Alstone PV module sealant is one-part neutral cure sealant, offering several advantages over acetoxy silicone formulations. It can be used as a composite bonding adhesive for joining glass panels. When cured it has high modulus for a good mechanical assembly of glass panels.
ALSTONE SOLAR SILICONE is the only Indian Company that produces everything from silicone materials to secondary products
ALSTONE SOLAR Corporation built the first silicone monomer productioin facilities in India and succesfully localized raw materials for silicones, which had been imported from other countries. Through the synthesis and application of silicone monomers and polymers, we produce and supply silicone products including sealants, silicone rubber, silanes, silicone oils, silicone emulsions and silicone dispersions for construction and business. In addition, we are committed to helping our customers gain competitive advantage by supplying products that meet their needs though continous R&D technology innovation.
Ensure that surfaces to be sealed are clean, dry and free from frost. Clean all surfaces of release agents, water repellents, laitance, dust, dirt, old sealants and other contaminants which could impair adhesion. Non-porous surfaces should be cleaned and degreased by wiping with a suitable solvent on an oil- and lint-free cloth before application of sealant.
Note: When using any solvent, always provide adequate ventilation. Avoid heat, sparks and open flames. Observe and follow all precautions listed on the solvent container label.
Shelf life and storage: When stored in cool, dry conditions below 25°C(77°F) in the original unopened containers Alstone solar silicone sealant has a total shelf life of 12 months from the date of production.
Sausage: 600ML
Pail: 25KG
Drum: 270KG
Silicone potting and encapsulation compounds are used to protect sensitive electronic components and assemblies from environmental hazards like moisture, dust, chemicals, and mechanical shocks. These solutions are vital in extending the life of electronic devices, providing electrical insulation, and preventing short circuits.
Potting and encapsulation involve surrounding electronic components with a protective silicone material. Potting typically fills the entire enclosure, while encapsulation creates a shell-like barrier around the components.
Automotive: Used for protecting engine control units (ECUs), sensors, and lighting systems.
Aerospace: Ideal for safeguarding avionics, connectors, and other critical components exposed to extreme temperatures and pressures.
Medical Devices: Silicone compounds are often employed in medical devices due to their biocompatibility and resistance to sterilization methods.
Industrial Electronics: Provides protection for power supplies, sensors, and communication systems used in industrial automation.
Application: Potting protection for high power, high current solar PV module junction box.
1. High thermal conductivity, effectively reduce junction box junction temperature.
2. Stable storage, less likely to sediment. (Enhance the anti-setting property of A component by a unique to improve the stable storage of the product.)
3. Excellent process suitability and ow ability.
6-10: Reasonable, suitable for existing potting equipment.
Thermal Stability: Silicone maintains its properties across a wide temperature range (-50°C to 200°C), making it ideal for use in high-heat environments.
Chemical Resistance: Silicones are resistant to various chemicals, including oils, fuels, and solvents, providing superior protection against corrosion.
Flexibility and Durability: Silicones retain exibility even after curing, which helps absorb mechanical shocks and vibrations, protecting delicate components from damage.
Moisture and Humidity Resistance: Silicone compounds provide excellent waterproong, making them suitable for underwater or high-humidity applications.
Electrical Insulation: High dielectric strength ensures reliable insulation for high-voltage applications, preventing short circuits.
Test Items |
Unit |
Range |
Appearance |
/ |
White paste |
Density |
g/cm3 |
1.40~1.48 |
Extrusion rate |
g/15s |
5~17 |
Tack-free time |
min |
5~15 |
Hardness |
shore A |
≥45 |
Tensile strength |
Mpa |
2.2~3.5 |
Shear strength |
Mpa |
≥1.0 |
Elongation at beak |
% |
≥250 |
Deilectric strength |
KV/mm |
≥18 |
Volume resistivity |
Ω-cm |
≥0.5x10 |
Test Items |
Unit |
Range |
Part A appearance |
/ |
White Flowing |
Part B appearance |
/ |
Colourless or light yellow transparent liquid |
Part A viscosity |
mPs.s |
3500~5000 |
Part B viscosity |
mPs.s |
30~120 |
Part A density |
g/cm³ |
1.20~1.30 |
Part B density |
g/cm³ |
0.92~1.0 |
Tack-free time |
min |
10~30 |
Curing time |
min |
30~120 |
Hardness |
shore A |
30~50 |
Tensile strength |
Mpa |
≥0.8 |
Elongation at break |
% |
≥60 |
Dielectric strength |
KV/mm |
≥18 |
Volume resistivity |
Ω.cm |
≥1.0x10 |