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Technical information

What you should know about Stirrer Shafts

BOLA Stirrer Shafts consist of a PTFEGlossaryPTFEPolytetrafluoroethylene -jacketed stainless steel shaft and a stirrer blade made of solid PTFEGlossaryPTFEPolytetrafluoroethylene . The stainless steel core provides high mechanical stability and allows a safe fixing in the agitator.

Unbreakable

All glass stirrer shafts which are commonly used in laboratories are very fragile. Dropping, stirring solid materials or too much power transmitted from the agitator to the product can cause broken glass. Due to their solid stainless steel core, BOLA Stirrer Shafts are protected against all these possibilities of breaking.

Universal chemical resistance

Due to the thick PTFEGlossaryPTFEPolytetrafluoroethylene -jacket, the product which is stirred is only exposed to PTFEGlossaryPTFEPolytetrafluoroethylene . This assures an almost universal chemical resistance. PTFEGlossaryPTFEPolytetrafluoroethylene -jacketed stirrer shafts can be used whenever stirrer shafts made of PPGlossaryPP Polypropylene (polypropylene), glass or stainless steel are not sufficient.

Temperature resistance

Stirrer shafts made of PPGlossaryPP Polypropylene (polypropylene) are deformed at temperatures exceeding +100°C and cannot be used any longer. All BOLA PTFEGlossaryPTFEPolytetrafluoroethylene  jacketed stirrer shafts can be used at temperatures of up to +250°C without any negative effects on their chemical resistance.

Non-adhesiveGlossaryadhesiveDue to polarity, a substance has a certain power which allows it to adhere to another substance, for example liquids adhere to walls of containers. BOLA labware normally has non-adhesive properties.

The surfaces of glass and stainless steel stirrer shafts allow adhesion of products (in particular such as dyes and glues). BOLA PTFEGlossaryPTFEPolytetrafluoroethylene  Stirrer Shafts, however, are non-adhesiveGlossaryadhesiveDue to polarity, a substance has a certain power which allows it to adhere to another substance, for example liquids adhere to walls of containers. BOLA labware normally has non-adhesive properties. and therefore eliminate adhesion of dyes and glues.

Interchangeability

At present, most stirrer shafts used in laboratories are made of glass. All BOLA Stirrer Shafts are available with the same diameters, lengths and surface qualities (KPG) as stirrer shafts made of glass. Thus, the user can easily replace the glass stirrer shaft with a PTFEGlossaryPTFEPolytetrafluoroethylene -jacketed stirrer shaft and does not have to change agitators, couplings and guiding devices.

Safe fixing

The upper end of the BOLA Stirrer Shaft is not jacketed with PTFEGlossaryPTFEPolytetrafluoroethylene  and can therefore be fixed safely into the agitator or the stirrer coupling.

Solid stirrer blade

The stirrer blade is fixed tightly to the stirrer shaft and cannot be loosened by the product which is still turning after switching off the agitator. The stirrer shafts are suitable for clockwise and counterclockwise rotation.

Frequently asked: Why don’t you coat stirrer shafts?

Coating with PTFEGlossaryPTFEPolytetrafluoroethylene  only provides a thin plastic layer. This layer can be damaged very easily by aggressive products, friction or rough handling during storage. A possible consequence is that parts of the layer are peeled off.

The BOLA solution: A solid PTFEGlossaryPTFEPolytetrafluoroethylene  jacket together with solid stirrer blades. BOLA Stirrer Shafts provide a long durability and an excellent mechanical resistance.

Suitable chucking diameter of stirrer shafts

Very long stirrer shafts need to have suitable diameters to be stable enough. All BOLA Stirrer Shafts have adequate diameters and lengths. If the chucking diameter of a stirrer shaft is too big, it can mostly be reduced by machining. This machining has to be made totally self-centring to avoid eccentricity of the stirrer shaft. Please contact us if you need a reduced chucking diameter.