With the advancement of science and technology and the development of industry, high-efficiency thermal insulation materials are becoming more and more widely used in various fields. From construction to aerospace, from electronic equipment to automobile manufacturing, the demand for thermal insulation materials is growing. As a new chemical material, bis(3-diylpropyl)amine isopropyl alcohol ZR-50 has gradually become a research hotspot in the field of high-efficiency thermal insulation materials due to its unique chemical structure and excellent physical properties. This article will introduce in detail the chemical characteristics, product parameters, application fields of ZR-50 and its specific application in high-efficiency thermal insulation materials.
The chemical formula of bis(3-diylpropyl)amine isopropyl alcohol ZR-50 is C11H25N3O, and its molecular structure contains two diylpropyl groups and one isopropyl group. This structure imparts unique chemical properties to ZR-50, allowing it to exhibit excellent stability and reactivity in a variety of chemical reactions.
ZR-50 is a colorless to light yellow liquid with a lower viscosity and a higher boiling point. Its physical properties are shown in the following table:
| Physical Properties | value |
|---|---|
| Molecular Weight | 215.34 g/mol |
| Density | 0.92 g/cm3 |
| Boiling point | 250°C |
| Melting point | -20°C |
| Viscosity | 10 mPa·s |
| Flashpoint | 120°C |
ZR-50 has good thermal and chemical stability, and can remain stable under high temperatures and strong acid and alkali environments. In addition, ZR-50 has good solubility and is miscible with a variety of organic solvents, which provides convenience for its application in thermal insulation materials.
The product specifications of ZR-50 are shown in the following table:
| parameters | value |
|---|---|
| Purity | ≥99% |
| Moisture content | ≤0.1% |
| Acne | ≤0.5 mg KOH/g |
| Alkaline value | ≤1.0 mg KOH/g |
| Color | ≤50 APHA |
ZR-50 is usually packaged in 200L plastic buckets or 1000L IBC buckets to ensure its stability during transportation and storage. Direct sunlight and high temperature environments should be avoided during storage. It is recommended to store it in a cool and dry place. The storage temperature should be controlled between 5°C and 30°C.
Insulation materials can be divided into the following categories according to their thermal insulation mechanism:
| Insulation Material Type | Thermal Insulation Mechanism |
|---|---|
| Porous Materials | Heat insulation is achieved through low thermal conductivity of air or gas |
| Reflective Material | Heat insulation is achieved through reflected heat radiation |
| Phase Change Materials | Heat insulation is achieved through phase change absorption or exothermic heat |
| Nanomaterials | Heat insulation is achieved through the low thermal conductivity of nanostructures |
ZR-50 mainly plays the following roles in thermal insulation materials:
In the field of construction, the ZR-50 is commonly used to prepare high-efficiency thermal insulation coatings and thermal insulation panels. The application examples are as follows:
| Application Examples | Specific application |
|---|---|
| Heat Insulation Coating | ZR-50 is mixed with resin, filler, etc. to prepare coatings with excellent thermal insulation properties, which are widely used in thermal insulation of building exterior walls and roofs. |
| Insulated plate | ZR-50 is mixed with polyurethane, polystyrene and other materials to prepare lightweight and high-strength thermal insulation boards for thermal insulation of building walls and floors. |
In the aerospace field, ZR-50 is often used to prepare highly efficient thermally insulating composite materials. Its application example is as follows:
| Application Examples | Specific application |
|---|---|
| Heat Insulation Composites | ZR-50 is mixed with reinforced materials such as carbon fiber and glass fiber to prepare composite materials with excellent thermal insulation and mechanical properties for use in thermal insulation structures of aircraft and spacecraft. |
| Heat Insulation Coating | ZR-50 is mixed with ceramic material to prepare a high-temperature insulation coating for thermal insulation of high-temperature components in spacecraft. |
In the field of electronic equipment, ZR-50 is often used to prepare high-efficiency thermal insulation films and thermal insulation adhesives. Its application example is as follows:
| Application Examples | Specific application |
|---|---|
| Heat Insulation Film | ZR-50 is mixed with polymer material to prepare a film with excellent thermal insulation properties for heat dissipation and heat insulation of electronic devices. |
| Heat Insulation Glue | ZR-50 is mixed with materials such as silicone to prepare glue with excellent thermal insulation and adhesive properties for fixing and thermal insulation of electronic components. |
In the field of automobile manufacturing, the ZR-50 is commonly used to prepare efficient thermal insulation foams and thermal insulation pads. Its application example is as follows:
| Application Examples | Specific application |
|---|---|
| Insulated Foam | ZR-50 is mixed with polyurethane foam to prepare foam with excellent thermal insulation and sound absorption properties for thermal insulation of automobile bodies and chassis. |
| Heat Insulation Pad | ZR-50 is mixed with rubber material to prepare gaskets with excellent thermal insulation and wear resistance for thermal insulation of automotive engines and exhaust pipes. |
The low thermal conductivity and high thermal stability of ZR-50 enable it to show excellent thermal insulation performance in thermal insulation materials, which can effectively reduce the thermal conductivity of the material and improve the thermal insulation effect.
The low viscosity and good solubility of ZR-50 enable it to mix evenly with other materials, improve the processing properties of the materials and facilitate large-scale production and application.
The chemical stability of ZR-50 enables it to remain stable in harsh environments, improves the durability of the material and extends the service life of the material.
ZR-50 does not produce harmful substances during production and use, meets environmental protection requirements, and is a green and environmentally friendly chemical material.
Bis(3-diylpropyl)aminoisopropyl alcohol ZR-50 is a novel chemical material, and has a wide range of application prospects in the field of high-efficiency thermal insulation materials due to its unique chemical structure and excellent physical properties. Through a detailed introduction to its chemical characteristics, product parameters and application fields, we can see that the ZR-50 has excellent thermal insulation and processing performance in many fields such as construction, aerospace, electronic equipment and automobile manufacturing. With the advancement of science and technology and the development of industry, the application of ZR-50 in high-efficiency thermal insulation materials will become more and more extensive, providing more efficient and environmentally friendly solutions for thermal insulation needs in various fields.
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