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The growing demand for copper is no secret: over the last year the need for copper — as well as motivation for more domestically produced copper in the US — has been widely-discussed among market participants, major companies, the current administration and even the general public. Copper demand in data centers is also increasing rapidly. The country and the world, needs copper and in the next ten years they’re only going to need more.
At the same time, conversations surrounding sustainability and energy needs in the US have changed over the last year, with the focus shifting from electric vehicles (EVs) to artificial intelligence (AI). And with this rise comes heightened demand for data centers — where copper plays a huge part.
According to Fastmarkets’ analysts latest 10-year outlook report, published in May, copper consumption from energy transition sectors will rise at a compound annual growth rate (CAGR) of 8.9% in the next 10 years — including 10.4% for the EV sector, 6.8% for the solar power industry and 7.8% for the wind power industry — while consumption from traditional non-energy transition sectors will rise at a CAGR of 1.1%. A recent report by Macquarie also estimated that between 330,000 and 420,000 tonnes of copper will be used in data centers by 2030.
Fastmarkets spoke separately with Don Leavens, chief economist and senior vice president of the National Electrical Manufacturers Association (NEMA), and Adam Kotrba, flat products director of the Copper Development Association (CDA), about the role of copper in data center growth in North America’s evolving digital infrastructure.
According to the CDA, copper demand in North America’s data center sector is being driven by several converging factors: the pace of new construction is fast, pushing demand higher and data centers themselves require large volumes of copper for power distribution and grounding.
Leavens said the data centers themselves are the biggest factor: an estimated 30-40% of data center construction involves electrical, all of which contains copper.
“Copper is key to anything electrical because of its ability to conduct electricity efficiently. It’s used in almost every application where we’re transmitting electricity. And for data centers that have a particularly high demand for energy and electricity, it comes through in a variety of ways,” Leavens told Fastmarkets on August 27.
“First of all, you need to get power from the generators and utilities, and that has to come over the wires and through transmission distribution. The distribution has to take that power to the data center, so that’s part of construction,” Leavens said. Additionally, there are transformers and switch gear, all of which have copper embedded, that bring power into the data center.
But one of the biggest factors in these centers is the adoption of liquid cooling technologies, which rely on copper cooling plates on each computer chip. According to a 2024 study conducted by NEMA, close to 30% of energy demand was related to cooling.
“Particularly now with the rise of AI, we are using more energy, which means there’s more heat… which means you need more cooling,” Leavens said.
“Newer data centers — especially those built for artificial intelligence — are designed to handle far greater power loads, which means even more copper is needed to safely manage, transmit and ground electricity,” Kotbra told Fastmarkets on Wednesday September 3.
“Together, rapid capacity growth, higher power intensity and advanced cooling methods are making copper more critical than ever to the data center industry,” Kotbra said.
Leavens also noted that when the US government calculates the data for construction, it is only looking at what is permanent in the building, which includes the shell of the building and the wires within. Since the servers are not permanent, they are not included in the same construction statistics.
“So, it’s a little confusing how the government records it,” Leavens said.
Just a year ago, the focus across US industries was EVs, which Fastmarkets saw widely discussed in 2024 and early 2025. But recently, as the use of AI has skyrocketed, conversations have shifted in this direction as well.
“AI from now to 2035 is the big story; it’s growing very fast. A year ago, we were saying 2035 would be the pickup in EVs. Now AI is the bigger story… at least in the US,” Leavens told Fastmarkets, noting that this is not necessarily the case in other parts of the world.
And the CDA told Fastmarkets that while EVs currently account for more copper use globally, the trajectory of US data center expansion is remarkable.
“Depending on how EV sales trend in the next few years, domestic data center demand could rival or even surpass EVs when it comes to copper consumption,” Kotbra said.
“Even advocates of EVs are changing their language and how they talk about it,” Leavens told Fastmarkets, saying that EVs will continue to evolve in a free market setting, rather than being subsidized. “[They] just won’t have that extra turbo lift from subsidization,” he said.
According to a National Mining Association (NMA) report published on August 19, copper consumption is expected to increase by more than 110 percent by 2050, while US energy demand is projected to increase by as much as 30% in the same period of time, and the AI industry is projected to reach trillions of dollars in market value in just the next few years.
“Artificial intelligence is rapidly transforming industries worldwide… its ability to rapidly analyze data, learn from patterns and make real-time decisions is driving unprecedented growth and innovation,” Rich Nolan, NMA’s chief executive officer, wrote in an August 19 report.
As the need for copper grows and data centers expand, so does the potential for innovation, sources said, and sustainability is a key factor in the copper business and the energy industry, especially globally.
Sustainability goals are reshaping how data centers think about copper procurement, Kotbra said, with operators increasingly focused on sourcing copper products with higher recycled content, underscoring the importance of accurately quantifying and verifying those amounts.
“This push for transparency not only supports corporate sustainability commitments, but it also drives demand for recycling infrastructure that keeps copper in circulation,” Kotbra said.
On the topic of recyclability, Leavens said “our companies are facilitating that re-sensibility through design of products. We recognize that if you bury the copper where it’s difficult to get it out of the device, you’re not making it as sustainable as it could be; so they’re thinking ahead [about the] end-of-life of this product how easy could it be to take it apart and pull to get the copper out.”
Kotbra agreed that recyclability is one of the most important innovations in the data center industry, citing similar considerations for end-of-life recovery that make it easier to separate copper from other materials and ensure it can be reclaimed at high rates.
“Since copper is infinitely recyclable without losing performance, these design improvements are helping the industry capture even more of its value and keep it in circulation for generations to come,” Kotbra told Fastmarkets.
“This is a global market, and sustainability is big globally. You have to sell to a global market and your products have to be looking at that,” Leavens told Fastmarkets.
Just as there are timing concerns with mining projects, which take a minimum of ten years to come online, data centers are also experience a lag in timing. But rather than being due to copper supply itself, this is largely on account of manufacturing bottlenecks, especially with the supply of transformers, which are hand-wound in a process that cannot be automated, and switch gear.
“I think the biggest hitch has been a steady supply of transformers. Some have a backlog of two to five years, so when you say that to a hyperscaler who wants to get this built tomorrow… they’re not happy. We can get our hands on raw copper, but it takes a while to make those derivatives. And price volatility has impacted the equipment,” Leavens told Fastmarkets.
“These challenges highlight the need for better planning, stronger domestic manufacturing and smart policy support to keep critical projects on schedule,” Kotbra said.
Leavens said that volatility in prices impacts the market because it’s cyclical, so market participants try to hedge by stocking up. It can be difficult to plan with projects on the horizon up to five years ahead, and the copper price experiencing volatility can have a real material impact on cost overruns.
On February 25, US President Donald Trump announced a Section 232 investigation into copper due to the critical nature of the material for national security, infrastructure and energy.
During this period of uncertainty in the market, Fastmarkets’ assessment of the copper grade 1 cathode all-in price, ddp Midwest US reached an all-time high of $5.875-5.895 per lb on July 23. And Fastmarkets’ weekly assessment of the copper scrap No1 copper, discount, buying price, delivered to brass mill US reached $(1.15)-(1.10) per lb on July 16.
Since Trump’s surprise announcement of the exclusion of refined and scrap copper, market sentiment has calmed, with the all-in price last assessed at $4.4305-4.5505 per lb on September 8. Meanwhile, the copper scrap discount was last assessed at $(0.29)-(0.24) per lb on September 3.
“With copper expected to be included on the final 2025 [US Geological Survey] Critical Minerals list, we have an opportunity to streamline those processes and unlock more domestic capacity. The copper is here in the United States — we simply need the policies and permitting reforms to access it and meet the nation’s growing demand,” Kotbra said.
“Copper is a vital part of every economy globally,” Leavens told Fastmarkets. “I hear so much about the security risk for copper — it’s a critical material now, and the government recognizes it as that. We need it; but also there are huge sources of it around, through stockpiles or friendly countries such as Chile or Australia. As an economist, I’m just not concerned that there would be an absolute shutdown like you saw with oil in the 1970s,” Leavens said.
Data centers are highly concentrated in a few states in the US and, according to Leavens, this factors into the problem from an energy demand perspective, as they’re not spread out evenly. With higher concentrations of data centers comes an increase in electricity and its cost, and power availability is only part of the picture, as the areas must also be attached to the internet pipeline, which much of the Midwest is not.
“You want to be close to a power source and close to the pipeline, and so that’s very limiting,” Leavens said.
“Electricity prices in the US have been hitting the headlines, with some laying the blame at the feet of the AI rollout and data center construction,” Olivia Cross, an economist with Capital Economics Climate and Commodities, wrote in a report on September 3.
But despite the headlines, Cross said that currently there is “little evidence that data centres are pushing up electricity prices in a meaningful way,” with the hotspot states, such as Virginia, that Leavens mentioned not yet experiencing higher electricity prices or faster-than-average price increases compared with the rest of the country.
But “the lack of a clear relationship between data centers and electricity inflation is probably because one of the criteria determining where data centers are built is access to cheap electricity, often due to plentiful supply in local power markets,” Cross wrote.
“As the rapid construction of new data centers eats away at slack in power markets, upward pressure on electricity prices could become more noticeable,” she said.
But one thing is for sure: right now in the US, the rise of AI and the demand it puts on data centers, electricity and copper, is only going up.
Access a sample of the Fastmarkets copper long-term forecast