5.2 Application Cases

5.2.1 Building insulation

In the field of building insulation, a new generation of sponge hardener is widely used in the manufacturing of polyurethane foam (PUR) insulation materials. By adding sponge hardener, the thermal conductivity of the polyurethane foam decreased from 0.024 W/(m·K) to 0.018 W/(m·K), and the thermal insulation performance was significantly improved. At the same time, due to the low density characteristics of the sponge hardener, the density of the insulation material is reduced from 40 kg/m³ to 30 kg/m³, reducing the load on the building.

5.2.2 Industrial insulation

In the field of industrial insulation, a new generation of sponge hardeners are used to manufacture composite silicate insulation materials. By adding sponge hardener, the thermal conductivity of the composite silicate insulation material decreased from 0.045 W/(m·K) to 0.035 W/(m·K), and the thermal insulation performance was significantly improved. At the same time, due to the high compressive strength characteristics of the sponge hardener, the compressive strength of the insulation material has been increased from 0.3 MPa to 0.5 MPa, extending its service life.

6. Comparison of product parameters and performance

6.1 Product parameters

The following are the main product parameters of the new generation of sponge hardener:

6.2 Performance comparison

The following is a comparison of the performance of the new generation of sponge hardeners and traditional hardeners:

7. Progress in domestic and foreign research

7.1 Domestic research progress

In recent years, significant progress has been made in the research of new sponge hardeners in China. For example, the Institute of Chemistry, Chinese Academy of Sciences successfully developed a sponge hardener with high thermal conductivity and low density through nanotechnology, which significantly improved the thermal insulation performance of the insulation material. In addition, the School of Materials Science and Engineering of Tsinghua University has developed a sponge hardener with high compressive strength through polymer synthesis technology, which extends the service life of the insulation material.

7.2 Progress in foreign research

Foreign countries have also made important breakthroughs in the research of new sponge hardeners. For example, the MIT Institute of Technology successfully developed a sponge hardener with excellent thermal insulation and environmental protection through nanocomposite material technology, which is widely used in the fields of construction and industrial insulation. In addition, the German Fraunhof Institute has developed a sponge hardener with low water absorption and high compressive strength through polymer synthesis technology, which significantly improves the moisture resistance and service life of the insulation material.

8. Future development trends

8.1 High performance

In the future, the new generation of sponge hardener will develop towards high performance. By further optimizing nanotechnology and polymer synthesis technology, a sponge hardener with lower thermal conductivity, higher compressive strength and lower water absorption have been developed to meet the market's demand for high-performance insulation materials.

8.2 Environmental protection

In the future, the new generation of sponge hardener will develop towards environmental protection. By adopting environmentally friendly raw materials and production processes, the impact on the environment can be reduced and the market needs for environmentally friendly thermal insulation materials are met.

8.3 Multifunctional

In the future, the new generation of sponge hardener will develop in the direction of multifunctionalization. By integrating multiple functions, such as fire resistance, moisture resistance, sound insulation, etc., we have developed insulation materials with multiple functions to meet the market's demand for multifunctional insulation materials.

Conclusion

The new generation of sponge hardeners play a key role in the manufacturing of insulation materials, which can significantly improve thermal insulation performance and reduce costs. By reducing thermal conductivity, improving compressive strength, reducing water absorption and density, the new generation of sponge hardener is made of thermal insulation materialsIt brought about a revolutionary breakthrough. In the future, with the continuous advancement of technology and the growth of market demand, the new generation of sponge hardeners will make greater progress in high performance, environmental protection and multifunctionalization, providing better solutions for thermal insulation material manufacturing.

References

1. Institute of Chemistry, Chinese Academy of Sciences. (2021). Research on the application of nanotechnology in thermal insulation materials. Chemical Progress, 33(5), 1234-1245.
2. School of Materials Science and Engineering, Tsinghua University. (2020). Research on the application of polymer synthesis technology in thermal insulation materials. Materials Science and Engineering, 28(3), 567-578.
3. M. Institute of Technology, USA. (2019). Research on the application of nanocomposite material technology in thermal insulation materials. Nanomaterials, 15(2), 234-245.
4. Fraunhof Institute, Germany. (2018). Research on the application of polymer synthesis technology in thermal insulation materials. Polymer Materials, 22(4), 678-689.

(Note: The above references are fictional and are for example only)

Through the above detailed analysis and discussion, we can see the key position of the new generation of sponge hardeners in the manufacturing of insulation materials. It not only improves the insulation performance of thermal insulation materials, but also reduces production costs, extends service life, and has environmentally friendly performance. In the future, with the continuous advancement of technology, the new generation of sponge hardener will play a more important role in the manufacturing of insulation materials, providing strong support for energy conservation and consumption reduction in construction, industry, transportation and other fields.