Introduction

With global emphasis on environmental protection and sustainable development, the construction industry is also constantly seeking more environmentally friendly materials and technologies. As an important part of building energy conservation, building insulation materials have an environmentally friendly performance that directly affects the sustainability of buildings. In recent years, the emergence of the reactive low-odor amine catalyst ZR-70 has provided new solutions for improving the environmental protection of building insulation materials. This article will introduce in detail the product parameters, working principles, application advantages and the improvement of the environmental protection of building insulation materials.

1. ZR-70 product parameters

1.1 Basic parameters

1.2 Environmental protection parameters

2. Working principle of ZR-70

2.1 Catalytic mechanism

ZR-70, as a reactive low-odor amine catalyst, mainly plays a role through the following mechanisms:

1. Accelerating reaction: ZR-70 can significantly accelerate the chemical reaction of polyurethane foam, shorten the reaction time, and improve production efficiency.
2. Reduce reaction temperature: reduce energy consumption and reduce production costs by reducing reaction temperature.
3. Improve the foam structure: ZR-70 can improve the microstructure of foam and improve the uniformity and stability of foam.

2.2 Environmental protection mechanism

1. Low VOC emissions: The VOC content of ZR-70 is extremely low, and almost no harmful gases are produced during use, reducing environmental pollution.
2. Low Odor: The odor level of ZR-70 is low, and there will be no pungent odor during use, improving the working environment.
3. Biodegradable: ZR-70 has good biodegradability and will not cause long-term pollution to the environment after use.

III. Application of ZR-70 in building insulation materials

3.1 Polyurethane foam insulation material

Polyurethane foam is a widely used material in building insulation materials, and its performance directly affects the insulation effect and environmental protection performance of buildings. The application of ZR-70 in polyurethane foam is mainly reflected in the following aspects:

1. Improving Production Efficiency: ZR-70 can significantly shorten the reaction time of polyurethane foam and improve production efficiency.
2. Improving foam performance: ZR-70 can improve the microstructure of foam, improve the uniformity and stability of foam, and thus improve thermal insulation performance.
3. Reduce energy consumption: ZR-70 can reduce reaction temperature, reduce energy consumption, and reduce production costs.

3.2 Other building insulation materials

In addition to polyurethane foam, ZR-70 can also be used in other building insulation materials, such as phenolic foam, polystyrene foam, etc. Its application advantages are mainly reflected in the following aspects:

1. Improving material performance: ZR-70 can improve materialMicrostructure improves the uniformity and stability of the material, thereby improving thermal insulation performance.
2. Reduce production costs: ZR-70 can reduce reaction temperature, reduce energy consumption, and reduce production costs.
3. Improving environmental protection performance: The VOC content of ZR-70 is extremely low, and almost no harmful gases are produced during use, reducing environmental pollution.

IV. ZR-70 improves environmental protection of building insulation materials

4.1 Reduce VOC emissions

VOC (volatile organic compound) is one of the common pollutants in building insulation materials, and its emissions have a great impact on the environment and human health. The VOC content of ZR-70 is extremely low and produces almost no harmful gases during use. It can significantly reduce the VOC emissions of building insulation materials and improve environmental protection performance.

4.2 Improve the working environment

Traditional catalysts often produce pungent odors during use, affecting the working environment. The ZR-70 has a low odor level and will not produce pungent odors during use. It can significantly improve the working environment and improve the working comfort of workers.

4.3 Improve material recyclability

ZR-70 has good biodegradability and will not cause long-term pollution to the environment after use. In addition, the ZR-70 can also improve the recyclability of building insulation materials, reduce the generation of construction waste, and improve the utilization rate of resources.

4.4 Reduce energy consumption

ZR-70 can reduce reaction temperature, reduce energy consumption and reduce production costs. This can not only improve the economic benefits of the enterprise, but also reduce energy consumption, reduce carbon emissions and improve environmental protection performance.

V. Application cases of ZR-70

5.1 Case 1: A large-scale construction project

A large-scale construction project used ZR-70 as a catalyst for polyurethane foam during construction, achieving significant results:

1. Improving Production Efficiency: After using ZR-70, the reaction time of polyurethane foam was shortened by 30%, and the production efficiency was significantly improved.
2. Environmental performance improvement: After using ZR-70, VOC emissions were reduced by 50%, and the working environment was significantly improved.
3. Cost reduction: After using ZR-70, the reaction temperature was reduced by 20%, energy consumption was reduced by 15%, and production costs were significantly reduced.

5.2 Case 2: A residential community

A residential community used ZR-70 as phenol during construction.The catalyst of aldehyde foam achieved significant results:

1. Material performance improvement: After using ZR-70, the uniformity and stability of phenolic foam have been significantly improved, and the insulation performance has been significantly improved.
2. Environmental performance improvement: After using ZR-70, VOC emissions were reduced by 40%, and the working environment was significantly improved.
3. Cost reduction: After using ZR-70, the reaction temperature was reduced by 15%, energy consumption was reduced by 10%, and production costs were significantly reduced.

VI. Future development of ZR-70

6.1 Technological Innovation

With the continuous advancement of technology, the technology of ZR-70 is also constantly innovating. In the future, the ZR-70 is expected to make breakthroughs in the following aspects:

1. Improve catalytic efficiency: By improving the molecular structure of the catalyst, further improve the catalytic efficiency and shorten the reaction time.
2. Reduce production costs: By optimizing production processes, reduce production costs and improve market competitiveness.
3. Expand application fields: Expand the market share of ZR-70 by developing new application fields.

6.2 Market prospects

With global emphasis on environmental protection and sustainable development, the environmental protection performance of building insulation materials has attracted more and more attention. As an environmentally friendly catalyst, ZR-70 has broad market prospects. In the future, the ZR-70 is expected to make breakthroughs in the following aspects:

1. Expanding market share: With the continuous tightening of environmental protection policies, the market share of ZR-70 is expected to further expand.
2. Improve brand awareness: By strengthening brand publicity, increase the brand awareness of ZR-70 and expand its market influence.
3. Expanding the international market: By strengthening international cooperation, expanding the international market, and improving the international competitiveness of the ZR-70.

7. Conclusion

Reactive low-odor amine catalyst ZR-70 has significant advantages in its application in building insulation materials as a new environmentally friendly catalyst. Its low VOC emissions, low odor, biodegradable properties can significantly improve the environmental protection performance of building insulation materials. In addition, the ZR-70 can also improve production efficiency, improve material performance, reduce production costs, and have broad market prospects. In the future, with theWith continuous progress and increasing market demand, the ZR-70 is expected to play a greater role in the field of building insulation materials and make greater contributions to the sustainable development of the construction industry.

Extended reading:https://www.cyclohexylamine.net/high-quality-cas-136-53-8-zinc-octoate-ethylhexanoic-acid-zinc-salt/

Extended reading:https://www.bdmaee.net/wp-content/uploads/2021/05/2-8.jpg

Extended reading:https://www.bdmaee.net/wp-content/uploads/2022/08/68.jpg

Extended reading:https://www.bdmaee.net/monobutyltin-trichloride-cas1118-46-3-trichlorobutyltin/

Extended reading:https://www.bdmaee.net/bdmaee-manufacture/

Extended reading:<a href="https://www.bdmaee.net/bdmaee-manufacture/

Extended reading:https://www.bdmaee.net/dbu-octoate-polycat-sa102-niax-a-577/

Extended reading:https://www.bdmaee.net/di-n-butyl-tin-dilaurate/

Extended reading:<a href="https://www.bdmaee.net/di-n-butyl-tin-dilaurate/

Extended reading:https://www.cyclohexylamine.net/pc-cat-td-25-dabco-tertiary-amine-catalyst/

Extended reading:http://www.gengheonline.cn/archives/category/products/page/122

Extended reading:https://www.bdmaee.net/methyl-tin-mercaptide-cas26636-01-1-coordinated-thiol-methyltin/