CRC i2® application cases – JointCast

Case JointCast front graphics - 1920px
Staircase at Copenhagen Plant Science Center – Created using CRC JointCast®

In his most recent post, CRC JointCast – Joints that are small, strong and simple, Bendt Aarup presented the origin and the idea behind JointCast – Hi-Cons special ‘super glue’ for on-site merging of elements into monolithic structures.

In this post I’ll use a few application cases to explain some of the challenges and considerations one need to be aware of to use the JointCast material successfully on a project level.

Bendt already mentioned two examples, the Catharina brugge in Leiden and the staircase at Per Aarsleff.

They are good examples of both the benefits and challenges encountered when using JointCast, and on the creativity needed to reach a good result, of course structurally, but perhaps even more importantly, for installation and aesthetics.

In both cases the main reason for using JointCast is the sheer size of the final structure. Since CRC i2® cannot be cast on site, element handling and transport is limiting to the sizes of individual elements. This is then compensated for by using JointCast to merge the elements to structurally perform as if they had been one monolithic piece. This is THE main benefit of JointCast.

Case JointCast 01
The rough gross size and weight of the two structures is app. 4 x 4 x 19 meters and 30 tons for the Per Aarsleff staircase and 36 x 11 x 1,5 meters and 150 tons for the Catharina bridge deck, making one-piece casting and transport inconceivable, both economically and practically.


Case JointCast 02
Installation process of the Catharina bridge showing the elements being aligned (l), fixed for casting (r. top) and after casting the Joints (r. bottom). Images by the contractor Gebr. Schouls B.V.


Case JointCast 03
Installation process of the Per Aarsleff staircase showing the elements after alignment, scaffolding and JointCasting (l) and one of the joints after striking the scaffolding (r).

The challenges, also encountered in the above mentioned projects are:

  • Aesthetics – colour and texture difference between the JointCast and “normal” CRC i2®
  • Tolerances in the Joints – Structurally as well as handling them in an aesthetically acceptable way
  • Curing time required – temperature dependant
  • Execution – difficult to cast and a very critical part of the structural integrity
  • Scaffolding – often complex shapes of the Joints

It was commented to Bendt’s blog post that a limitation for the use of Jointcast is that the use must be taken into consideration at an early stage in the design phase – and this is very true due to the list of issues above, and one of the reasons why mainly Hi-Con uses the material for our own elements.

So how to handle the challenges?

Several challenges are related to the same task: Casting the joint.

When joining two elements with normal installation tolerances there will be dis-alignment. The width of the Joint to some extent makes this easier to smoothen visually, but it will never be a perfect shape, just as in-situ formwork may shift and cause small deviations from intended shape.

To minimise the effort needed to finish the joints, the JointCast section is often cast 5 mm short of being flush with the adjacent elements. This allows a painter to use a repair putty, grout or similar, to shape the transition between the elements without the necessity to grind excess JointCast material away – which would take a long time…

The scaffolding is typically tailor-made to each joint and ordered together with the formwork parts, and when above approach to finishing is used, the scaffolding is attached by self-cutting screws drilled directly into the edges of the adjacent elements.

This of course means that the entire surface must be sanded down and painted to cover up holes, patches of repair material, polished sections etc. This is most often the selected option to handle the aesthetic issue – as was the case for the Parapet of the Per Aarsleff staircase. The steps are not connected with JointCast, and consequently the top surface is the plain smooth-cast soap-washed CRC i2® surface.

An alternative approach is to use the elements themselves to hide the JointCast as much as possible.

This was the case at the Catharina Brugge, where an elongated part of the edge profile “shell” was used as permanent formwork for the Jointcast in the structural cross section of the bridge profile.

This “shell” solution was originally developed for another staircase, the Copenhagen Plant Science Center. In this case the JointCast was poured from above through a 5 cm slit, and could be inspected from below after casting to ensure that the joints had been successfully filled. Below a video showing the entire stair underside, with both completed joints after striking the scaffolding and joints with scaffolding still in place.


Copenhagen Plant Science Center JointCast connections


Case JointCast 04
Copenhagen Plant Science Center Joint after striking the scaffolding, underside showing the actual size of the joint (l) and the edge (“shell”) detail on the top side with the 5 cm slit allowing filling of the joint (r).


In this case, the underside was not painted, but a render added to create a uniform texture – but to obtain the same colour, a semi-transparent silicate paint was added. This made it possible to retain a lot of the raw concrete “feel” to the staircase, while softening the variation in colour – before and after images are shown below.


Case JointCast 05
Copenhagen Plant Science Center staircase underside after completed on-site rendering of Joints and lifting sockets (top) and after completed treatment with colour adjusted semi-transparent silicate based paint (bottom)


The same approach was used at the Catharina Brugge, except for the Joint being open to the top, allowing inspection to be made during the on-going casting of the joint. In this case a coloured screed was added for architectural reasons, covering the rough upper surface of both elements and JointCast.

 At Hi-Cons main office expansion, the complex columns have been created using JointCast as well, to avoid very expensive formwork. In this case the lasing option will also be used to cover the difference in colour – to such a degree that we have cast the Joints in light-coloured JointCast – just to make a point of it!


Column JointCast


Case JointCast 06
Column Joint after striking the scaffolding at the side – Jointcast in contrasting colour.


I’ll report more from the expansion later, and will include an update after we have added the semi-transparent paint to the JointCast columns.

In addition to the structural and aesthetic issues in the final stage, the timescale also need to be considered. The JointCast builds up strength very quickly in warm weather, and there have been examples of a structure being put into use just 2 days after the JointCast was poured.

But the material is quite temperature sensitive, and in cold weather temporary supports may have to be kept in place for several weeks, while the temperature on site is registered and used to calculate the on-going accumulated maturity.

All the above aspects, from designing the element geometry, divisions and reinforcement, the casting and making good of the joints, final surface expression to the execution timetable must be considered in the project preparation phase. This is typically an iterative process between client, advisors, contractor and Hi-Con, and ends up in a formulated and agreed plan of execution, normally even before an order for the structure is placed.

But don’t let that scare you – at Hi-Con we have more than 15 years of experience in using the material, and will guide you through the process, so keep challenging us: If you can imagine it we will find an innovative way to realize it to an impressive result!


Case Jointcast 07
Catharina brugge, Leiden by night. Foto Gerda van Ekris.


Thank you for reading the post. If you have any questions, leave a comment below.



Tommy Bæk Hansen
Group Product Development Manager

Read about Tommy’s 20 years of experience with UHPC right here

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