Threaded connections Round slightly spiral threaded connections are possible on tubular ends of glass items. Such glass threading is more easily and commonly employed on the outside, but can also face the inside. In use, glass threading is screwed into or onto non-glass threaded material such as plastic. Threads are usually created by forming the glass while hot, which results in a smooth finish. Glass vials typically have outer threaded glass openings onto which caps can be screwed on. Bottles and jars in which chemicals are sold, transported, and stored usually have threaded openings facing the outside and matching non-glass caps or lids. Tapered joints can include an external thread for a plastic nut with an O-ring to seal the joint, Rodaviss joints also include a split ring that allows the nut to be used to separate the joint.
Hose connections set-up with conically tapered ground glass joints connecting the coil condenser with an adapter to allow inert gas (nitrogen or argon) to leave the vessel (top) and two-necked flask. Another ground glass joint connects the second neck to another adapter for introduction of an inert gas.
Laboratory glassware, such as
Buchner flasks and Liebig condensers, may have tubular glass tips intended for insertion into a hose, often with barbs to retain the hose, and may be tapered to accept a wider range of hose diameters. These are typical for connection of cooling water, vacuum lines, gas transport, or drains. A special clip may be placed around the mated hose to prevent it from slipping off the connector. A number of brands, including
Quickfit, have begun using threaded connections for hose barbs. This allows the barb to be unscrewed from the glassware, the hose pushed on and the setup screwed back together. This helps avoid accidentally breaking the glass and potentially doing serious harm to the chemist, as will sometimes occur when pushing the hoses directly onto the glass.
Adapters For either standard taper joints or ball-and-socket joints, inner and outer joints with the same numbers are made to fit together. When the joint sizes are different, ground glass
adapters may be available (or made) to place in between to connect them. Special clips or pinch clamps may be placed around the joints to hold them in place.
Round-bottom flasks often have one or more conically tapered ground glass joint openings, or
necks. Conventionally, these joints at the flask necks are outer joints. Other adapters, such as distillation heads and vacuum adapters, are made with joints that fit in with this convention. If a flask or other container has an extra outer ground-glass joint on it, which needs to be closed off for an experiment, there are often conically tapered inner ground-glass stoppers for that purpose. In some cases, small hook-like glass protrusions may be fused onto the rest of the glass item near a joint to allow an end loop of a small spring to be attached, so the spring helps keep joints temporarily together. The use of a special very small size of conically tapered fitting for glass, plastic, or metal parts called a
Luer fitting or adapter has become more widespread. Originally, Luer fittings were used to connect the hub of a needle to a
syringe. Where the use of ground glass presents a problem, as in the production or distillation of
diazomethane (which may explode on contact with rougher surfaces), equipment with smooth glass joints may be used.
Joint clips for holding cone and socket joints together, in three sizes: red (29), green (24), yellow (14) To prevent a joint from separating during a reaction process, various types of plastic or metal clips or springs can be used to secure the two sides together. They are available in a variety of materials for different temperature and chemical environments. Patented in 1984 by
Hermann Keck, plastic joint clips are usually made of
polyacetal, and are colored according to joint sizes. Polyacetal melts at a reasonably low temperature (around 175 °C) and begins to soften around 140 °C. As glassware temperatures are recommended up to 250 °C, care needs to be taken that clips made from this material are not being used to hold glass together that will get this hot. Typical problem areas include a flask over the plate (which may drop off the end of the column as it heats) and the connection the condenser makes to the still head (which will reach high temperatures and may allow the condenser to fall off). As such, different clips should be used at these points or the glassware should be clamped so that these elements can't slide apart or don't need the clip. Polyacetal clips have another problem: the material is strongly affected by corrosive gases. This effect can be so dramatic that the clip will fall apart in minutes of exposure to minute quantities leaking through greased, ground tapers. Importantly, this failure mode is sudden and without warning. PTFE joint clips are sometimes used, as its recommended temperature peak matches that of most practical chemistry work. Its highly inert nature also makes it immune to degradation around the corrosive gases. However, it is both expensive and will begin producing
perfluoroisobutylene if heated beyond its specified temperature. Care must be taken to avoid this, given the level of risk the result presents. The same is true of using
Krytox and chemically resistant
Molykote (PTFE thickened, fluoro based) oils and greases for
glassware seals. A high grade
stainless steel joint clip is a final option. Naturally, this can withstand the entire temperature spectrum of
borosilicate glass and is reasonably inert. Lower grades of stainless steel are still rapidly attacked in the presence of the corrosive gases and the clips themselves are often as expensive as PTFE. Some glassware features barbs (devil's horns, Viking helmet) protruding from the sides of the tapers. Small stainless steel springs are used on these to hold the joints together. The use of springs is beneficial when dealing with positive pressures, as they apply enough force for the glass to operate, but will open the taper if an unexpected excursion occurs. This method is considered quite old fashioned, but is still used on some of the most well known and high-end glassware available. For situations where the simple spring action of metal wires or plastic is not strong enough or are not convenient for other reasons, screwed clamps can be used to hold joints together. Plastic collars are often used on microscale equipment. ==Hermetic sealing==