Safely securing connections in structural steel

From the Empire State Building in New York to the Eiffel Tower in Paris and Burj Khalifa in Dubai, steel has been used in some of the world’s most famous landmarks and is used everywhere around us, in buildings, bridges, highways or other civil engineering projects.

Steel is one of the most commonly used materials in commercial and industrial building construction as it provides high design flexibility, durability, and low long term maintenance costs. Since steel has a higher strength than concrete, it allows for bigger and more slender constructions. It is also much lighter compared to frameworks made of concrete. Using steel frames is also time-efficient since pillars, beams and other construction elements can be delivered to the construction site ready to install. This, in turn, gives great savings potential.

Connecting structural steel

In the past, riveting was a common way to connect structural steel. Today, bolting and welding are the primary connection methods. Both methods have their advantages and constraints. A general practice is that welding is done at an earlier stage, in a workshop, where it can be executed in a controlled environment and then larger frameworks can be assembled by bolts at the construction site.

Performing welding at a construction site, however, may lead to uneven joint quality and is often very costly. It requires specialist skills and equipment and is sensitive to the surrounding environment since uneven heating and cooling members may distort, which can result in additional stresses.

With bolting it is possible to assemble structural steelwork parts quickly and cost-effectively. It is also easier to get the steel parts fitted and adjusted during assembly on site. Unlike welding, bolting is less susceptible to poor weather conditions and has fewer inspection requirements.

Steel construction elements are safety-critical and need to ensure that the final result is strong and durable. Connections in such structures must comply with strict quality requirements and standards for the design (the Eurocodes) and fabrication (EN 1090-2) of structural steelwork. This means that both welding and bolting have regulations to follow according to Eurocode 3.

 

Securing preloaded bolting connections

Bolted connections can be commonly divided into preloaded and non-preloaded structural bolting assemblies. As recommended in EN 14399, preloaded bolts are almost always used on bridges. These bolts are specially designed to withstand vibration and dynamic loads and also recommended when slip between joining parts is to be avoided. In buildings, preloaded bolts may be utilized where oversized or slotted holes are used to increase tolerances during assembly.

For preloaded bolted steel connections there are two different bolting systems developed and standardized in Europe (EN 14399): HV-sets (in accordance with EN 14399-4 and EN 14399-8) and HR-sets (in accordance to EN 14399-3 and EN 14399-7). Both systems are similar and consist of bolts, pre-lubricated nuts, and washers. The radius under the bolt head is a particular characteristic for those bolt sets. It is larger than for normal standard bolts in order to decrease the notch effect.

The manufacturer of these bolt sets provides the customer with tightening guidelines that must be followed according to the European regulations. In spite of this practice, it is known that the bolts may still loosen due to dynamic loads and require time-consuming and costly retightening.
Using standard locking washers would be the easiest solution to cope with the loosening of bolted joints or to decrease retightening frequency. For structural steel parts using HV/HR-sets, this is, however, not the case. The radius under the bolt head makes the use of common locking methods with HV/HR bolt sets impossible.

It is not only impossible design-wise but also from a legal perspective since regulations in Eurocode only allow dedicated washers according to EN14399 for these types of bolt sets.

The Nord-Lock Group has developed a locking washer specially designed to fit the HV/HR sets. Each Steel Construction (SC) washer pair has chamfers on the inner diameter to ensure an optimal contact surface between the bolt and the washer. Nord-Lock wedge-locking technology secures the bolt with tension instead of friction preventing the bolt from rotating loose. The washer is CE approved to be used together with HV bolt sets.

References:
http://www.steelconstruction.org/
http://www.steelconstruct.com/site/
http://www.steelconstruction.info/

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