실리콘 선도자 다우코닝
로그인 | 회원 정보 | 고객 서비스 | contact us      한국 (한국어). 변경
검색
이동
제품 검색             기술 자료실             솔루션             프리미에 서비스             다우코닝 소개
홈페이지 > 디스커버리 센터 > Chemistry Corner
Discovery Center Home
Silicone Showcase
Toolbox
Safety & Sustainability
Proven Innovation
Chemistry Corner
Physical & Chemical Properties
Tailoring Properties & Performance
Organically Modified Silicones
Cure Systems
How Silicones Work
Silicone Manufacturing
Fascinating Silicone™ Chemistry Corner – Foam Stabilizers

How silicone foam stabilizers work

Sometimes foam is a good thing. Polyurethane foams, for example, are formed by allowing a liquid mixture containing a large amount of a polyol to react, while a blowing agent generates the foam cells.

Stabilizing the foam requires the use of a surface active agent, which orients itself on the cell walls in a precise manner and causes them to thin. Many organic surfactants have a surface tension that is higher than 32 mN/m, the surface tension of the polyol in the foam mixture. Consequently, they are not able to stabilize polyurethane foam.

Silicone polyethers have such low surface tension, they can potentially lower the surface tension of the foam another 10 mN/m! This makes them ideal surfactants for use not only in polyurethane foam but also in other applications where the creation of stable foams is desired.

Silicone surfactants help stabilize foams two ways: by thinning the cell walls and by promoting the creation of large numbers of small vs. large bubbles.

The Marangioni effect on cell stabilization

  • Fluid flows from low surface tension to high.
  • Liquid flow pushes the fluid back to stabilize the thinned wall.

Polyurethane foam made without silicone surfactant has a coarse, irregular appearance.Polyurethane foam made with silicone surfactant is finer, and more consistent.
  
Foam Without Silicone SurfactantFoam With Silicone Surfactant

Anatomy of a Silicone Polyether Surfactant

The silicone polyether surfactant acts at the interfaces of the formulation components. Its backbone aligns with hydrophobic/nonpolar materials, while its pendant polyether groups can be designed to be soluble in different polar components of the system.

A silicone polyether has a siloxane backbone to which pendant polyether groups are attached.

Silicone benefits for foam stabilization

Silicone surfactants:

  • Improve the compatibility of formulation ingredients
  • Help disperse inlet gas
  • Prevent bubbles from coalescing
  • Stabilize the bubbles

Typical foam stabilization applications

  • Flexible foams for furniture cushions, subway train seats, auto dashboards, and packaging
  • Rigid foams for insulation and construction applications
  • Personal care products, such as shaving creams, shampoos, and foaming hand cleansers
  • Fire-fighting foams
  • Carpet cleaners

Learn how other types of silicones work.
Did you know ... silicones not only stabilize foam. They can also destroy it! Learn how silicone defoamers work.

Expand your understanding

Learn about:
Silicones for Manufacturing

Easy reading:
Safer subway seats ... all aboard!

Explore your material options

Get answers

Have a question about how silicone foam stabilizers work?

Ask an Expert

Foam stabilization expert
실리콘 제품 및 기술 정보
다우코닝의 실리콘 제품 및 기술 관련 정보를 이메일로 보내드립니다.
구독
개인정보 보호정책


< 화학 코너 홈페이지로 돌아가기
미디어 센터    |    채용 정보    |    사이트 맵    |    글로벌 웹사이트
웹사이트 이용 약관개인정보 보호정책을 알고 있으며 이를 준수합니다.
©2000 - 2012 다우코닝사. 모든 권리는 다우코닝에 있습니다. 다우코닝은 다우코닝사의 공식 상호명입니다.
XIAMETER®와 '미래창조, 다우코닝과 함께 하겠습니다'는 다우코닝사의 공식 트레이드마크입니다.