What is IWA14?
If you’re looking for bollards, road blockers or vehicle barrier systems you may have come across the term IWA 14, but what does it mean?
IWA 14 is an impact test standard detailing the method and means of measuring the performance outcome for impact tested vehicle security barriers (VSB).
As one of the organizations involved in the development of IWA 14, we’ve put together this handbook in order to help give you a better understanding of the standard.
Inside you can find an explanation of IWA 14 and the standards history. The guide will provide you with a walkthrough of an example product rating, explaining each section so that you can easily interpret the rating code in the future.
IWA 14 was designed to be considered the ‘world’s impact test standard’ with input from the Centre for Protection of National Infrastructure, British Standards Institute, the US Department of State and others.
What does IWA14 stand for?
IWA stands for ‘International Workshop Agreement’ and is overseen by the International Organization for Standardization (ISO).
Okay now you know what it stands for, but what exactly is an ‘International Workshop Agreement?’ Unlike most documents overseen by the ISO, the IWA 14 standard was developed outside the usual committee system.
This allowed key industry players to negotiate in an open workshop environment giving them the opportunity to shape the IWA standard.
The diagram below taken from the ISO website shows the steps needed in order to develop an international workshop agreement.
Making sense of IWA14 rating
When you first see the string of numbers and letters that make up the IWA 14 impact test rating, it’s not exactly clear what you’re looking at.
For those of you who are familiar with PAS 68 or have read our guide on this British impact test specification (sometimes referred to as a standard) then this code will be familiar to you. Though you may have noticed a few key differences.
As with our previous guide, the best way to explain the IWA 14 rating is to break it down, step-by-step.
For the purpose of this, we will be using our Centurion Shallow Mount Bollard as an example as it has been fully certified to the IWA 14 standard.
Similar to PAS 68, the IWA 14 rating starts with the type of test that was conducted, which, in this case, was a vehicle test. This means that an actual vehicle was crashed into the bollard in order to certify the product.
IWA 14-1 differs from PAS 68 in that vehicle tests are the only method used, while PAS 68 also allows for simulated and pendulum tests.
Next, we have the type of vehicle that was used for the test. This section shows the vehicle type and the mass of the vehicle.
As with PAS 68, the vehicle weight is measured in kilograms, so taking our Centurion shallow mount bollard as an example, it was tested with a 7,200 kg vehicle.
Depending on the test, the vehicle being used can range from 1,500 kg at the lowest weight to 30,000 kg at the highest.
If you are familiar with PAS 68, this may be where you notice the first difference between the two ratings. With IWA 14 you can see that instead of 7,500 kg, the vehicles used are 7,200kg.
This is part of the IWA 14 standard’s role in marrying the PAS 68 standard which uses 7,500 kg vehicles and the ASTM standard which uses 6,800 kg.
IWA 14-1 has a larger number of vehicle categories than either PAS 68 or ASTM with a total of nine types of vehicle.
Below you can see a vehicle classification chart detailing the different classes of vehicle that are used for testing IWA 14 products.
After the vehicle type, you have the test speed which indicates the speed in kilometres per hour (kph) that the vehicle was travelling at for the test.
For IWA 14 the impact speed can range from 16-112 kph, though the speeds you will most commonly see are 32 kph (20 mph), 48 kph (30 mph), 64 kph (40 mph) and 80 kph (50 mph).
In our example of the Centurion bollard you can see that it was tested at a speed of 80 kph (50 mph).
You may be asking; how do I know which rated product is right for me? Well, in most cases the product rating you need will be determined by conducting a ‘dynamic vehicle assessment’.
These assessments will usually be carried out by a certified security consultant or a Counter Terrorism Security Advisor. A VDA will help identify the vehicle threat and establish its max velocity of attack.
Next, you have the angle that the vehicle impacted the product, this will usually be 90° however you will sometimes see 30° and 45°. The 30° and 45° test certifications are sometimes requested when installing products into scenarios with a shallow angle of attack such as a bridge deck or for testing fences.
You also need to be careful as some products will be directional and may perform at 45° but not at 225°.
The impact penetration figure shows how far in meters the load carrying part of the vehicle travelled passed the VSB datum line. The datum line is the point from which vehicle penetration is measured. For the IWA 14 standard, this is the front of the product as can be seen in the diagram below.
This is another area where IWA 14 differs from PAS 68, where penetration is measured by how far the load-carrying part travelled past the back face of the product. For products such as wedge road blockers this can represent a considerable difference.
Looking at our example, our Centurion bollard achieved a penetration rating of just 1.9 meters. The level of penetration considered acceptable can vary depending on the perimeter line in relation to the asset that you are seeking to protect.
How else does IWA differ from the other standards?
If you’re familiar with PAS 68 or have read our guide, you may have noticed that the IWA 14 rating doesn’t include debris dispersion. The major debris dispersion measurement showed the furthest point that debris weighing over 25 kg travelled after the impact.
This is included as part of the PAS 68 rating to help security engineers to visualise the test. However, in the past, this has caused some confusion and so was removed from the IWA 14 standard.
IWA 14 also differs in its testing conditions. With ASTM the products need to be installed in low cohesive compacted soil, while PAS 68 doesn’t define a soil type for products being tested in conditions appropriate for use. IWA 14 on the other hand, allows for both in soil or site-specific installation for the test.