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Silicone Sealants

Chemical structure of a polydimethylsiloxane – the basis of silicone sealants

Silicone sealants are supplied as one-part, ready-to-use systems. They consist of polydimethylsiloxane, curing agent, fillers and additives. After a sealant has been applied, crosslinking starts on contact with atmospheric moisture, releasing byproducts. Crosslinking starts with the formation of a skin on the surface of the applied silicone rubber and gradually progresses into the interior of the compound. Depending on the nature of the crosslinker, a small amount of an amine, acetic acid or a neutral compound, such as alcohol, is released during vulcanization.

Thanks to their outstanding properties, RTV-1 silicone sealants solve a wide variety of sealing, bonding and coating problems. Their excellent resistance to weathering and aging is the result of special chemical properties.

WACKER is a completely backward-integrated company that combines being a reliable partner with the ability to offer consistently high quality alongside customer proximity. Providing all-in-one solutions, our extensive portfolio ranges from raw materials right through to ready-to-use sealants available in various container sizes or supplied in drums or as cartridges.

WACKER Trademarks:

  • ELASTOSIL®

Properties:

  • Excellent weathering and aging resistance
  • Outstanding UV and high-temperature resistance
  • Constant stress-strain values at extreme temperatures (–30 °C to 80 °C)
  • Flexible over a wide temperature range (–40 °C to 150 °C).

Applications:

  • Sanitary sealants
  • General-purpose construction sealants
  • Glazing, windows and doors
  • Sealing joints
  • Natural stone joints
  • Construction of aquariums
  • High-temperature and fire-safety joints
  • Sealants for food-contact applications

Product Recommendations:

ELASTOSIL® eco sealants differ from conventional grades merely as regards the source of the raw materials used. They otherwise provide exactly the same quality as our premium line and can be processed in the usual way.

During the production of ELASTOSIL® eco, the organic constituents are offset completely as part of the biomass balance method. The fossil raw materials needed for production are replaced by biomass certified as sustainable. This makes ELASTOSIL® eco the first generation of sealant to do without raw materials derived from petrochemicals.

Benefits:

  • 100% of the fossil raw materials needed for production are replaced by biomass certified as sustainable
  • A long shelf life
  • User-friendly processing properties
  • Exceptional ability to absorb movement
  • Excellent adhesion
  • UV resistance
  • High heat resistance
  • Resistance to extremes of weather

Product Recommendations

Table is scrollable
Products
Technical data
Product properties
Movement capability Skin Density Modulus at 100 % elongation Crosslinking Property
ELASTOSIL® eco 8510 P 25 %[1] 25 %[1] 15 min[2] 15 min[2] 1.02 g/cm³[3] 8.512 lb/gal[3] 0.35 N/mm²[4] 0.35 N/mm²[4] Alkoxy-cure
Legend
[1] Movement capability | ISO 11600,  [2] Skin formating time | 23 °C | 50 % r.h ,  [3] Density | 23 °C | ISO 1183-1 A,  [4] Modulus at 100 % elongation | ISO 8339-A,  [] Suited,  [] Well suited,  [] Ideally suited 

产品推荐

个产品
技术数据
Product properties
Movement capability 抗位移能力 皮肤 密度 伸长100%时的模量 产品种类 交联性能
ELASTOSIL® 7100 P 25 %[1] 25 %[1] - - 25 min[5] 25 min[5] 1.03 g/cm³[7] 8.596 lb/gal[7] 0.38 N/mm²[8] 0.38 N/mm²[8] 适用于卫生领域 烷氧基固化
ELASTOSIL® 7150 P 25 %[2] 25 %[2] - - 15 min[6] 15 min[6] 1.02 g/cm³[7] 8.512 lb/gal[7] 0.35 N/mm²[8] 0.35 N/mm²[8] - 烷氧基固化
ELASTOSIL® 8000 N 35 %[3] 35 %[3] - - 25 min[5] 25 min[5] 1.02 g/cm³[7] 8.512 lb/gal[7] 0.37 N/mm²[8] 0.37 N/mm²[8] - 烷氧基固化
ELASTOSIL® 8100 P 35 %[3] 35 %[3] - - 25 min[5] 25 min[5] 1.02 - 1.03 g/cm³[7] 8.512 - 8.596 lb/gal[7] 0.37 N/mm²[8] 0.37 N/mm²[8] 适用于卫生领域 烷氧基固化
ELASTOSIL® 8510 P 25 %[2] 25 %[2] - - 15 min[6] 15 min[6] 1.02 g/cm³[7] 8.512 lb/gal[7] 0.35 N/mm²[8] 0.35 N/mm²[8] - 烷氧基固化
ELASTOSIL® 9000 N - - 12.5 %[4] 12.5 %[4] 25 min[5] 25 min[5] 1.00 g/cm³[7] 8.345 lb/gal[7] 0.37 N/mm²[9] 0.37 N/mm²[9] - 烷氧基固化
ELASTOSIL® eco 7770 P - - 25 %[4] 25 %[4] 15 min[6] 15 min[6] 1.02 g/cm³[7] 8.512 lb/gal[7] 0.35 N/mm²[8] 0.35 N/mm²[8] - 烷氧基固化
ELASTOSIL® eco 8510 P - - 25 %[4] 25 %[4] 15 min[6] 15 min[6] 1.02 g/cm³[7] 8.512 lb/gal[7] 0.35 N/mm²[8] 0.35 N/mm²[8] - 烷氧基固化
说明
[1] Movement capability | ISO 11600 / EN 15651,  [2] Movement capability | ISO 11600,  [3] Movement capability | ASTM C920,  [4] 抗位移能力 | ISO 11600,  [5] Skin forming time | 23 °C | 50 % r.h ,  [6] Skin formating time | 23 °C | 50 % r.h ,  [7] 密度 | 23 °C | ISO 1183-1 A,  [8] 伸长100%时的模量 | ISO 8339-A,  [9] 伸长100%时的模量 | ISO 8339 

Product Recommendations

Products
Technical data
Viscosity, dynamic Flash point
Fabric C - - - -
Primer G 786 - - - -
WACKER® CROSSLINKER ES 24 6 - 9 mPa·s 6 - 9 mPa·s > 100 °C > 212 °F
WACKER® CROSSLINKER ES 29 - - - -
WACKER® POLYMER FD 120 approx. 120000 mPa·s approx. 120000 mPa·s - -
WACKER® POLYMER FD 20 approx. 20000 mPa·s approx. 20000 mPa·s - -
WACKER® POLYMER FD 350 approx. 305000 mPa·s approx. 305000 mPa·s - -
WACKER® POLYMER FD 50 approx. 50000 mPa·s approx. 50000 mPa·s - -
WACKER® POLYMER FD 6 - - - -
WACKER® POLYMER FD 80 approx. 75000 mPa·s approx. 75000 mPa·s - -

产品推荐

个产品
技术数据
Product properties
动力粘度 抗位移能力 皮肤 闪点 密度 伸长100%时的模量 产品种类 交联性能
ELASTOSIL® 7100 P - - 25 %[1] 25 %[1] 25 min[4] 25 min[4] - - 1.03 g/cm³[6] 8.596 lb/gal[6] 0.38 N/mm²[8] 0.38 N/mm²[8] 适用于卫生领域 烷氧基固化
ELASTOSIL® 7150 P - - 25 %[2] 25 %[2] 15 min[5] 15 min[5] - - 1.02 g/cm³[6] 8.512 lb/gal[6] 0.35 N/mm²[8] 0.35 N/mm²[8] - 烷氧基固化
ELASTOSIL® 8000 N - - 35 %[3] 35 %[3] 25 min[4] 25 min[4] - - 1.02 g/cm³[6] 8.512 lb/gal[6] 0.37 N/mm²[8] 0.37 N/mm²[8] - 烷氧基固化
ELASTOSIL® 8100 P - - 35 %[3] 35 %[3] 25 min[4] 25 min[4] - - 1.02 - 1.03 g/cm³[6] 8.512 - 8.596 lb/gal[6] 0.37 N/mm²[8] 0.37 N/mm²[8] 适用于卫生领域 烷氧基固化
ELASTOSIL® 8510 P - - 25 %[2] 25 %[2] 15 min[5] 15 min[5] - - 1.02 g/cm³[6] 8.512 lb/gal[6] 0.35 N/mm²[8] 0.35 N/mm²[8] - 烷氧基固化
ELASTOSIL® 9000 N - - 12.5 %[2] 12.5 %[2] 25 min[4] 25 min[4] - - 1.00 g/cm³[6] 8.345 lb/gal[6] 0.37 N/mm²[9] 0.37 N/mm²[9] - 烷氧基固化
ELASTOSIL® eco 7770 P - - 25 %[2] 25 %[2] 15 min[5] 15 min[5] - - 1.02 g/cm³[6] 8.512 lb/gal[6] 0.35 N/mm²[8] 0.35 N/mm²[8] - 烷氧基固化
ELASTOSIL® eco 8510 P - - 25 %[2] 25 %[2] 15 min[5] 15 min[5] - - 1.02 g/cm³[6] 8.512 lb/gal[6] 0.35 N/mm²[8] 0.35 N/mm²[8] - 烷氧基固化
Fabric C - - - - - - - - - - - - - -
Primer G 786 - - - - - - - - - - - - - -
WACKER® CROSSLINKER ES 24 6 - 9 mPa·s 6 - 9 mPa·s - - - - > 100 °C > 212 °F - - - - - -
WACKER® CROSSLINKER ES 29 - - - - - - - - - - - - - -
WACKER® GA (2) - - 20 %[2] 20 %[2] - - - - 1.01 g/cm³[7] 8.429 lb/gal[7] - - - -
WACKER® POLYMER FD 120 approx. 120000 mPa·s approx. 120000 mPa·s - - - - - - - - - - - -
WACKER® POLYMER FD 20 approx. 20000 mPa·s approx. 20000 mPa·s - - - - - - - - - - - -
WACKER® POLYMER FD 350 approx. 305000 mPa·s approx. 305000 mPa·s - - - - - - - - - - - -
WACKER® POLYMER FD 50 approx. 50000 mPa·s approx. 50000 mPa·s - - - - - - - - - - - -
WACKER® POLYMER FD 6 - - - - - - - - - - - - - -
WACKER® POLYMER FD 80 approx. 75000 mPa·s approx. 75000 mPa·s - - - - - - - - - - - -
WACKER® VS - VAE SEALANT - - ± 10 %[2] ± 10 %[2] - - - - 1.63 - 1.67 g/cm³[7] 13.603 - 13.937 lb/gal[7] - - - -
说明
[1] 抗位移能力 | ISO 11600 / EN 15651,  [2] 抗位移能力 | ISO 11600,  [3] 抗位移能力 | ASTM C920,  [4] Skin forming time | 23 °C | 50 % r.h ,  [5] Skin formating time | 23 °C | 50 % r.h ,  [6] 密度 | 23 °C | ISO 1183-1 A,  [7] 密度 | ISO 1183-1 A,  [8] 伸长100%时的模量 | ISO 8339-A,  [9] 伸长100%时的模量 | ISO 8339 

SILICONES – Definition and Properties

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