14 mins
CONCRETE INNOCATIONS SHAPING THE FUTURE
The most used manmade substance on the planet has evolved over millenniums, but the next decade of innovations will be key for the industry to meet its ambitious sustainability goals, Mitchell Keller reports
A RIC 3D-printing machine on display at World of Concrete in Las Vegas, US, 2024
IMAGE: MITCHELL KELLER
Biochar, pictured here, is made from burning organic materials.
Scientists hope it can be used in concrete to act as a carbon sink
IMAGE: ADOBE STOCK
Joel Galassini, Cemex US VP, commercial cement
IMAGE: CEMEX
A 3D printer lays a layer of cementitious paste during a tech demonstration
IMAGE: MITCHELL KELLER
Sometimes working in the construction industry, it’s hard not to feel a little old-fashioned.
“When people ask what I do… my go-to line is, ‘Have you seen The Flintstones?’” said Joel Galassini, executive VP of the commercial cement division for Cemex, a Mexico-based building materials company.
The Flintstones is a US cartoon from the 1960s set in a romanticised Stone Age.
Galassini notes this is hyperbole for jest and because it’s an accessible example for someone unfamiliar with the industry to understand.
An evolving sector
Just over Galassini’s shoulder, while he tells this anecdote, is the South Lot of the Las Vegas Convention Center; packed to the edges with sophisticated construction equipment, technology, and state-of-the-art science on display for World of Concrete 2024.
“I describe myself by a Stone Age cartoon, but we have so many people that are the Jetsons,” said Galassini.
The Jetsons were the main characters of another American animated comedy (simply called The Jetsons) from the ‘60s, which followed a family in an idealised setting of the future.
It is an adept metaphor for concrete’s recent renaissance; Galassini is not alone in seeing the future come to life.
It’s taken time, the Cemex VP said, but he believes the concrete industry is making leaps and bounds into the future, as some of the most innovative science and technology is driven by concrete product and material solutions. “We’re using AI in a lot of our operations, we’re running drones, and we’re looking at autonomous vehicles and all these things… I describe it as the Flintstones but, really, we got a lot of ‘Jetsonian’ things going on,” he said.
Low carbon solutions
Whether driven by in-company missions, governmental regulation or contract stipulation, the concrete industry has needed to make enormous strides, quickly, in creating more products from recycled materials with lower CO2 footprints.
In order to meet consumer demand and comply with environmental stipulations, many companies reconfigured their cement-making process. The necessary chemical powder is one of the world’s top carbon producers.
It’s meant increased involvement from the science community, which globally has found lower-carbon solutions for cement mixtures, including researchers at Empa, the Swiss Federal Laboratories for Materials Science and Technology.
From tech to data to emerging science, concrete companies are embracing new challenges
“The major innovations in cement and concrete products in the recent years have been driven by the need to improve the sustainability and reduce the emissions,” confirmed Dr Mateusz Wyrzykowski, Group Leader of Concrete Technology at the Concrete & Asphalt Laboratory at Empa.
Everything from graphene, hemp, coffee, and a host of new specialised synthetics and admixtures have been making their way into concrete and cement. The results and intent vary, but the experimentation is paramount to discovering breakthrough products that can help reduce emissions.
“Significant progress has been made thanks to reduction of waste and responsible use of resources,” adds Wyrzykowski.
One of the most intriguing materials for cement Empa has studied is ‘biochar.’ It’s a carbon-rich material created from pyrolysis of biomass; in other words, it’s the bioproduct of heating organic materials absent oxygen. In theory, deriving from organic materials, concrete made with biochar cement could remove carbon from the atmosphere. At present, biochar has been used successfully as a form of insulation.
Some products are already on the market, but Empa suggests a stronger, safer version of a biochar additive will be forthcoming with additional research.
“Biochar is very porous. It absorbs a lot of water but also expensive admixtures used in concrete production,” explained Wyrzykowski. “It is difficult to handle and not completely harmless, either.”
According to Empa, the fine biochar dust is problematic for human respiratory tracts and carries a risk of explosion.
As such, investigation continues into seeing if the material can be processed into pellets. “Such lightweight aggregates already exist from other materials such as expanded clay or fly ash,” said Wyrzykowski, noting some precedence. “The knowhow in handling these materials is available in industry, and this increases the chances that the concept will be put into practice.”
Using waste as energy
Back with Cemex, Galassini said his company has made products with less clinker than traditional cement and products with fly ash, both of which aid carbon emissions reduction. But reanalysing the entire production of cement, he said, is as important to adjusting the chemical makeup of it.
“We burn different things in our kilns instead of coal,” he said. “We can burn recycled waste products. We can burn tyres, we can burn waste fuel, we can burn industrial and residential waste… We have some that we can take livestock, cow carcasses, and dispose of all of those in a responsible manner and use it to fuel the kilns.”
The system, he noted, is not entirely void of emissions, but they are highly reduced and help facilitate larger gains, including cost savings for the recycled fuel sources.
“Our cement plant in Berlin consumes 98% recycled product,” said Gassalini, noting the country moved away from landfill disposal in the mid-2000s. “We take all of that waste, pelletise it, and burn it in the kiln. So instead of putting it in a landfill and creating methane, which I believe is 30 times more potent than CO2 , we can burn that waste, create cement, and create a product.”
This way-of-thinking is not isolated; most major global players have adopted aggressive approaches to reducing carbon output and increasing circularity.
Germany’s Heidelberg Materials Group launched a suite of lower-carbon products in 2023, and they plan to open a carboncapture storage (CSS) facility at a cement plant in Norway by the end of 2024. “Our CSS project at the Norwegian Brevik plant first started out as an ambitious idea during the mid-2000s,” said a spokesperson from Heidelberg.
“The initial thoughts matured into a desktop study. In December 2020, the Norwegian government gave final approval and support for the construction of the world’s first industrialscale carbon capture facility at a cement plant.” This project would remove carbon from the site to an undersea locker.
“Once operational, 400,000 tonnes of CO₂ per year are to be captured and transported by ship to an onshore terminal on the Norwegian west coast,” explained Heidelberg. “From there, the liquefied CO₂ will be transported by pipeline to the storage site under the North Sea, where it will be permanently stored.”
While capture and sequester methods for carbon are still imperfect, Heidelberg noted it’s only one lever of sustainable innovation.
“We continue to decarbonise our product portfolio through conventional carbon reduction measures,” stated the company. “For years, our teams have been working towards reducing the clinker content in our products, and shifting the product portfolio, and increasing the share of alternative fuels.”
This new IT server hotel in Heidelberg, Germany, is reported as Europe’s largest
3D-printed building
IMAGE: SSV ARCHITEKTEN
Machines aid innovation
While concrete and cement go through physical changes, the machinery mixing and pouring the substance must also keep up with the times. Volumetric or mobile mixing trucks are not new, but advances in computer technology, material storage and data cataloguing have made the already valuable tools immensely so in the modern era.
Cemen Tech calls itself the world’s largest manufacturer of volumetric proportioning and continuous concrete mixing solutions and has been in the volumetric mixing game since the beginning.
Concrete is spread into a block during a demonstration of Cemen Tech’s volumetric mixer
IMAGE: MITCHELL KELLER
With all needed concrete materials stored and mixed on the truck and at the site, project managers tout savings on transportation, but the unit’s sophisticated technology also ensures waste is limited and the concrete outputting is meeting expectations for the job and climate. Zach McQuay, who runs McQuay Construction in Oklahoma, US, uses a Cemen Tech C-Series, and noted the order a machine can bring to a job.
“You have complete control of it,” he said. “It’s a mobile batch plant, so we don’t have a drive time. We’re able to load all the material on site, and we’re running 440 yards (402m) a day with only three trucks.”
Compared to using a ready-mix batch plant off-site, McQuay estimated a similar job would require 20 or more trucks, plus the travel time and loading and unloading.
With a volumetric mixer, McQuay said, “We’re not making concrete until we hit ‘Start.’ We’re getting fresh concrete on demand.”
A COBOD 3D printer working on a project in Denmark
IMAGE: COBOD
Air testing can happen on site, and the mixer can create small batches at a time, which McQuay says reduces waste.
“In the ready-mix world, if they fail that air test, that whole load is rejected,” he explained, noting volumetric mixers can simply make a new batch (and make adjustments to the mix in-between). “In the volumetric world, if we mess that air test up, we’re going to have less than a half a wheelbarrow to recycle.”
With sand, rock, water, chemicals, and synthetics needed to produce concrete on the truck, a computer interface allows users to manage the exact makeup of their mix and adjust it as needed.
“We have a live water/cement ratio. We have a live dosage rate of our chemicals. We have a live rating of our sand, rock and water, so we’re able to dial in any of those aspects anytime during the project,” added McQuay.
Logging data creates a network of reliable information that pavers or layers could recall for similar jobs or in comparable environments.
Users work a Cemen Tech volumetric mixer’s electronic board, which engages the vehicle to mix various materials for on-site concrete production
IMAGE: MITCHELL KELLER
“You’ll have a full history,” said McQuay. “If you have this certain mix design, we’re going to be able to store that, and if we have to make a sand adjustment or a rock adjustment, we can save that and name that mix, and we can have an unlimited amount of mixed designs, essentially, stored on our computer.”
Elsewhere, advancements in AI, 3D scanning and printing, and sensor technology have greatly aided pavers and other concrete-focused machines. A slipform paver from the Germanbased Wirtgen Group offers an example. “When paving concrete with Wirtgen slipform pavers, various automatic functions can be used, such as the AutoPilot 2.0 system or the automated dowel bar inserter,” said the company. “The AutoPilot 3D control system developed by Wirtgen is used for precise, stringless control of slipform pavers when creating all kinds of offset and inset profiles. “The creation of a geodetic data model by a surveyor is no longer necessary. The installation and removal of a stringline, as is usual with a conventional machine control system, is obsolete.
A FLEET OF SOLUTIONS
Whether a job calls for pavers, spreaders, trimmers or finishers, many contractors prefer brand consistency.
Helping mangers achieve that reality is US-based GOMACO, which has a full fleet of concrete-centric machines for any size and type of laying, finishing or refurbishing work.
For contractors looking to meet sustainability goals, GOMACO unveiled what it’s calling the “world’s first battery-powered slipform concrete curb machine.”
The CC-1200e is powered by a 48-volt DC lithium-ion battery pack and can slipform various concrete curb styles. Self-propelled and compact, the machine boasts zero emissions and engine noise with reduced vibration.
“It has three batteries stacked inside,” detailed GOMACO product engineering manager Kyle Leners. “It can do 40 to 45 yards [36.5 to 41.1 m] of linear feet per day.” Remote powered, Leners said an operator walks beside it during operation, and no pulling or intense physical labour is necessary.
“Ergonomics,” added Leners. “He doesn’t have to physically do anything.”
Another of the newest to the fleet is the GP460 placer/spreader and slipform paver, which was introduced at Conexpo 2023. As a placer/spreader, it has a 60-in (1,524- mm) belt, and accommodates widths up to 50-ft (15.2-m) wide. As a concrete slipform paver, the GP460 paves widths up to 40-ft (12.2-m) wide.
“It’s built on the framework of the GOMACO two-track GP4 slipform paver with the ability to convert the prime mover into a concrete placer/spreader,” said the company. “The prime mover is equipped with vibrator circuits for paving and auger drive circuits for placing.”
Versatility is key with the GP460, and it’s aided by GOMACO’s tech innovations alongside a collaboration with Minnich, a manufacturer of drills, paving vibrators and monitoring systems.
The unit uses a digital control system, which “handles the controls conversion needed for each application while also bringing onboard Machine to Machine (M2M) communication, sonic sensors, 3D machine guidance, and more.”
This digital-first emphasis with advanced guidance has been a key development for the company’s fleet, said Leners, adding that, particularly in the last five years, 3D modelling has been an important component for clients and contractors. There’s an interconnectivity, too, that connects back with GOMACO experts.
“We collect data on the machines, and it can alert users if something were to go wrong,” said Leners of the GOMACO Remote Diagnostics (GRD) units.
MAKING SMOOTH A ROUGH SITUATION
AUSA, a Spain-based manufacturer, had four dumpers and a forklift at World of Concrete, all of which were designed to meet off-highway and inclement topography conditions.
In the dumper category, AUSA exhibited an electric model: the D151AEG.
It has a 3,300-lb [1,497-kg]/1.18-cu-yd [0.9 m3 ] load capacity and a swivel skip. It’s equipped with a lithium-ion battery pack that provides a full day’s work range. It has a companion diesel engine to aid off-road power and capabilities.
Also, on display was the new D201AHG dumper. It has a 4,400-lb [1,996-kg]/1.7- cu-yd [1.3 m3 ] load capacity and swivel skip, and the company said was developed for small inner city works.
The last two dumpers in the line are the largest: the D350AHG and the D601AHG. The D350 has a 7,700-lb [3,493-kg]/2.78- cu-yd [2.13 m3 ] load capacity, and the D601 can transport up to 13,200 lbs [5987 kg]/4.12 cu-yd [3.15 m3 ].
Ignasi Moner, CEO of AUSA US, said, “Being present for the seventh consecutive time at World of Concrete and having a booth with dumpers reinforces our certainty that this type of vehicle is a great money-and-time-saving asset for the the construction industry.”
A 3D printer outside the Las Vegas Convention Center during the 2024 World of Concrete expo
IMAGE: MITCHELL KELLER
An evoBuild product home
IMAGE: HEIDELBERG MATERIALS GROUP
“The machine moves along a virtual stringline with satellite positioning guidance. Both the height adjustment and the steering of the machine are automatically controlled.”
A Cemen Tech C-Series volumetric mixer
IMAGE: CEMEN TECH
3D printing and concrete
One of the most tantalizing and visually stimulating automation advances in concrete is 3D printing.
Layered extrusion 3D printing machines, which use a controlled nozzle that accurately squeezes out a cementitious paste layer by layer, were some of the most popular demonstrations at World of Concrete.
The ‘toothpaste-like’ piles of concrete can be built as high as the printer or environment allows, with some printers large enough to print entire buildings.
A COBOD International 3D printer, a Denmark-based product, completed what is said to be Europe’s largest 3D-printed building last year in Heidelberg, Germany. The building is 54m long, 11m wide and 9m high. The COBOD BOD2 3D printer can create non-square geometric forms in addition to boxed structures. Construction started mid 2023 and it took approximately 172 hours. While tech in the 3D concrete printing segment used to present some users more work than what it was worth, today’s units come more prepared to handle on-site challenges and are built to last. Most issues with modern 3D printing involves getting the right mixture for both application and strength.
“We expect the printers to last up to five years or ten years,” said Philip Lund-Nielsen, cofounder of COBOD, noting longevity with the machines are increasing. “It’s 90% galvanized steel. Most of the issues our customers have onsite is getting materials right; once they master that, they become really efficient.”
Putting it all together
Much like concrete is a product made of particular elements working in tandem, the industry’s leaders will need to continue to work collaboratively to move the product forward.
“It’s really working with owners, architects, engineers, to ensure that we’re designing a piece of building or sidewalk or pavement properly and not over designing it,” says Galassini. “You look at concrete that’s poured in most sidewalks in a city; it is a recipe that is specified by the city.
“That recipe will create a sidewalk that has, let’s say, 6,000 to 8,000 PSI of strength, which would be similar to an airport runway. So I can land a 747 on a sidewalk that only needs 2,500 PSI of strength.”
With all this information and available technology to tackle this example of overengineering, Galassini thinks it’s time to find long-term solutions.
And those who don’t modernise and help solve the problem may get left behind.
“I have a belief,” said Galassini, “that the people who are continuing to innovate and push will most likely be winners. At some point, the people who resist change, they’re going to be at a tipping point where all of a sudden, they don’t have any other choices, or maybe they’re too late.” IC