Rare Earth Metals Get The Presidential Treatment
Last Wednesday, the president signed an executive order addressing the threat posed by the United States’ overreliance on “critical minerals” from “foreign adversaries.”
To be more specific, “critical minerals” here means “rare earth metals,” and “foreign adversaries” means “China.”
Although not as rare as gold, the group of 17 metals are used in the manufacture of advanced technologies, including electric vehicles, wind turbines and missile guidance systems. Your iPhone contains a number of them. Each F-35 fighter jet has about half a ton of these strategic elements.
The problem is that the U.S. no longer produces barite (used in fracking), gallium (semiconductors, 5G telecommunications), graphite (smartphone batteries) and a number of other materials. “For 31 of the 35 critical minerals, the United States imports more than half of its annual consumption,” according to the press release.
Today, China controls some 80 percent to 95 percent of the world market, depending on the mineral. Obviously this is a concern, especially given that the country’s exports of rare earths have fallen more than 25 percent year-over-year from January to August due to the pandemic.
President Trump has rightfully declared this a national emergency and asks that the U.S develop a “commercially viable” mineral supply chain that does not depend on imports from China or elsewhere.
The question is: How do we get there?
Meet MP Materials, Set to Go Public Later this Year
The answer may lie with MP Materials, an as-yet privately funded mining company headquartered in Las Vegas. Founded in 2004, MP Materials bought the storied Mountain Pass rare earth project in 2017 for $20.5 million when its former operator, Molycorp, went bankrupt.
In case the name is new to you, Mountain Pass—located in San Bernardino County, California—is the only rare earth mining and processing plant in the U.S. Up until the 1980s, it was also the world’s leading supplier of obscure yet important metals ranging from cerium to lanthanum to europium.
The pandemic notwithstanding, MP Materials has had an eventful year. In July, the Pentagon announced that it would be funding the company as well as Australia’s Lynas to develop rare earth separation facilities in California and Texas that will rival China’s.
That same month, MP Materials said it would list on the New York Stock Exchange (NYSE) later this year under the ticker MP after merging with a blank-check company, Fortress Value Acquisition. In a press release, the company stated it was “poised to become the Western champion of rare earth magnetics, onshoring a critical sector that will power a sustainable future.”
One of MP’s board of directors, former Chairman of the Joint Chiefs of Staff General Richard Myers, highlighted the urgency of expanding the company’s operations: “As global industries electrify in the coming decades, the lack of a sustainable, reliable supply of rare earths in North America would represent a single point of failure for national and economic security.”
The merger between MP and Fortress, expected to close this quarter, will result in a company with an estimated valuation of $1.5 billion. A New York listing is scheduled to happen soon after, so keep your eyes open.
Rare Earth Producers to Benefit from Explosion in Electric Vehicle Demand
I don’t know about you, but I smell money. We may have already crossed a tipping point when it comes to renewable energy, and the electric vehicle (EV) boom is just beginning. Such technologies depend on strategic minerals such as the ones MP Materials produce.
We get exposure to renewable energy through companies like Vestas Wind Systems and Canadian Solar, which manufacture and install wind and solar projects, and we continue to like Tesla. But it will become increasingly more profitable to invest in their suppliers.
Consumer demand for renewable energy and EVs is surging, but the real drivers are global policymakers, which are legislating the shift away from fossil fuels. A number of countries—from the United Kingdom to France, from China to India—have outlined comprehensive plans to phase out internal combustion engine vehicles in the coming years and decades.
Take a look at how this shift is projected to affect demand for not just rare earths but also plain old metals with household names. Demand for nickel and aluminum is estimated to grow an incredible 14 times between 2019 and 2030. Phosphorus and iron could multiply 13 times, copper and graphite 10 times.
Renewable Energy and EVs Are Mineral Hogs
Many consumers and lawmakers favor renewable energy and EVs because they’re “clean,” but the truth is that they require far more metals and other materials than their predecessors.
That’s according to estimates made by the Manhattan Institute’s Mark Mills, who writes in a July report that wind turbines, solar panels and EV batteries require more than 10 times the quantity of raw materials that go into building tradition fossil fuel-burning plants and vehicles, and yet they deliver the same amount of energy.
To get even more specific, a typical 1,000-pound lithium EV battery contains about 25 pounds of nickel, 90 pounds of copper, 110 pounds of graphite and 400 pounds of steel, aluminum and various plastics. As much as 45,000 tons of ore must be mined in order to make just one of these batteries, Mills says.
A single EV, meanwhile, contains more cobalt than 1,000 smartphones.
Such figures seem to undermine the mission statement of the “green agenda,” but so what? As investors, we must follow the money.
Case in point: Tesla recently signed a five-year supply agreement with Australia’s Piedmont Lithium, which operates in North Carolina. The EV-maker is now in talks with BHP Group on a nickel deal.
This is pure speculation, but a deal with MP Materials wouldn’t be out of the realm of possibility.
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