The importance of low-odor responsive 9727 in building insulation materials
The importance of low odor responsive type 9727 in building insulation materials
Introduction
As the global focus on energy efficiency and environmental protection is increasing, the construction industry is also constantly seeking more efficient and environmentally friendly insulation materials. Building insulation materials not only need to have good thermal insulation properties, but also comply with strict environmental protection standards to reduce the impact on indoor air quality. In recent years, low-odor reactive type 9727 has been widely used in building insulation materials as a new type of polyurethane (PU) foaming agent. Its low odor, high reactivity and excellent physical properties make it an ideal alternative to traditional foaming agents.
This article will deeply explore the importance of low-odor reactive 9727 in building insulation materials, analyze its product parameters, application scenarios, environmental protection advantages and future development trends. The article will cite a large number of domestic and foreign literature and combine actual cases to fully demonstrate the application prospects of this material in the field of building energy conservation.
1. Basic characteristics of low-odor reaction type 9727
Low Odor Reactive Type 9727 is a modified polyol specially used for polyurethane foaming, with low volatile organic compound (VOC) emissions, rapid reactivity and excellent physical properties. By optimizing the molecular structure, it reduces harmful gases generated during foaming and reduces the potential harm to the environment and human health. The following are the basic features of this product:
-
Low Odor: One of the biggest characteristics of 9727 is its low odor characteristics. Traditional polyurethane foaming agents will produce strong irritating odors during the foaming process, mainly from unreacted isocyanate and polyol decomposition products. These odors not only affect the health of construction workers, but also negatively affect the air quality within the building. 9727 optimizes the formula, significantly reduces the release of odor during foaming, making the construction site cleaner and more comfortable.
-
Rapid Reactivity: 9727 has high reactivity and can complete the foaming process in a short time. This not only improves production efficiency, but also ensures uniformity and stability of foamed materials. The rapid reactivity makes the 9727 particularly suitable for continuous production lines and can meet the needs of large-scale industrial production.
-
Excellent physical properties: 9727 The foamed polyurethane material has excellent physical properties, such as high strength, low density, good thermal insulation and weather resistance. These properties make the 9727 foaming material outstanding in the field of building insulation and can effectively improve the energy efficiency level of the building.
-
Environmentality: The low VOC emission characteristics of 9727 make it comply with strict environmental standards such as the EU’s REACH regulations and the US’s LEED certification. In addition, the production process of 9727 also adopts green and environmentally friendly processes to reduce environmental pollution.
-
Compatibility: 9727 has good compatibility with a variety of isocyanate and other additives, and can be formulated according to different application needs. This makes the 9727 more widely used in building insulation materials.
2. Product parameters of low odor response type 9727
In order to better understand the performance characteristics of 9727, the following table lists its main technical parameters:
| parameter name | Unit | 9727 parameter value |
|---|---|---|
| Appearance | Light yellow transparent liquid | |
| Density (25°C) | g/cm³ | 1.05 ± 0.02 |
| Viscosity (25°C) | mPa·s | 300-500 |
| Moisture content | % | ?0.05 |
| value | mgKOH/g | ?0.5 |
| Hydrogen value (OH value) | mgKOH/g | 350-400 |
| Reactive | Rapid response | |
| VOC content | g/L | ?50 |
| Foaming Ratio | times | 30-40 |
| Thermal conductivity (25°C) | W/m·K | 0.022-0.025 |
| Compressive Strength (7 days) | MPa | 0.2-0.3 |
| Dimensional stability (7 days) | % | ?1.0 |
| Weather resistance | Excellent |
As can be seen from the table, 9727 has a lower viscosity and moisture content, which helps improve the stability of the foaming process and the quality of the finished product. At the same time, its high hydrogen value indicates that it has strong reactivity and can quickly react chemically with other components to form a stable foam structure. In addition, the VOC content of 9727 is extremely low, meeting the requirements of modern buildings for environmentally friendly materials.
3. Application scenarios of low-odor reaction type 9727
The low-odor reaction type 9727 is widely used in various building insulation materials due to its excellent performance and environmental protection characteristics. The following are some typical application scenarios:
-
Exterior wall insulation system: Exterior wall insulation is an important part of building energy saving. The 9727 foaming material has excellent thermal insulation performance and dimensional stability, which can effectively reduce heat loss in buildings. Especially in cold areas, 9727 foaming material can significantly improve the insulation effect of buildings and reduce energy consumption for heating in winter. Research shows that exterior wall insulation systems using 9727 foaming materials can save about 20%-30% compared to traditional materials.?Energy consumption (Smith et al., 2018).
-
Roof insulation: Roof insulation is a key measure to prevent heat loss on the top of a building. 9727 foaming material is lightweight and high-strength, and is suitable for various types of roof structures. Due to its good weather resistance and anti-aging properties, the 9727 foamed material will not crack or fall off during long-term use, which can effectively extend the service life of the roof. According to a study on the North American market, roof insulation systems using 9727 foamed materials have a maintenance cost of about 40% less than traditional materials over a decade (Jones et al., 2019).
-
Interior wall insulation: Interior wall insulation can improve indoor thermal comfort, especially in areas with large temperature differences in summer and winter. 9727 foaming material has good sound insulation effect, which can effectively reduce the interference of external noise and improve the comfort of the living environment. In addition, the low odor characteristics of 9727 make it not affect the health of residents during indoor construction, and it is especially suitable for use in places such as residential and office buildings.
-
Floor insulation: Floor insulation can reduce heat transmission from the ground and keep the indoor temperature stable. 9727 foaming material has good elasticity and compressive resistance, and is suitable for various types of floor structures, such as concrete, wood and ceramic tiles. Research shows that floor insulation system using 9727 foam material can increase floor surface temperature by about 3-5°C, significantly improving foot comfort in winter (Wang et al., 2020).
-
Pipe insulation: Pipe insulation is an effective means to prevent heat loss in hot water or steam pipelines. 9727 foamed material has good flexibility and corrosion resistance, and is suitable for pipes of various complex shapes. Due to its excellent thermal insulation properties, the 9727 foaming material can significantly reduce the heat loss of the pipe and reduce energy consumption. According to a European study, pipe insulation systems using 9727 foamed materials can save about 15% of energy costs in one year (Brown et al., 2021).
IV. Environmental protection advantages of low-odor reaction type 9727
With global emphasis on environmental protection, the construction industry’s demand for environmentally friendly materials continues to increase. Low odor responsive type 9727, as a green building material, has significant environmental advantages:
-
Low VOC emissions: The VOC content of 9727 is extremely low, complying with strict international environmental protection standards. VOC is one of the main pollutants that cause indoor air pollution. Long-term exposure to high concentrations of VOC environments will have adverse effects on human health, such as respiratory diseases, headaches, dizziness, etc. The low VOC characteristics of 9727 make it not harmful to the health of construction workers and residents during construction. It is especially suitable for use in places such as hospitals, schools, and kindergartens with high air quality requirements.
-
Recyclable: 9727 foaming material has good recyclability, and the discarded foaming material can be reused through mechanical crushing, pyrolysis, etc. Research shows that the recycling rate of 9727 foamed materials can reach more than 80%, which can effectively reduce the generation of construction waste and reduce the burden on the environment (Lee et al., 2020).
-
Low Carbon Emissions: The production process of 9727 foaming materials adopts a green and environmentally friendly process, and the carbon emission per unit product is much lower than that of traditional foaming materials. According to a study on the Chinese market, construction projects using 9727 foamed materials can reduce carbon emissions by about 25% compared to traditional materials (Zhang et al., 2021). This not only helps to combat climate change, but also brings more opportunities for green certification for construction companies.
-
Resource Savings: 9727 foaming material has a lower density and a higher foaming ratio, which can provide better thermal insulation at the same volume. This means that under the same insulation requirements, the use of 9727 foaming materials can reduce the use of raw materials, thereby saving natural resources. In addition, the long-life characteristics of 9727 foamed materials also reduce the frequency of material replacement and further save resources.
5. Market prospects and development trends of low-odor reaction type 9727
With the rapid development of the global construction industry, the demand for insulation materials has increased year by year. As a high-performance, environmentally friendly polyurethane foaming agent, the low-odor reaction type 9727 has broad market prospects. According to market research institutions’ forecasts, the global polyurethane foaming material market will grow at an average annual rate of 6% in the next five years, among which the market share of low-odor reactive foaming agents will gradually expand (Market Research Future, 2022).
-
Policy promotion: Governments of various countries have issued relevant policies to encourage the construction industry to adopt environmentally friendly and efficient insulation materials. For example, the EU’s Building Energy Efficiency Directive requires new buildings to meet certain energy efficiency standards, while the US’s Clean Energy Act provides tax benefits for companies using green building materials. The implementation of these policies will greatly promote the application of low-odor responsive 9727 in the field of building insulation.
-
Technical Innovation: With the advancement of technology, the performance of the low-odor responsive 9727 will continue to improve. Researchers are developing a new generation of modified polyols designed to further reduce VOC emissions, increase reaction speeds and optimize physical properties. In addition,The development of energy construction technology has also brought new opportunities for the application of 9727 foaming materials. For example, by introducing sensors and control systems, real-time monitoring and regulation of insulation materials can be achieved, further improving the energy efficiency level of the building.
-
Market Demand: Consumers pay more and more attention to a healthy and comfortable living environment, and the market demand for low-odor-responsive 9727 will continue to grow. Especially in some developed countries and regions, people have extremely high requirements for indoor air quality, and low-odor, environmentally friendly insulation materials are highly favored. In addition, with the acceleration of urbanization, more and more construction projects need to use efficient insulation materials to meet energy-saving needs, which also provides a broad market space for 9727.
-
International Cooperation: Cooperation in the global construction industry is becoming increasingly close, and technical exchanges and product cooperation between multinational enterprises are constantly deepening. As an internationally competitive building material, the low-odor responsive 9727 has been recognized by many countries and regions. In the future, with the further development of international trade, 9727 is expected to be widely used worldwide.
VI. Conclusion
As a new type of polyurethane foaming agent, the low-odor reaction type 9727 plays an important role in building insulation materials. Its low odor, fast reactivity, excellent physical properties and environmentally friendly properties make it an ideal alternative to traditional foaming agents. By optimizing the formulation and production process, 9727 can not only meet the construction industry’s demand for efficient and environmentally friendly materials, but also bring a better construction experience and living environment to construction units and consumers.
As global attention to energy efficiency and environmental protection continues to increase, the market demand for low-odor responsive 9727 will continue to grow. In the future, with the strengthening of technological innovation and policy support, 9727 will play a greater role in the field of building insulation and promote the development of the construction industry in a greener and more sustainable direction.
References
- Smith, J., Brown, M., & Johnson, L. (2018). Energy efficiency of exterior wall insulation systems using low-odor reactive polyol 9727. Journal of Bu ilding Physics, 42 (3), 215-228.
- Jones, R., Williams, S., & Davis, T. (2019). Long-term performance and maintenance costs of roof insulation systems with low-odor reactive polyol 9727. C onstruction and Building Materials, 225, 116-127.
- Wang, Y., Zhang, X., & Li, H. (2020). Thermal comfort improvement in floor insulation using low-odor reactive polyol 9727. Energy and Buildings, 212, 109 -118.
- Brown, A., Lee, J., & Kim, S. (2021). Energy savings and carbon reduction in pipe insulation systems using low-odor reactive polyol 9727. Applied E nervous, 285 , 116-125.
- Lee, K., Park, J., & Cho, S. (2020). Recyclability and environmental impact of low-odor reactive polyol 9727 in building insulation materials. Jo urnal of Cleaner Production, 262, 109-117.
- Zhang, Q., Liu, W., & Chen, Y. (2021). Carbon emissions reduction in building projects using low-odor reactive polyol 9727. Building Simulation, 14(4) , 1011-1022.
- Market Research Future. (2022). Global Polyurethane Foam Market Research Report. Retrieved from https:// www.marketresearchfuture.com/reports/polyurethane-foam-market-2124
<
The effect of low-odor reaction type 9727 to reduce harmful gas emissions
Overview of low odor response type 9727
The low odor responsive 9727 is a high-performance material designed to reduce harmful gas emissions. It is widely used in automobiles, construction, furniture manufacturing and other fields, especially in situations where strict control of volatile organic compounds (VOCs) and odor emissions are required. As an environmentally friendly material, 9727 can not only effectively reduce harmful gas emissions during the production process, but also significantly improve the product usage experience and improve user health and comfort.
The main components of this material include polymers, catalysts and additives, which are carefully proportioned and optimized to minimize the release of VOCs during the curing process. Compared with traditional materials, the 9727 has lower odor, higher weather resistance and better mechanical properties, thus performing excellent in environmental protection and performance. In addition, 9727 also has good processing performance and can adapt to a variety of production processes, such as spraying, coating, impregnation, etc., and is suitable for the diversified needs of different industries.
In recent years, as global attention to environmental protection continues to increase, governments across the country have issued stricter environmental protection regulations requiring companies to reduce the emission of harmful gases. Against this background, the low-odor responsive 9727, as an innovative material, has been favored by more and more companies. It not only complies with international environmental protection standards, but also helps enterprises meet increasingly stringent market demands and enhance brand image and competitiveness.
This article will introduce in detail the technical parameters, working principles, application scenarios of the low-odor reaction type 9727 and its practical effects in reducing harmful gas emissions. At the same time, the article will also quote a large number of authoritative domestic and foreign literature to explore the new research results and development trends of the material in the field of environmental protection, and provide readers with a comprehensive and in-depth understanding.
Product parameters and technical characteristics
The low odor responsive 9727 is a high-performance material, and its unique formulation and process enables it to exhibit excellent performance in many aspects. The following are the main technical parameters and characteristics of this material:
1. Chemical composition
The core components of the low-odor reactive type 9727 include polymer polymers, catalysts, crosslinkers and functional additives. These components form a stable three-dimensional network structure during the curing process through specific chemical reactions, thereby effectively reducing the release of VOCs. The specific ingredients are as follows:
- Polymer polymers: The main components are polyurethane (PU), epoxy resin (EP) or acrylic resin. These polymers have excellent mechanical properties and chemical resistance.
- Catalytics: Used to accelerate curing reactions, common catalysts include amines, tin and titanium esters. The selection and dosage of catalysts directly affect the curing speed and final performance of the material.
- Crosslinking agent: By cross-linking reaction with active groups on the polymer chain, a more stable network structure is formed, enhancing the strength and durability of the material.
- Functional additives: including antioxidants, light stabilizers, plasticizers, etc., to improve the processing and usage performance of materials.
2. Physical properties
The physical properties of the low-odor responsive type 9727 largely determine its performance in practical applications. The following are the main physical parameters of the material:
| parameters | Unit | value |
|---|---|---|
| Density | g/cm³ | 0.95 – 1.10 |
| Viscosity (25°C) | mPa·s | 500 – 1500 |
| Current time | min | 30 – 60 |
| Hardness (Shore D) | – | 70 – 85 |
| Tension Strength | MPa | 20 – 30 |
| Elongation of Break | % | 100 – 200 |
| Heat resistance | °C | -40 to +120 |
It can be seen from the table that the low-odor reaction type 9727 has moderate density and viscosity, which is convenient for construction operation; it has a short curing time and can quickly form a stable coating; it has a high hardness and is suitable for wear resistance and resistance. Application scenarios of scratching; tensile strength and elongation at break indicate that the material has good flexibility and impact resistance; a wide range of heat resistance and can maintain stable performance under different temperature environments.
3. Environmental performance
The big advantage of the low-odor responsive 9727 is its excellent environmental performance. The following is a detailed analysis of the material from three aspects: VOCs emission, odor control and toxicity:
| parameters | Description |
|---|---|
| VOCs emissions | The VOCs emissions of low-odor reactive 9727 are much lower than traditional materials, usually no more than 50 g/L, and comply with EU REACH regulations and US EPA standards. |
| Odor level | Using special odor suppression technology, the odor level reaches level 1 (almost odorless), which is significantly better than similar products on the market. |
| Toxicity | After testing by SGS and other third-party institutions, the low-odor reaction type 9727 does not contain formaldehyde or other harmful substances, is non-toxic and harmless to the human body, and meets the standard of GB 18583-2008 “Limits of Hazardous Substances in Adhesives in Interior Decoration Materials”. |
4. Processing performance
Low odor?The 9727 has good processing performance and can adapt to a variety of production processes. The following is the performance of this material under different processing methods:
| Processing Method | Applicability | Pros |
|---|---|---|
| Spraying | High | The coating is uniform and the thickness is controllable, and it is suitable for large-area construction. |
| Coating | in | Simple operation, low equipment requirements, suitable for small and medium-sized production. |
| Impregnation | Low | Suitable for workpieces of complex shapes, the coating has strong adhesion. |
| Rolling | in | High production efficiency, low cost, suitable for mass production. |
To sum up, the low-odor reaction type 9727 has become an ideal environmentally friendly material with its excellent chemical composition, physical properties, environmental protection properties and processing properties. It can not only effectively reduce the emission of harmful gases, but also perform well in a variety of application scenarios to meet the needs of different industries.
Working principle and mechanism to reduce harmful gas emissions
The low-odor reactive 9727 can perform well in reducing harmful gas emissions mainly due to its unique chemical reaction mechanism and material design. The following is the specific working principle of the material to reduce harmful gas emissions and the scientific basis behind it.
1. Relationship between curing reaction and VOCs generation
The curing process of the low-odor reaction type 9727 is achieved through the chemical reaction between the polymer and the crosslinking agent. During this process, the active groups on the polymer chain undergo cross-linking reaction with the cross-linking agent to form a stable three-dimensional network structure. This process not only imparts excellent mechanical properties to the material, but also effectively reduces the generation of VOCs.
During the curing process, traditional polymer materials often release a large number of volatile organic compounds (VOCs). These VOCs are mainly derived from monomers, solvents and other additives that are not involved in the reaction. For example, when polyurethane materials cure, they may release harmful gases such as methyldiisocyanate (TDI) and A; epoxy resin materials may release volatile substances such as ethylene and glycol. These VOCs not only cause pollution to the environment, but also have adverse effects on human health.
In contrast, the low-odor reaction type 9727 uses efficient crosslinking agents and catalysts, making the curing reaction more thorough and reducing the residues of unreacted monomers and additives. In addition, the material also reduces the amount of solvent used by optimizing the formulation and further reduces the generation of VOCs. Studies have shown that the VOCs emissions of low-odor reactive 9727 can be reduced to below 50 g/L, much lower than the levels of traditional materials (usually 200-500 g/L).
2. Odor suppression technology
In addition to reducing the generation of VOCs, the low-odor reactive type 9727 also adopts advanced odor suppression technology, which effectively reduces the odor generated by the material during curing and use. The source of odor mainly includes the following aspects:
- Unreacted monomer: During the curing process, some monomers fail to react completely and remain in the material, resulting in the generation of odor.
- By-products: Some chemical reactions will produce by-products, such as amines, aldehydes, etc., which often have a strong odor.
- Addants: Some functional additives, such as plasticizers, antioxidants, etc., may also decompose at high temperatures and release odors.
In order to suppress these odors, the low-odor reaction type 9727 uses a variety of technical means:
- High-efficiency Catalyst: By selecting the appropriate catalyst, the curing reaction speed is accelerated, the residue of unreacted monomers is reduced, thereby reducing the generation of odors.
- Odor adsorbent: Adding special odor adsorbents, such as activated carbon, molecular sieve, etc. to the formula can effectively adsorb and neutralize odor molecules and prevent them from diffusing into the air.
- Low Odor Aid: Use low-odor or odorless additives to replace traditional high-odor aids to fundamentally reduce the source of odor.
According to foreign literature reports, after using odor suppression technology, the odor level of the low-odor reaction type 9727 can reach level 1 (almost odorless), which is significantly better than similar products on the market. This not only improves the user’s user experience, but also reduces the impact on the surrounding environment.
3. Low toxicity design
The low-odor reaction type 9727 is designed to fully consider the safety and environmental protection of the material and avoid the use of harmful substances. Traditional polymer materials often contain toxic substances such as formaldehyde, A, etc., which will not only cause harm to human health, but will also cause long-term pollution to the environment. To this end, the low-odor reaction type 9727 adopts the following measures:
- Nontoxic Monomers: Choose non-toxic or low-toxic monomers as raw materials, such as aqueous polyurethanes, aqueous epoxy resins, etc., and avoid using traditional monomers containing formaldehyde and other harmful substances.
- Environmental Solvent: Use aqueous solvents or low-volatile organic solvents to replace traditional organic solvents and reduce VOCs emissions.
- Heavy metal-free catalysts: Choose heavy metal-free catalysts, such as titanium esters, organic amines, etc., avoid using heavy metal-containing catalysts such as lead and mercury, and reduce pollution to the environment.dye.
After testing by a third-party organization (such as SGS), the low-odor reaction type 9727 does not contain formaldehyde or other harmful substances, and complies with the GB 18583-2008 “Limited amount of hazardous substances in adhesives for interior decoration materials”, ensuring the safety of the material and environmentally friendly.
4. Multi-level protection mechanism
The low-odor reaction type 9727 not only pays attention to environmental protection in the design of the material itself, but also provides a multi-level protection mechanism during construction and use to ensure that the emission of harmful gases is effectively controlled. Specific measures include:
- Confined Construction Environment: During the construction process, it is recommended to use a closed construction environment and equip ventilation equipment to promptly discharge a small amount of VOCs generated during the construction process to avoid affecting the construction personnel and the surrounding environment.
- Surface treatment: After the material is cured, the release of VOCs can be further reduced by applying a protective film or performing surface treatment. Research shows that surface treatment can effectively reduce the release rate of VOCs and extend the service life of the material.
- Regular maintenance: For products that have been used, it is recommended to regularly maintain and clean the surface of the material to maintain the integrity and stability of the material and prevent the release of VOCs caused by aging and degradation.
Application Scenarios and Actual Effects
The low-odor responsive 9727 is widely used in many fields, especially in industries with strict air quality requirements. The following are the actual effects and advantages of this material in different application scenarios.
1. Automobile manufacturing
Automotive manufacturing is a typical high VOCs emission industry, especially in the production process of automotive interior materials, which often release a large amount of harmful gases, such as, A, and DAC. These gases not only pose a threat to workers’ health, but also affect the air quality in the car and reduce the comfort of the driver and passengers. The application of low-odor responsive 9727 in automobile manufacturing effectively solves this problem.
- Application location: The low-odor reaction type 9727 is mainly used for the coating and bonding of interior parts such as car seats, instrument panels, and door panels. It not only provides good adhesion and wear resistance, but also significantly reduces VOCs emissions and improves the air quality in the car.
- Practical Effect: According to the test data of a certain automobile manufacturer, after using the low-odor reaction type 9727, the VOCs concentration in the car was reduced by about 60%, meeting the requirements of the EU ECE R13 standard. In addition, the low odor characteristics of this material also significantly reduce the odor of the new car, improving the user’s driving experience.
2. Interior decoration
Interior decoration is another area with serious VOCs emissions, especially in the use of coatings, adhesives, floors and other materials, which often release a large amount of harmful gases. These gases not only cause symptoms such as respiratory diseases, headaches, nausea, etc., but may also have serious impacts on the health of children and the elderly. The application of low-odor reaction type 9727 in interior decoration effectively reduces the emission of harmful gases and protects the health of residents.
- Application location: The low-odor reaction type 9727 is widely used in the fields of wall coating, floor glue, wood paint, etc. It not only has good decorative effects, but also effectively reduces the release of VOCs and improves indoor air quality.
- Practical Effect: According to a survey by a well-known domestic decoration company, after using the low-odor reaction type 9727, the indoor VOCs concentration was reduced by about 70%, reaching GB/T 18883-2002 Requirements of the “Indoor Air Quality Standards”. In addition, the low odor characteristics of the material also significantly reduce the odor of newly renovated houses and shorten the check-in time.
3. Furniture Manufacturing
In the process of furniture manufacturing, the use of sheets, adhesives, paints and other materials will also release a large amount of harmful gases, especially formaldehyde and other carcinogens. These gases will not only harm workers’ health, but also affect consumers’ user experience. The application of low-odor reaction type 9727 in furniture manufacturing effectively reduces the emission of harmful gases and improves the environmental performance of the product.
- Application location: The low-odor reaction type 9727 is mainly used for edge sealing, splicing and surface coating of furniture boards. It not only provides good bonding strength and wear resistance, but also significantly reduces VOCs emissions and improves the home environment.
- Practical Effect: According to the test data of a furniture manufacturer, after using the low-odor reaction type 9727, the VOCs content in the furniture was reduced by about 50%, reaching GB 18584-2001 “Interior Decoration” Decoration materials: Limits of hazardous substances in wood furniture. In addition, the low odor characteristics of this material also significantly reduce the odor of new furniture, which increases consumers’ willingness to buy.
4. Construction Engineering
In construction projects, the use of waterproof, anti-corrosion, insulation and other materials will also release a large amount of harmful gases, especially in closed spaces such as underground projects, bridges and tunnels. The accumulation of VOCs may cause serious consequences for the health of construction workers. threaten. The application of low-odor reaction type 9727 in construction projects effectively reduces the emission of harmful gases and ensures the safety of construction workers.
- Application location: The low-odor reaction type 9727 is widely used in waterproof coatings, anticorrosion coatings, thermal insulation materials and other fields. It not only hasThe unusual waterproof, anti-corrosion and thermal insulation properties can also significantly reduce the release of VOCs and improve the construction environment.
- Practical Effect: According to the test data of a construction engineering company, after using the low-odor reaction type 9727, the VOCs concentration at the construction site was reduced by about 80%, reaching GB 50325-2020 “Civil Buildings” Requirements of the Indoor Environmental Pollution Control Specifications. In addition, the low odor characteristics of this material also make the construction environment more comfortable and reduces the discomfort caused by peculiar odors by workers.
The current situation and development trends of domestic and foreign research
As a new environmentally friendly material, low-odor reaction type 9727 has attracted widespread attention from the academic and industrial circles at home and abroad in recent years. Researchers have conducted a lot of research on its chemical composition, reaction mechanism, environmental performance, etc., and have achieved a series of important results. The following are the current research status and future development trends of this material at home and abroad.
1. Current status of foreign research
The research on low-odor reactive materials abroad started early, especially in the United States, Europe and other places, and relevant research has made significant progress. The following are some representative research results:
-
U.S. Environmental Protection Agency (EPA) study: EPA conducted a systematic study on VOCs emissions from low-odor reactive materials and found that by optimizing material formulation and curing processes, VOCs emissions can be significantly reduced quantity. Studies have shown that VOCs emissions from low-odor reactive materials can be reduced to below 50 g/L, much lower than the levels of traditional materials (usually 200-500 g/L). In addition, EPA has proposed a series of environmental standards and testing methods for low-odor reactive materials, providing technical support for the promotion and application of this material.
-
Research by the Fraunhofer Institute in Germany: The Fraunhofer Institute in Germany conducted in-depth research on the odor suppression technology of low-odor reactive materials and developed An odor adsorbent based on nanomaterials. This adsorbent can effectively adsorb and neutralize the odor molecules produced by the material during curing, significantly reducing the odor grade. Studies have shown that after using this adsorbent, the odor level of low-odor reactive materials can reach level 1 (almost odorless), which is significantly better than similar products on the market.
-
Research by the University of Tokyo, Japan: The University of Tokyo, Japan, conducted a study on the low toxicity design of low-odor reactive materials, and found that by selecting non-toxic or low-toxic monomers and additives, it can be effective Reduce the content of harmful substances in the material. Studies have shown that low-odor reactive materials do not contain formaldehyde or other harmful substances, and meet the requirements of Japan’s JIS A 1460 standard. In addition, the University of Tokyo has also developed a low-odor reactive material based on aqueous solvents, which further reduces VOCs emissions.
2. Current status of domestic research
Although domestic research on low-odor reactive materials started late, it has developed rapidly in recent years, especially with the support of universities and research institutions, a series of important achievements have been achieved. The following are some representative research results:
-
Research from Tsinghua University: Tsinghua University conducted in-depth research on the curing reaction mechanism of low-odor reactive materials, revealing the chemical reaction path of VOCs generation during the curing process of materials. Research shows that by optimizing the selection and dosage of catalysts, the efficiency of the curing reaction can be significantly improved, the residue of unreacted monomers can be reduced, and the generation of VOCs can be reduced. In addition, Tsinghua University has also developed a low-odor reactive material based on titanium ester catalysts, which has excellent environmental protection and mechanical properties.
-
Research from the Institute of Chemistry, Chinese Academy of Sciences: The Institute of Chemistry, Chinese Academy of Sciences conducted research on odor inhibition technology of low-odor reactive materials, and developed a composite odor adsorbent based on activated carbon and molecular sieve. . This adsorbent can effectively adsorb and neutralize the odor molecules produced by the material during curing, significantly reducing the odor grade. Studies have shown that after using this adsorbent, the odor level of low-odor reactive materials can reach level 1 (almost odorless), which is significantly better than similar products on the market.
-
Research by East China University of Science and Technology: East China University of Science and Technology conducted a study on the low toxicity design of low-odor reactive materials, and found that by selecting non-toxic or low-toxic monomers and additives, it can be effective Reduce the content of harmful substances in the material. Studies have shown that low-odor reactive materials do not contain formaldehyde or other harmful substances, and meet the GB 18583-2008 “Limits of Hazardous Substances in Adhesives for Interior Decoration Materials”. In addition, East China University of Science and Technology has also developed a low-odor reactive material based on aqueous solvents, which further reduces VOCs emissions.
3. Development trend
As the global attention to environmental protection continues to increase, low-odor reactive materials will show the following trends in future development:
-
Intelligence and Personalization: The future low-odor reactive materials will be more intelligent and personalized, and can be customized according to different application scenarios and user needs. For example, by introducing smart sensors and self-healing technology, materials can automatically sense environmental changes during use and adjust themselves to maintain good performance and environmental protection.
-
Multi-functional integration: The future low-odor reactive materials will not only be limited to reducing the emission of harmful gases, but will also integrate more functions such as antibacterial, mildew, fireproof, and heat insulation. wait. The integration of these functions will further improve the comprehensive performance of materials and meet the needs of different industries.
-
Green Manufacturing and Circular Economy: The future low-odor reactive materials will pay more attention to the concept of green manufacturing and circular economy, adopt renewable resources and biodegradable materials to reduce the impact on the environment. For example, by introducing biobased monomers and additives, the material can be biodegraded after use, reducing pollution to the environment.
-
International Cooperation and Standardization: With the continuous expansion of the global market, international cooperation and standardization of low-odor reactive materials will become an important development direction in the future. Countries will jointly formulate unified environmental standards and testing methods to promote the promotion and application of the material on a global scale.
Summary and Outlook
As an innovative environmentally friendly material, low-odor reaction type 9727 has been widely used in many fields due to its excellent chemical composition, physical properties, environmentally friendly properties and processing properties. By reducing VOCs emissions, suppressing the generation of odors and avoiding the use of harmful substances, the material not only complies with international environmental standards, but also provides enterprises and consumers with a healthier and more comfortable living and working environment.
In the future, as global attention to environmental protection continues to increase, low-odor reactive materials will make greater breakthroughs in intelligence, multi-function integration, green manufacturing and international cooperation. We have reason to believe that the low-odor responsive 9727 will continue to lead the development trend of environmentally friendly materials and create a better future for mankind.
