof and other properties, to meet the needs of different application scenarios.
  3. Intelligent: Combining nanotechnology and smart materials to develop catalysts with self-healing, adaptive and other characteristics to improve the service life and performance stability of materials.
  4. Sustainable development: Continue to explore the use of renewable resources, develop more environmentally friendly and sustainable catalysts, and promote the development of green buildings.

Conclusion

The development and application of environmentally friendly polyurethane soft foam catalysts is an important innovation in the field of building sound insulation materials. These catalysts not only address the environmental and health concerns posed by traditional catalysts, but also improve the performance and economics of materials. In the future, with the continuous advancement of technology and the gradual promotion of the market, environmentally friendly catalysts will play an increasingly important role in building sound insulation materials, contributing to the realization of green buildings and sustainable development goals.

Extended reading:

Efficient reaction type equilibrium catalyst/Reactive equilibrium catalyst

Dabco amine catalyst/Low density sponge catalyst

High efficiency amine catalyst/Dabco amine catalyst

DMCHA – Amine Catalysts (newtopchem.com)

Dioctyltin dilaurate (DOTDL) – Amine Catalysts (newtopchem.com)

Polycat 12 – Amine Catalysts (newtopchem.com)

N-Acetylmorpholine

N-Ethylmorpholine

Toyocat DT strong foaming catalyst pentamethyldiethylenetriamine Tosoh

Toyocat DMCH Hard bubble catalyst for tertiary amine Tosoh

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