Concrete is often transported by a mixer truck from its starting location at the mixing site to its final location. Mixer trucks are used specifically for mixing concrete because they have rotating mixer drums that are often angled and have spiral-shaped fins inside them that allow concrete to load and mix when the drum revolves in one direction and discharge when it rotates in the opposite direction.
After being mixed at the initial starting location, mixer trucks maintain ready mix concrete at the proper consistency, although they occasionally even mix everything while delivering. By doing this, the issue of early hardening or slump loss that may arise as a result of delays between mixing and shipment is resolved. Additionally, it enables concrete to be transported to locations that are far from the beginning place. When this is necessary, the concrete is blended, loaded, and then transported to the project site with the drum spinning at a speed of between 2 & 6 rotations /minute. This aids to ensure that the concrete reaches the job site with the best consistency possible.
When delivering ready-mix concrete, the truck’s specifications are an important thing to think about. This may depend on the location of the delivery site and how simple it is for the truck to enter and exit. If one is expecting ready mix concrete, it is important to make sure the delivery goes smoothly, get the best-personalized service from https://argos-us.com/.
Delivery of Concrete
It is important to determine whether the concrete can be pumped or poured directly from the truck. Can the truck be arranged near the location where the concrete will be used?
Typically, vehicles are unable to approach the pour close enough for the following 4 reasons:
- The project’s surrounding terrain is too damp, and the truck will inevitably float.
- The vehicle cannot navigate the steep slope leading to the concrete pour.
- For the truck to pass through and deliver concrete to the desired location, the opening is too small.
- The truck’s chute cannot reach all the necessary locations since the pour is too large.
Confirm that there is truck access with the hired ready mix supplier. The cement companies should be consulted regarding their own standards for what they deem to be truck-accessible.
Where Cement Trucks are in Demand?
The concrete is a combination of aggregates (coarse or fine), cement, and water. It is a vital building material frequently employed in contemporary construction due to its durability, strength, and adaptability. Concrete of grades M5 to M20 are typically used for applications that don’t require high strength, M25 to M45 is used for reinforced concrete applications or construction that needs standard strength, and M50 to M70 is used for high strength applications.
Nowadays, concrete is used to build roads, high skyscrapers, canals, tunnels, bridges, and many other types of structures. For small and medium-sized applications, portable concrete mixers can be employed; however, concrete batching facilities can also be installed on the construction site for larger purposes.
Technological Efficiency of Cement Delivery Processes
A growing body of research has demonstrated the potential to reduce emissions by concentrating on the supply side of the concrete cycle and cement like energy efficiency advancements, low-carbon fuel utilization, clinker-cement ratio reduction, cement replacement with alternative binders, carbon capture & utilization (CCU), and carbon capture & storage (CCS).
Among the different supply-side techniques, CCS is particularly important because of industry commitments and policy talks, despite the fact that it is at the bottom of the hierarchy due to resource inefficiency and worries about technology lock-in. On the demand side, however, there are enormous but largely unrealized opportunities due to more effective material utilization, according to a growing body of research.
Modern technologies like the Industrial Internet of Things (IIoT), Machine Learning (ML), and Artificial Intelligence (AI) are the key drivers of the latest industrial revolution, known as Industry 4.0. A Smart Cement Plant, which can decrease consumption and boost output while adhering to strict emission requirements, can be created by incorporating these potent strategies.
Supporting ML and AI
One commercially available AI-powered solution advertises 90% precision for recall owing to quality prediction, a 68% accuracy for detecting lump development during polypropylene manufacturing within five minutes, and a total savings of 4–5 hours for off-spec production.
The development of a smart cement factory requires meticulous planning, execution, and vision to realize Industry 4.0. By lowering emissions and consumption while boosting output and quality, cement manufacturers can truly push the cement industry to new heights with the help of all these potent tools.
The water-cement ratio, slump, air content, and homogeneity must all remain as intended, and suppliers must ensure this. If the window of time is missed because of unavoidable events like traffic, the material will solidify up to two hours after batching and become useless.
Margin deteriorates when delivery doesn’t go as expected and suppliers are unprepared. Costs associated with idle vehicles, fuel, and naturally the material that clients reject, pile up. The company will have high operating costs the bigger it is, the more factories it has, and the more volume it handles.
Naturally, all of this places a tremendous amount of pressure on the logistics to deliver on schedule. As a result, efficient transportation requires meticulous planning and organization. But how can vendors prepare for the unforeseen? Nowhere is the old adage “expect the unexpected” more applicable than in the distribution of ready-mix concrete. Delays, last-minute orders, etc.
However, the appropriate tools can alert suppliers, allowing them to react immediately. It all comes down to fleet optimization and accuracy enhancement to provide excellent customer service while reducing operational costs.
For construction companies, concrete construction equipment is essential to provide high-quality work. Time and money are saved on the construction project while using high-quality concrete construction equipment. By providing clients with high-quality building services quickly, it can lower labor expenses and boost earnings. Many concrete construction equipment have been developed for use by construction organizations in order to improve construction operations as a result of numerous technological but effective developments.