Durability is a crucial factor in the research and development and manufacturing of modern military equipment. Military equipment needs to maintain efficient operation in extreme environments, so it requires extremely high performance requirements for materials. In recent years, with the increase of environmental awareness, the application of green chemicals has gradually become an important trend in military equipment manufacturing. As a new environmentally friendly catalyst, the low viscosity odorless amine catalyst Z-130 can not only significantly improve the durability of military equipment, but also reduce the impact on the environment. This article will introduce in detail the characteristics, applications and specific application solutions of Z-130 in military equipment.
Low viscosity odorless amine catalyst Z-130 is a highly efficient and environmentally friendly catalyst, widely used in the synthesis of polymer materials such as polyurethane and epoxy resin. Its low viscosity and odorless properties give it a unique advantage in military equipment manufacturing.
parameter name | parameter value |
---|---|
Appearance | Colorless transparent liquid |
Viscosity (25℃) | 50-100 mPa·s |
Density (25℃) | 1.02-1.05 g/cm3 |
Flashpoint | >100℃ |
Solution | Easy soluble in water, alcohols, and ketones |
Environmental | Odorless, low VOC |
Storage Stability | 12 months |
Military equipment needs to maintain efficient operation in extreme environments, so it requires extremely high durability of materials. Through efficient catalytic action, Z-130 can significantly improve the mechanical properties and weather resistance of materials such as polyurethane and epoxy resin, thereby extending the service life of the equipment.
Polyurethane materials are widely used in seals, shock absorbers and other components of military equipment. Z-130 can significantly improve the tensile strength, wear resistance and aging resistance of polyurethane materials.
Performance metrics | Before using Z-130 | After using Z-130 | Elevation |
---|---|---|---|
Tension Strength (MPa) | 30 | 45 | 50% |
Abrasion resistance (mg) | 100 | 60 | 40% |
Aging resistance (h) | 500 | 800 | 60% |
Epoxy resin materials are often used in structural parts and protective coatings of military equipment. Z-130 can improve the bonding strength, chemical corrosion resistance and heat resistance of epoxy resin.
Performance metrics | Before using Z-130 | After using Z-130 | Elevation |
---|---|---|---|
Bonding Strength (MPa) | 20 | 30 | 50% |
Chemical corrosion resistance | General | Excellent | – |
Heat resistance (℃) | 150 | 200 | 33% |
The low VOC emissions and odorless properties of the Z-130 make it ideal for green manufacturing. In the process of military equipment manufacturing, the use of Z-130 can reduce environmental pollution, improve the working environment, and meet the requirements of modern green manufacturing.
VOC (volatile organic compounds) is one of the important sources of air pollution. The low VOC characteristics of the Z-130 enable it to significantly reduce VOC emissions and reduce its environmental impact during military equipment manufacturing.
Catalytic Type | VOC emissions (g/m3) |
---|---|
Traditional catalyst | 50 |
Z-130 | 10 |
Traditional catalysts usually have a harsh odor that affects the health of the operator. The odorless properties of the Z-130 can significantly improve the working environment and reduce health hazards to operators.
Catalytic Type | Odor intensity |
---|---|
Traditional catalyst | Strong |
Z-130 | odorless |
Military vehicles need to operate efficiently under harsh terrain and extreme climate conditions. Polyurethane materials catalyzed with Z-130 can significantly improve the vehicle’s shock absorption and sealing performance and extend the vehicle’s service life.
Shock-absorbing parts of military vehicles need to have excellent wear resistance and anti-aging properties. Polyurethane materials catalyzed with Z-130 can significantly improve the performance of shock absorbers.
Performance metrics | Before using Z-130 | After using Z-130 | Elevation |
---|---|---|---|
Abrasion resistance (mg) | 100 | 60 | 40% |
Anti-aging (h) | 500 | 800 | 60% |
The seals of military vehicles need to have excellent weather resistance and sealing properties. Polyurethane materials catalyzed with Z-130 can significantly improve the performance of seals.
Performance metrics | Before using Z-130 | After using Z-130 | Elevation |
---|---|---|---|
Weather resistance (h) | 500 | 800 | 60% |
Sealing Performance | General | Excellent | – |
Military aircraft need to operate efficiently under high-speed flight and extreme climate conditions. The epoxy resin material catalyzed with Z-130 can significantly improve the structural strength and heat resistance of the aircraft.
The structural parts of military aircraft need to have excellent bonding strength and heat resistance. Epoxy resin materials catalyzed with Z-130 can significantly improve the performance of structural parts.
Performance metrics | Before using Z-130 | After using Z-130 | Elevation |
---|---|---|---|
Bonding Strength (MPa) | 20 | 30 | 50% |
Heat resistance (℃) | 150 | 200 | 33% |
The protective coating of military aircraft requires excellent chemical corrosion resistance and weather resistance. Epoxy resin materials catalyzed with Z-130 can significantly improve the performance of the protective coating.
Performance metrics | Using Z-130 Before | After using Z-130 | Elevation |
---|---|---|---|
Chemical corrosion resistance | General | Excellent | – |
Weather resistance (h) | 500 | 800 | 60% |
Military ships need to maintain efficient operation in the marine environment. The epoxy resin material catalyzed with Z-130 can significantly improve the structural strength and corrosion resistance of the ship.
The structural parts of military ships need to have excellent bonding strength and corrosion resistance. Epoxy resin materials catalyzed with Z-130 can significantly improve the performance of structural parts.
Performance metrics | Before using Z-130 | After using Z-130 | Elevation |
---|---|---|---|
Bonding Strength (MPa) | 20 | 30 | 50% |
Corrosion resistance | General | Excellent | – |
The protective coating of military ships requires excellent chemical corrosion resistance and weather resistance. Epoxy resin materials catalyzed with Z-130 can significantly improve the performance of the protective coating.
Performance metrics | Before using Z-130 | After using Z-130 | Elevation |
---|---|---|---|
Chemical corrosion resistance | General | Excellent | – |
Weather resistance (h) | 500 | 800 | 60% |
As the continuous improvement of the material performance requirements of military equipment, Z-130, as an efficient and environmentally friendly catalyst, will play an increasingly important role in the manufacturing of military equipment. Its low viscosity, odorless and efficient catalytic properties make it an ideal choice for improving the durability of military equipment.
With the increase in environmental awareness, green manufacturing has become an important trend in modern manufacturing. The low VOC emissions and odorless properties of Z-130 make it have broad application prospects in green manufacturing. In the future, the Z-130 will be applied in more fields to promote the development of green manufacturing.
In addition to military equipment manufacturing, the Z-130 can also be widely used in automobiles, aerospace, construction and other fields. Its efficient catalytic properties and environmentally friendly properties make it an ideal choice for improving material performance and reducing environmental pollution.
As a new environmentally friendly catalyst, low viscosity odorless amine catalyst Z-130 has significant advantages in military equipment manufacturing. Its low viscosity, odorless and efficient catalytic properties can significantly improve the durability of military equipment and extend the service life of equipment. Meanwhile, the Z-130’s low VOC emissions and odorless properties make it an ideal choice for green manufacturing, meeting the requirements of modern green manufacturing. In the future, the Z-130 will be widely used in military equipment manufacturing and other fields to promote the development of green manufacturing.
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