ANCHOR BOLTS – EXPANSION-FREE ANCHORS
Setting a cast-in-place anchor in just the right location can be a daunting task. It’s so difficult, in fact, that post-installed anchors are now becoming the preferred method for attaching wood, steel, and cold-formed steel components to concrete instead of cast-in-place anchors.
For fixing of brackets, balcony railings, machines, wood & steel structures etc in cracked and non cracked surfaces and other solid base materials.
Expansion free, Through fixing.
Economic & Easy installation – without any special tools.
Reduction of installation time of up to 50%.
Torque control not required.
Being a non expansion fixing, these can be installed closer to the concrete edge.
For the same loads, smaller sizes can be used thereby reducing overall cost.
ETA approved for option 1, for use in cracked/ non-cracked concrete
Is supplied in zinc plated & SS
- Expandet C-Bolt with flange for fixings in cracked/ non-cracked concrete and lightweight concrete . It can be used for fixing brackets, balcony railings, machines, wood- and steel structures etc.
• Small drill diameter and Expansion free.
- • Through fixing.
• Economical and easy to use- without use of special tools.
• Reduction of installation time up to 50%.
• Torque control is not required.
• Can be installed close to edges.
• ETA approved in Option 1, for use in cracked and non-cracked concrete .
• Anchorages can be designed in Expandet Calculation Software.
Making the right Anchor Choice for Concrete.
Selecting the correct anchor for an application is not as simple as it may appear. There are actually several factors that affect proper anchor choice, so considering them all is essential.
When choosing a post-installed anchor consider the following main factors.
1. Environmental conditions
Interior exposure only will require low corrosion resistance whereas a sea-front application is a severe case requiring high corrosion resistance with other applications falling between these extremes.
2. Building code requirements
Local regulations relating to structural loads will influence the selection of anchor. For example, in case of earthquake regions, anchors suitable for cracked concrete must be considered.
3. Substrates (what is the anchor being installed into)
The material into which the anchor is being installed into is known as the substrate and includes concrete, lightweight concrete, brick etc.
The manufacturer’s catalogue will have a product selection guide indicating which anchors are most suitable for different substrates.
4. Anchor configurations
Factors to consider here include how close the anchors will be placed to the edge of the concrete, spacing between anchors, thickness of substrate etc.
Non expansion anchors such as Multi-Monti and Injection Mortar are better suited for close to edge fixing.
Thickness of the concrete should also not be overlooked. The Drop in Anchors are better suited for shallow substrates.
5. Anchor capacities
For thicker concrete, adhesive anchors will often have better capacity.
You can utilise the design software of the manufacturer to help in selection in this respect.
6. Jobsite obstacles that may hamper installation
This is something that may be difficult to predict or control. Consider the following.
Who will perform the installation?
Will the holes be drilled properly?
Are the different workmen able to ensure correct alignment?
Is a qualified supervisor going to be present during installation?
Will suitable installation equipment be available?
Are there any hindrances to proper installation?