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Building & Construction Adhesives

Building & Construction

With VINNAPAS® polymer dispersions, GENIOSIL® silane-modified polymers and VINNAPAS® solid resins, WACKER offers a wide variety of products with applications in, e.g., flooring installation, manufactured housing and building components. They are notable for their strong adhesion to a large number of substrates and high formulation versatility. HDK® pyrogenic silica provides rheology control for different types of adhesives.

VINNAPAS® Vinyl Acetate-Ethylene (VAE) Polymer Dispersions

VINNAPAS® VAE polymer dispersions are recommended for use in flooring adhesives due to their performance advantages. They are ideal for a wide variety of flexible floor coverings.

Benefits:

  • Excellent formulation compatibility
  • Long-lasting, highly durable bonding
  • Strong adhesion to various substrates
  • High cohesion strength
  • Outstanding workability
  • Excellent dimensional stability

Applications:

  • Vinyl flooring
  • Wood flooring
  • Carpet tiles
  • Carpet rolls

GENIOSIL® Silane-Modified Polymers

Parquet or general wood-floor adhesives based on SMPs now represent more than 50% of the European wood-floor adhesive market due to their outstanding performance, ease of use and environmentally friendly properties. GENIOSIL® SMP parquet adhesives display the necessary movement capability, since wood remains a natural product, which expands and contracts depending on the prevailing temperatures. Despite this, the adhesive meets industry-standard adhesion profile and performance requirements. Furthermore, such adhesives contain no solvents or toxic components and can therefore be supplied without hazard labeling and packaging. Rapid through-curing allows sanding after only 24 hours.

Benefits:

  • Easy to apply
  • Easy removal of excess adhesive without staining
  • Solvent free

Applications:

  • Wood-flooring adhesive

VINNAPAS® Solid Resins

VINNAPAS® solid resins are used as binders for solvent-based wood-flooring adhesives.

Benefits:

  • Excellent solubility in mild solvents
  • Low odor
  • Excellent adhesion to wood

Applications:

  • Wood-flooring adhesives

HDK® Pyrogenic Silica

HDK® pyrogenic silica find application as rheology additives in parquet adhesives. Hydrophobic HDK® is used in modern STP-E systems as well as in polyurethane-based adhesives to improve processability, sag resistance and storage stability.

Benefits:

  • Improved processability
  • Improved sag resistance
  • Increased shelf life

Applications:

  • STP-E systems
  • Polyurethane-based adhesive

Produktempfehlungen

Tabelle ist scrollbar
Produkte
Technische Daten
Produktmerkmale
Flooring Installation
BET-Oberfläche Feststoffanteil Viskosität dynamische Viskosität Polymer Glasübergangstemperatur Haftvermögen & Festigkeit Nachhaltigkeitsthemen
Wärmestandfestigkeit
Haftfähigkeit insgesamt
Abbindeverhalten
Verarbeitbarkeit
GENIOSIL® GF 9 - - - - - - - - - - - - - - - - - -
GENIOSIL® GF 91 - - - - - - - - - - - - - - - - - -
GENIOSIL® STP-E10 - - - - 10000 10000 - - α-Dimethoxysilane-modified polymer (SMP) α-Dimethoxysilane-modified polymer (SMP) - - - - - - - -
GENIOSIL® STP-E140 - - - - 10000 mPas 10000 mPas - - α-γ-Trimethoxysilane-modified polymer (SMP) α-γ-Trimethoxysilane-modified polymer (SMP) - - - - - - - -
GENIOSIL® STP-E15 - - - - 10000 mPas 10000 mPas - - γ-Trimethoxysilane-modified polymer (SMP) γ-Trimethoxysilane-modified polymer (SMP) - - - - - - - -
GENIOSIL® STP-E30 - - - - 30000 30000 - - α-Dimethoxysilane-modified polymer (SMP) α-Dimethoxysilane-modified polymer (SMP) - - - - - - - -
GENIOSIL® STP-E340 - - - - 30000 30000 - - α-γ-Trimethoxysilane-modified polymer (SMP) α-γ-Trimethoxysilane-modified polymer (SMP) - - - - - - - -
GENIOSIL® STP-E35 - - - - 30000 mPas 30000 mPas - - γ-Trimethoxysilane-modified polymer (SMP) γ-Trimethoxysilane-modified polymer (SMP) - - - - - - - -
HDK® H13L approx. 110 m²/g[1] approx. 110 m²/g[1] - - - - - - - - - - - - - - - -
HDK® H15 approx. 120 m²/g[1] approx. 120 m²/g[1] - - - - - - - - - - - - - - - -
HDK® H18 approx. 120 m²/g[1] approx. 120 m²/g[1] - - - - - - - - - - - - - - - -
VINNAPAS® EAF 67 - - 58 - 62 % 58 - 62 % - - 4500 - 9500 mPa·s 4500 - 9500 mPa·s - - approx. -35 °C[2] approx. -31.0 °F[2] - - Hoch Hervorragend Hervorragend Hervorragend
VINNAPAS® EAF 68 - - 58 - 61 % 58 - 61 % - - 4500 - 9500 mPa·s 4500 - 9500 mPa·s - - approx. -35.0 °C[2] approx. -31 °F[2] - - Hervorragend Hervorragend Hervorragend Hervorragend
VINNAPAS® EF 8860 - - 56 - 58 % 56 - 58 % - - 500 - 2500 mPa·s 500 - 2500 mPa·s - - approx. -10 °C[3] approx. 14.0 °F[3] - - Hervorragend Hervorragend Mittel Hervorragend
VINNAPAS® EP 1 - - 49 - 51 % 49 - 51 % - - 6000 - 12000 mPa·s 6000 - 12000 mPa·s - - approx. 1.0 °C[3] approx. 33.8 °F[3] - - Hoch Hoch Mittel Mittel
VINNAPAS® EP 11 (CGN) - - 49 - 51 % 49 - 51 % - - 4000 - 6000 mPa·s 4000 - 6000 mPa·s - - approx. 3 °C[3] approx. 37.4 °F[3] - - Hervorragend Hoch Mittel Mittel
VINNAPAS® EP 14 - - 54 - 56 % 54 - 56 % - - 4000 - 7000 mPa·s 4000 - 7000 mPa·s - - approx. 3 °C[3] approx. 37.4 °F[3] - - Hervorragend Hoch Mittel Mittel
VINNAPAS® EP 17 - - 59 - 61 % 59 - 61 % - - 2800 - 4800 mPa·s 2800 - 4800 mPa·s - - approx. 3 °C[3] approx. 37.4 °F[3] - - Hervorragend Hoch Mittel Mittel
VINNAPAS® EP 400 - - 54 - 56 % 54 - 56 % - - 2000 - 2800 mPa·s 2000 - 2800 mPa·s - - approx. 5 °C[3] approx. 41.0 °F[3] - - Hervorragend Hoch Mittel Mittel
VINNAPAS® EP 401 - - 54 - 56 % 54 - 56 % - - 1700 - 3300 mPa·s 1700 - 3300 mPa·s - - approx. -7.0 °C[3] approx. 19.4 °F[3] - - Hervorragend Hoch Mittel Mittel
VINNAPAS® EP 441 - - 53 - 57 % 53 - 57 % - - 3000 - 5000 mPa·s 3000 - 5000 mPa·s - - approx. 5 °C[3] approx. 41.0 °F[3] - - Hervorragend Hoch Mittel Mittel
VINNAPAS® EP 6420 - - 54.0 - 56.0 % 54.0 - 56.0 % - - 3500 - 5500 mPa·s 3500 - 5500 mPa·s - - approx. 2 °C[3] approx. 35.6 °F[3] - - Hervorragend Hoch Mittel Mittel
VINNAPAS® EP 645 - - 54 - 56 % 54 - 56 % - - 4000 - 9000 mPa·s 4000 - 9000 mPa·s - - approx. 5 °C[3] approx. 41.0 °F[3] - - Hervorragend Hoch Hoch Mittel
VINNAPAS® EP 701K - - 54.0 - 56.0 % 54.0 - 56.0 % - - 2000 - 4000 mPa·s 2000 - 4000 mPa·s - - approx. -10 °C[3] approx. 14.0 °F[3] - - Mittel Hervorragend Hoch Hoch
VINNAPAS® EP 705A (ULS) - - 54 - 56 % 54 - 56 % - - 1900 - 2800 mPa·s 1900 - 2800 mPa·s - - approx. 0 °C[3] approx. 32.0 °F[3] - - Hervorragend - Mittel Mittel
VINNAPAS® EP 706 - - 54 - 56 % 54 - 56 % - - 3500 - 4500 mPa·s 3500 - 4500 mPa·s - - approx. 0 °C[3] approx. 32.0 °F[3] - - Hervorragend Hoch Mittel Mittel
VINNAPAS® EP 706K (NJG) - - > 54.5 % > 54.5 % - - 4400 - 5400 mPa·s 4400 - 5400 mPa·s - - approx. 0 - 4 °C[3] approx. 32.0 - 39.2 °F[3] - - Hoch Hervorragend Hervorragend Hervorragend
VINNAPAS® EP 707K (ULS) - - 54 - 56 % 54 - 56 % - - 1300 - 2000 mPa·s 1300 - 2000 mPa·s - - approx. 0 °C[3] approx. 32.0 °F[3] - - Hervorragend Hoch Mittel Hoch
VINNAPAS® EP 760 - - 59.5 - 61.5 % 59.5 - 61.5 % - - 2000 - 3000 mPa·s 2000 - 3000 mPa·s - - approx. 0 °C[3] approx. 32.0 °F[3] - - Hervorragend Hoch Hoch Hoch
VINNAPAS® EP 8010 - - 58 - 61 % 58 - 61 % - - 4000 - 8000 mPa·s 4000 - 8000 mPa·s - - approx. -10 °C[3] approx. 14.0 °F[3] Haftung auf kritischen Oberflächen, ausgezeichnete Haftung ohne APEO hergestellt - - - -
Legend
[1] BET-Oberfläche | DIN ISO 9277 DIN 66132 | der hydrophoben Kieselsäure,  [2] Glasübergangstemperatur | DSC, spezifische Methode,  [3] Glasübergangstemperatur | spezifische Methode,  [] Geeignet,  [] Gut geeignet,  [] Ideal geeignet 

VINNAPAS® Vinyl Acetate-Ethylene (VAE) Polymer Dispersions

VINNAPAS® VAE polymer dispersions play a significant role in almost every aspect of manufactured housing. They are ideal for a wide variety of applications.

Benefits:

  • Excellent formulation compatibility
  • Long-lasting, highly durable bonding
  • Strong adhesion to various substrates
  • Outstanding workability

Applications:

  • Sub-floor installation
  • Wall bonding and lamination
  • Product assembly

GENIOSIL® Silane-Modified Polymers

GENIOSIL® silane-modified polymers are found as the base polymer for adhesives in dry-wall assembly where high strength is needed and subsequent paintability is a must. As dry-wall paneling becomes increasingly employed in residential buildings, with the replacement of mechanical fastening by chemical bonding, it is essential to choose an adhesive that offers high performance with no toxic emissions.

Benefits:

  • Adhesion to diverse substrates
  • Paintability of sealed joints

Applications:

  • Drywall panels

VINNAPAS® Solid Resins

VINNAPAS® solid resins are used as binders for various solvent based mastic construction adhesives, e.g. sub-floor and landscaping adhesives. They adhere excellently to numerous substrates, such as wood, glass, stone, metal and many plastics. They are ideal binders for the formulation of VOC-compliant adhesives for the US market as they can be formulated with acetone, methyl acetate and t-butyl acetate which are classified as exempt solvents from the regulatory definition of VOC by The United States Environmental Protection Agency (EPA).

Benefits:

  • Excellent solubility in mild solvents
  • Low odor
  • Excellent adhesion to numerous substrates

Applications:

  • Mastic construction adhesives, e.g.
  • Sub-floor adhesives
  • Landscaping adhesive

Product Recommendations

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During manufacturing of the foam, the EPS beats are treated with fire-retardant agents.

VINNAPAS® Vinyl Acetate-Ethylene (VAE) Polymer Dispersions

In the manufacture of fire-retardant EPS (expanded polystyrene) foam, VINNAPAS® vinyl acetate-ethylene (VAE) polymer dispersions serve as a binder for good adhesion of the functional coating to the particles and of the particles among each other. They are especially effective, as VAE exhibits inherently lower flammability than comparable technologies and shows very good compatibility with general ingredients for flame-retardant formulations, such as phenol, melamine, borax, aluminum hydroxide, magnesium hydroxide, carbon black or expandable graphite. The fire-retardant EPS foam can be used in the manufacture of aluminum structural insulated panels.

Benefits:

  • Cost-effective and easy to process
  • Exceptional dimensional stability of EPS board after curing
  • Excellent bonding between EPS particles
  • Good water resistance and non-slip properties
  • Excellent tack properties
  • Very good compatibility with widely used flame-retardant additives
  • Significantly reduced flammability of EPS sandwich panels

Applications:

  • Panels
  • Insulation facing film

HDK® Pyrogenic Silica

Chemical dowels based on free-radical curing systems and 2K epoxy systems can be efficiently rendered thixotropic by the addition of HDK® products. Hydrophobic grades are particularly effective at producing thixotropic effects, and are chemically inert in reactive resin systems, so that the rheological properties of the formulations remain unchanged over the typical storage times.

Benefits:

  • No settling of fillers in the components
  • High storage stability
  • The formulation shows good flow properties during processing
  • Exceptionally good sag resistance after processing and until complete curing

Product Recommendations

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