Silicone sealants are high-performance elastomeric materials based on polydimethicone (PDMS). By blending PDMS with crosslinkers, relleno, and catalysts, they cure into flexible, durable sealing layers—either at room temperature or with heat. Their exceptional weather resistance, estabilidad química, and adhesion make them indispensable across industries. But how do you classify them, choose the right type for your project, y evita errores comunes?
1. Classification of Silicone Sealants: A Clear Comparison
Silicone sealants are categorized by three core factors: componente, curing mechanism, and function. The table below simplifies these classifications to help you identify the right fit:
| Classification Basis | Tipo | Características clave | Casos de uso ideales |
| By Component | Single-component | No mixing needed; cures by absorbing air moisture; fácil de usar | Quick repairs (P.EJ., home sink waterproofing), small-area construction (P.EJ., glass fish tank gluing) |
| Two-component | Requires mixing Component A (silicon hydroxyl group) y Component B (silane crosslinker); deep curing ability | Large-scale engineering (P.EJ., curtain wall sealing), high-demand projects (P.EJ., high-temperature pipe joints) | |
| Por mecanismo de curado | Condensation-type | Releases small-molecule by-products (P.EJ., etanol) Durante el curado; needs ventilation | Construcción general (P.EJ., concrete expansion joints), non-food/medical scenarios |
| Additive-type | No by-products; ecológico; cumple con los estrictos estándares de seguridad | Food-grade applications (P.EJ., food machinery sealing), dispositivos médicos (P.EJ., skin-contact parts) | |
| By Functional Feature | General-purpose | Balanced basic properties (adhesion, flexibilidad) | Daily home maintenance (P.EJ., sanitary ware installation) |
| Retraso de las llamas | Passes fire safety tests; inhibits combustion | Equipo eléctrico (P.EJ., circuit board coating), building fire barriers | |
| Thermally conductive | Transfers heat efficiently; maintains insulation | Componentes electrónicos (P.EJ., heat sink gaskets) | |
| De alta fuerza | Superior tensile and shear resistance | Structural joints (P.EJ., automotive body welds) | |
| Low-volatility | Minimal volatile organic compounds (Voces) | Indoor sensitive environments (P.EJ., hospital operating rooms) |
2. Core Performance Characteristics: Why Silicone Sealants Stand Out
What makes silicone sealants superior to other sealing materials (P.EJ., acrílico, poliuretano)? Their performance advantages are rooted in their chemical structure, Como se muestra a continuación:
- Broad-Spectrum Temperature Resistance: Withstands extreme temperatures from -60°C to +250°C (short-term up to 300°C). This makes them ideal for outdoor pipelines, engine compartments, and other high/low-temperature alternating environments—unlike acrylic sealants, which crack at -20°C.
- Long-Lasting Aging Resistance: Resists UV radiation, ozone, humedad, and salt spray. In outdoor applications (P.EJ., paredes de cortina), their service life exceeds 10 años—far longer than polyurethane sealants (3–5 años).
- Reliable Electrical Insulation: Boasts a high breakdown voltage (>20kV/mm) and stable dielectric constant. It protects electrical components (P.EJ., transformadores) from moisture and dust without compromising insulation.
- Balanced Flexibility & Adhesión: Después de curar, it maintains adjustable Dureza de la orilla (20–80A) and can withstand up to 500% elongation without cracking. It adheres firmly to metals, vaso, cerámica, and plastics—even with thermal expansion or vibration.
- Biocompatibilidad: Medical-grade silicone sealants meet FDA standards, supporting skin contact and short-term implantation (P.EJ., Juntas de dispositivos médicos). No other common sealant material offers this combination of safety and performance.
3. Step-by-Step Application Guide: Ensure Success Every Time
Improper application can ruin even the best silicone sealant. Sigue este lineal, easy-to-follow process to achieve a durable seal:
Paso 1: Preparación de la superficie (Critical for Adhesion)
- Clean the substrate (metal, vaso, etc.) with a solvent (P.EJ., acetona) Para eliminar el aceite, polvo, and release agent residues.
- Dry the surface completely—moisture on non-porous substrates (P.EJ., vaso) will weaken adhesion.
- For low-adhesion substrates (P.EJ., some plastics), aplicar un special primer and let it dry for 15–30 minutes before applying the sealant.
Paso 2: Sealant Application (Control Thickness & Forma)
- Load the sealant into a caulking gun. For single-component types, cut the nozzle at a 45° angle to match the joint width.
- Apply the sealant in a continuous, even bead. El single-application thickness should not exceed 6mm—thicker layers will not cure completely internally, leading to soft spots.
- Use a tool (P.EJ., a silicone smoothing tool) to shape the bead within 5–10 minutes (before surface curing) for a neat finish.
Paso 3: Curación & Post-Care (Evite las trampas comunes)
- Let the sealant cure in a well-ventilated area. Nota: High humidity speeds up surface drying but slows deep curing—allow 24–48 hours for full curing (longer in cold/dry conditions).
- Avoid touching or disturbing the sealant during curing.
- Clean up uncured sealant with acetone; cured sealant must be cut or scraped off.
4. Guía de selección: Match Sealant to Your Exact Needs
Choosing the wrong silicone sealant wastes time and money. Use this table to align the product with your scenario:
| Demand Scenario | Recommended Sealant Type | Key Performance Indicators to Check |
| Interior decoration (P.EJ., marcos de ventana, sanitary ware) | Neutral single-component | Non-corrosive, olor, Shore hardness 30–50A |
| High-temperature pipe sealing (P.EJ., industrial boilers) | High-modulus two-component (additive-type) | Resistencia al calor >200° C, resistencia a la tracción >3MPA |
| Componentes electrónicos (P.EJ., tablas de circuito, sensores) | Additive flame-retardant grade | CTI insulation rating ≥600V, flame retardancy UL94 V-0 |
| Food machinery repair (P.EJ., cintas transportadoras, tank joints) | FDA-certified transparent | Complies with GB/T national food safety standards, no VOCs |
| Outdoor construction (P.EJ., paredes de cortina, roof joints) | Weather-resistant two-component | Resistencia a los rayos UV >10 años, salt spray resistance >5000 horas |
5. Common Misconceptions: Debunking Myths
Many users make mistakes due to false assumptions. Below are three key myths and the facts:
- Mito 1: “All silicone sealants are high-temperature resistant.”
Hecho: Temperature resistance depends on the formula. Normal-grade sealants only work below 80°C—only high-temperature grades (P.EJ., phenyl silicone-based) handle 200°C+.
- Mito 2: “Acid glass glue = silicone sealant.”
Hecho: Acidic glass glue is a type of silicone sealant but contains acetic acid. It is highly corrosive and cannot be used on metals (causes rust) or marble (etches surfaces). Choose neutral silicone for these substrates.
- Mito 3: “Thicker application = better sealing.”
Hecho: Excessive thickness (>6milímetros) causes incomplete internal curing, leading to poor durability. For wide joints, apply multiple thin layers (allowing each to cure partially) en cambio.
6. Yigu Technology’s Perspective on Silicone Sealants
En la tecnología yigu, we view silicone sealants as “invisible protectors” for infrastructure and products. Para clientes automotrices, nuestro high-strength two-component sealants reduce body weld corrosion by 80% and withstand engine compartment temperatures up to 250°C. Para fabricantes de dispositivos médicos, nuestro FDA-certified additive-type sealants meet strict biocompatibility standards, supporting safe skin contact and short-term implantation.
Mirando hacia adelante, we will focus on two innovations: 1) Developing low-VOC eco-friendly sealants reducir las emisiones de carbono mediante 25% y 2) Enhancing the thermal conductivity of electronic-grade sealants to improve heat dissipation efficiency by 30%. Our goal is to make silicone sealants more sustainable, confiable, and tailored to industry-specific needs.
Preguntas frecuentes
- How long does silicone sealant take to fully cure, and what affects curing time?
Full curing takes 24–48 hours under standard conditions (25° C, 50% humedad). High humidity accelerates surface drying but slows deep curing; bajas temperaturas (<10° C) extend curing time to 72+ horas. Always check the product datasheet for specific times.
- Can silicone sealant be painted over, and if so, cómo?
Most silicone sealants are non-paintable due to their smooth surface. For paintable needs, choose “paintable silicone sealants” (formulated with special additives). Esperar 72 hours for full curing, then use acrylic or latex paint—avoid oil-based paints (they peel off).
- How to store unused silicone sealant to extend its shelf life?
Seal the nozzle tightly (use a cap or tape) and store in a cool, lugar seco (5–25 ° C) away from heat sources and strong oxidants. Unopened single-component sealants have a shelf life of 12 meses; opened ones should be used within 1 mes. Two-component sealants must be stored separately to prevent premature curing.