Product

 

 

SILBIONE RTV 4545 QC A may be stored for up to 6 months from its date of manufacturing.Please consult the Safety Data Sheet of this product.

SILBIONE RTV 4545 QC A

SILBIONE RTV 4545 QC A/B is a two component silicone elastomer that crosslinks at room temperature by polyaddition reaction. The polymerization can be accelerated by heat.

The silicone materials are delivered as two low viscous liquid components, which once mixed and cured, transform into an elastic and resistant material. Polymerization occurs without the evolution of heat.

2 Part RTV

Liquid Silicone Rubber

​•Very good mechanical properties                                         

•Low viscosity

•Easy processing – mixing ratio 100 : 100

•Shoe inlays

•Liners for limb prostheses 

•Prosthetic bandages

North America;Asia Pacific;Central and South America

 Characteristics_A

 

 

Viscosity2000PairedCompcP

 Characteristics_B

 

 

Viscosity2000PairedCompcP

 

 

 Table_Characteristics_A_And_B

 

 

hardness_cd523e03-72a3-4261-93f9-36f7bbeeafb1hardness_cd523e03-72a3-4261-93f9-36f7bbeeafb1Hardness44.5PairedMixSh 00
pot-life_0d649a54-7503-4c7c-a047-9d0c4b3e9f6apot-life_0d649a54-7503-4c7c-a047-9d0c4b3e9f6aPot life45PairedMixmin
elongation_68a5ddf2-2baf-4e60-ac6f-0a8a18a758b2elongation_68a5ddf2-2baf-4e60-ac6f-0a8a18a758b2Elongation> 600PairedMix%
tear-strength_a14604f3-602f-4240-a9bf-15d90bbfbd13tear-strength_a14604f3-602f-4240-a9bf-15d90bbfbd13Tear strength> 45PairedMixASTM D 624lb/in

 

 

 

 

SILBIONE RTV 4545 QC BSILBIONE RTV 4545 QC B/our_offer/Product/90061123/90061122/SILBIONE-RTV-4545-QC-B

 

 

1. Mixing the two components

The components A and B are mixed by weight in the above indicated ratio. The mixing can be carried out either by hand or using a low-speed electric or pneumatic mixer to minimize the introduction of air and to avoid any temperature increase.

It is also possible to use a special mixing and dispensing machine for the two silicone components. Further information is available upon request.

2. Degassing

The mixture should be degassed preferably at 30 to 50 mbar to eliminate any entrapped air. If a dispensing machine is used, the two components are degassed separately prior to mixing.

The silicone mixture expands to 3 to 4 times of its initial volume and bubbles rise to the surface. Wait a few minutes to complete the degassing and then flash the vacuum. The silicone is ready for pouring, either by gravity or under low pressure.

Note: Flashing the vacuum once or twice accelerates the degassing. It is recommended to use a container with a high diameter / height ratio.

3. Polymerization

The system polymerizes at 23 °C. The curing may be slowed down at lower temperature and contrary accelerated by heat.

Contact with certain materials can inhibit the crosslinking. See list below:

  • natural rubbers vulcanized with sulphur,
  • RTV 2 silicone elastomers catalyzed with metal salts, e.g. tin-compounds,
  • PVC stabilized with tin salts and additives,
  • epoxy resins catalyzed with amines,
  • certain organic solvents, e.g. ketones, alcohols, ether etc.  

In case of doubts, it is recommended to test the substrate by applying a small quantity of the mixed silicone on a restricted area.

1. Mixing the two components The components A and B are mixed by weight in the above indicated ratio. The mixing can be carried out either by hand or using a low-speed electric or pneumatic mixer to minimize the introduction of air and to avoid any temperature increase. It is also possible to use a special mixing and dispensing machine for the two silicone components. Further information is available upon request. 2. Degassing The mixture should be degassed preferably at 30 to 50 mbar to eliminate any entrapped air. If a dispensing machine is used, the two components are degassed separately prior to mixing. The silicone mixture expands to 3 to 4 times of its initial volume and bubbles rise to the surface. Wait a few minutes to complete the degassing and then flash the vacuum. The silicone is ready for pouring, either by gravity or under low pressure. Note Flashing the vacuum once or twice accelerates the degassing. It is recommended to use a container with a high diameter / height ratio. 3. Polymerization The system polymerizes at 23 °C. The curing may be slowed down at lower temperature and contrary accelerated by heat. Contact with certain materials can inhibit the crosslinking. See list below natural rubbers vulcanized with sulphur, RTV 2 silicone elastomers catalyzed with metal salts, e.g. tin-compounds, PVC stabilized with tin salts and additives, epoxy resins catalyzed with amines, certain organic solvents, e.g. ketones, alcohols, ether etc. In case of doubts, it is recommended to test the substrate by applying a small quantity of the mixed silicone on a restricted area.

 

 

1. Mixing the two components

The components A and B are mixed by weight in the above indicated ratio. The mixing can be carried out either by hand or using a low-speed electric or pneumatic mixer to minimize the introduction of air and to avoid any temperature increase.

It is also possible to use a special mixing and dispensing machine for the two silicone components. Further information is available upon request.

2. Degassing

The mixture should be degassed preferably at 30 to 50 mbar to eliminate any entrapped air. If a dispensing machine is used, the two components are degassed separately prior to mixing.

The silicone mixture expands to 3 to 4 times of its initial volume and bubbles rise to the surface. Wait a few minutes to complete the degassing and then flash the vacuum. The silicone is ready for pouring, either by gravity or under low pressure.

Note: Flashing the vacuum once or twice accelerates the degassing. It is recommended to use a container with a high diameter / height ratio.

3. Polymerization

The system polymerizes at 23 °C. The curing may be slowed down at lower temperature and contrary accelerated by heat.

Contact with certain materials can inhibit the crosslinking. See list below:

  • natural rubbers vulcanized with sulphur,
  • RTV 2 silicone elastomers catalyzed with metal salts, e.g. tin-compounds,
  • PVC stabilized with tin salts and additives,
  • epoxy resins catalyzed with amines,
  • certain organic solvents, e.g. ketones, alcohols, ether etc.  

In case of doubts, it is recommended to test the substrate by applying a small quantity of the mixed silicone on a restricted area.

1. Mixing the two components The components A and B are mixed by weight in the above indicated ratio. The mixing can be carried out either by hand or using a low-speed electric or pneumatic mixer to minimize the introduction of air and to avoid any temperature increase. It is also possible to use a special mixing and dispensing machine for the two silicone components. Further information is available upon request. 2. Degassing The mixture should be degassed preferably at 30 to 50 mbar to eliminate any entrapped air. If a dispensing machine is used, the two components are degassed separately prior to mixing. The silicone mixture expands to 3 to 4 times of its initial volume and bubbles rise to the surface. Wait a few minutes to complete the degassing and then flash the vacuum. The silicone is ready for pouring, either by gravity or under low pressure. Note Flashing the vacuum once or twice accelerates the degassing. It is recommended to use a container with a high diameter / height ratio. 3. Polymerization The system polymerizes at 23 °C. The curing may be slowed down at lower temperature and contrary accelerated by heat. Contact with certain materials can inhibit the crosslinking. See list below natural rubbers vulcanized with sulphur, RTV 2 silicone elastomers catalyzed with metal salts, e.g. tin-compounds, PVC stabilized with tin salts and additives, epoxy resins catalyzed with amines, certain organic solvents, e.g. ketones, alcohols, ether etc. In case of doubts, it is recommended to test the substrate by applying a small quantity of the mixed silicone on a restricted area.

 NeedAnExpert

 

 

 

 

 CS

 

 

 SS

 

 

 Certif

 

 

 

 

 Brochures

 

 

 TDS