The construction industry’s demand for fast, efficient, sustainable modular systems has led to a diverse range of precast off-site solutions being designed, engineered and manufactured off-site, under factory conditions that offer a real alternative to traditional on-site construction and an answer to the current skills shortage the industry is facing.
Whether it is a precast chamber with a hydro-brake® pre-fitted or a bespoke manhole section which has been specially designed, that speeds up installation, whilst offering a safe working environment or a flatpack system that reduces the site time programme and disruption to local residents, the rise of precast off-site solutions, that are based on sound design and engineering knowledge are resulting in minimal site installation costs and increased health and safely benefits.
This theory is backed by The Construction Industry Council’s Offsite Housing Review from February 2013 that found there is a massive opportunity to use offsite solution products to deliver the new homes that are badly needed. The report identified potential benefits in a number of areas:
• speed of production
• speed of build on site
• cost, quality and uniformity of build
• sustainability and waste reduction
• validation and testing
• health and safety
A large number of off-site solutions are manufactured using precast concrete methods unlike other materials where a large number of solutions are installed on-site using the contractors workforce.
Due to the rise of the popularity of off-site products, manufacturers are now offering CPD style presentations to show exactly what they can offer and how these precast solutions can make life easier for both the construction team and the on-site team.
For more information on how the Marshalls CPM Off-Site Solutions team can help you please call 01179 814500 or email firstname.lastname@example.org
Over the last few years, climate conditions have altered causing widespread flooding across the UK. Developers are now continually looking for solutions to ensure that the disruption caused by flooding is kept to a minimum where possible and concrete has become a real sustainable solution for many.
Not only are concrete products inherently resistant to uplift or floatation due to their weight during flooding and cases of rising groundwater but they are also resistant to the damage from the impact of hard objects carried during flooding and recent developments in product innovation has seen hydraulic features being incorporated into concrete systems such as flow control devices and silt traps etc.
A wide range of engineered concrete SuDS products have been developed that can provide off-site solutions to on-site situations that make life easier and protect against the climate.
For more information on water management precast solutions please visit https://www.cpm-group.com/products/water-management/
Building Information Modelling (BIM) is a new approach to project delivery that uses information to create a 3D model-based process of a building or infrastructure to improve the design, construction, and operation of the development.
The BIM profile provides information for creating and managing the infrastructure, ensuring that building projects are more efficient and more economic with less environmental impact, whilst still addressing wasted costs
BIM allows users to visualise and explore design ideas, simulate multiple alternatives, identify problem areas and improve productivity which is why many consultants are now using the BIM process within the construction industry and why many manufacturers now have their products available to download from arenas such as BIMSTORE as well as their own websites.
One leading consultant is so convinced of the success of using BIM that they have published their top 10 benefits of BIM, which can be found at www.mottmac.com/article/2385/building-information-modelling-bim
The only question left is what are you waiting for?
No one wants anyone on site to be hurt, the Health and Safety Executive promotes a mindset of everyone going home at the end of the day, safely. So why is site safety sometimes in question?
As manufacturers of precast concrete drainage products, that include pipes, tank systems and box culverts, we occasionally see somethings that are questionable, thankfully its reduced considerably in the last 10 years, but we still see a ladder that isn’t secure or a trench where we can’t see the true depth because of rainfall.
When questioned about these, we usually receive the same set of answers, “its someone else’s job”, “we don’t have the time” or “it costs too much”.
So let’s start with “its someone else’s job” – site safety is everyone’s job, how would you feel if something happened and you could have done something about it? Even if it was just telling the site safety officer a ladder haven’t been secured correctly.
“We don’t have the time” How long does it really take to put the end rails on a scaffold? To secure a set of ladders? To establish the depth of a trench? And finally “it costs too much” What is the cost of an extra ladder, trench box etc compared to the cost of an accident, injury or even fatality?
If you have a safe site, you are more likely to have a more productive one, one with clean work areas, proper access and equipment.
With the increased flooding of rivers becoming more common over the last 10 years, the Environment Agency has looked at different ways in which river bank erosion can be avoided.
Concrete pipeline systems have been part of the backbone to the UK’s sewerage network for over 150 years for good reason. The inherent strength of precast concrete products, their durability and their availability in a wide choice of sizes and cross-sectional shapes has made them a favourite choice. This blog adds some of the detail behind the headlines in our Heavyweight campaign
The introduction of asset management period six, known as AMP6 by industry regulator Ofwat has seen water company costs measured on a total expenditure basis for the first time, which requires the proper consideration of the long term performance of assets in addition to capital cost efficiencies.
A ‘Lego’ style concrete retaining wall block is helping Network rail reduce the disruption to services when trackside landslips endanger the rail network.
The concrete block system was first used by Dean and Dyball Rail on the Blackboy Tunnel/Exmouth Junction where a section in a cutting, approximately 20 meters long, required stabilising. Historically, there had been several small slips which had resulted in a timber post and sleeper retaining wall being constructed and this was in the process of collapsing onto the S&T trough route. Continue reading “Retaining the Rail Network”
For hundreds of years concrete has been used in construction due to its inherent strength, with concrete pipes and manholes offering proven resilience as opposed to other vulnerable pipeline systems, where the structural strength of the system has to be built around the pipeline. The strength of concrete pipes makes them less susceptible to the effects of poor bedding and installation. Continue reading “Why choose a concrete pipeline?”