• Concrete Waterproofing

    Type B Waterproofing of Concrete Structures

    A comprehensive portfolio of products suitable for the waterproofing of retained structures and both covered and uncovered decks. Newton System 300 concrete waterproofing products are used to waterproof joints and service penetrations to concrete elements. This provides Type B integrally waterproof retained structures that require no further waterproofing to be completely watertight.

    The value of good concrete

    As a tool in any professional waterproofing designer’s arsenal, a concrete structure with crack widths limited to 0.2mm, and which conforms to BS EN 1992-1-1(3), is a perfect Type B solution. However, even when this is achieved, the question of whether the concrete requires further admixtures in order to fully achieve Type B waterproofing is still frequently posed.


    Nothing provides better primary resistance to water ingress, or a more effective Type B waterproofing system, than well-designed and well-placed reinforced concrete to limit the occurrence of cracking, with the inclusion of waterbars in the construction joints to preclude water.


    Having visited many failed basement waterproofing projects in our long history, we are yet to see a failure directly through the body of correctly designed and placed concrete. This is due to the fact that nearly all failed structures leak where the concrete is not – at joints, cracks, or where the concrete has been poorly compacted. Good quality concrete is inherently waterproof and the addition of other mix components is unlikely to prevent leakage at these defects. Nor, in many cases, will it provide additional benefit in relation to the requirement for the concrete design to limit crack widths.


    Clearly, getting the concrete correct is therefore extremely important; however, there are standard and much less costly additives that can aid in this. Plasticisers and superplasticisers, for example, lower the required water:cement (w/c) ratio, therefore reducing the incidence of capillaries forming, while also maintaining the necessary flow rates for the pour and allowing extended consistence. Also useful are pozzolans – standard additives that can be designed by the engineer and added directly at the batching plant, increasing strength and density, and further reducing concrete permeability.

    Admixtures and Type B

    As a standalone solution, a Type B structure is generally only suitable for areas that require a Grade 1 internal environment, or where the water table is below the internal level of the slab or raft. However, it is a brave person who bets that water will never come to bear against a below-ground structure at some point in its life.


    Case history also makes it impossible to guarantee faultless installation, with the 1999 Outwing v Weatherald High Court judgment ruling that it is “not reasonable to expect 100% defect-free workmanship”. Considering that Type B structures provide a barrier against positive hydrostatic pressure, such a structure must be inherently defect-free in order to be effective. However, the precedent set by Outwing v Weatherald means that we have to expect imperfections and, therefore, a risk of leaking.


    Common defects in Type B structures include voids and capillaries left by poor compaction or poor/high w/c ratios, badly installed construction joint accessories and the many forms of cracking. However, as already discussed, admixtures cannot fully prevent nor protect against such defects.


    In order to achieve an effective Type B structure alongside well-designed concrete and waterbars, there are instead some alternative and proactive techniques that can be used to form an effective means of protecting potential points of water ingress.


    First, by installing an injectable waterbar system, either standalone or alongside a hydrophilic waterbar, a maintainable system is achieved, allowing for the retrospective injection of leaking construction joints, to be used as a remedial treatment.


    Second, by installing an external Type A system alongside the Type B structure, a combined waterproofing solution is achieved, with the Type A membrane providing additional protection to the key critical construction joints and cracks. Even with the most technologically advanced, self-healing hydrophilic Type A membranes, which mechanically bond to the cast-in-situ concrete, it would be worth considering the technical benefits and the cost per square metre in comparison with the addition of the aforementioned admixtures.


    A below-ground concrete structure that uses water bars and joint protection at the kicker joint is able to achieve Type B waterproofing structure, suitable for a Grade 1 internal environment.

    A concrete structure that employs both a Type A external waterproofing membrane and Type B water bars at the construction joints, may create a below-ground structure that is suitable for all three grades of internal environment.