Uranium Monthly Price - Sri Lanka Rupee per Pound

Data as of March 2026

Range
Jun 2006 - Jan 2019: 661.360 (14.47%)
Chart

Description: Uranium, u3o8 restricted price, Nuexco exchange spot, Sri Lanka Rupee per Pound

Unit: Sri Lanka Rupee per Pound



Source: International Monetary Fund

See also: Mineral production statistics

See also: Top commodity suppliers

See also: Commodities glossary - Definitions of terms used in commodity trading

Overview

Uranium is a dense radioactive metal used primarily as fuel for nuclear power generation. In commodity markets, it is typically priced as uranium oxide concentrate, U3O8, quoted in US dollars per pound. The most widely followed reference is the Nuexco/TradeTech spot assessment, which reflects broker and dealer transactions in the specialized uranium market rather than exchange trading. Physical uranium is converted and enriched before fabrication into reactor fuel, so the quoted concentrate price is only one part of the nuclear fuel cycle.

The market is structurally different from most industrial metals because demand is driven mainly by utility fuel procurement, long-term contracting, and reactor operating requirements rather than by broad manufacturing activity. Uranium is also used in military applications and in research, but these uses are small relative to power generation. Because the material is radioactive and subject to extensive regulation, transport, storage, and processing are tightly controlled, which shapes both pricing and trade flows.

Supply Drivers

Uranium supply is shaped by geology, permitting, and the long lead times required to develop mines and processing facilities. Production is concentrated in a limited number of countries with favorable ore bodies and established nuclear-fuel infrastructure, including Kazakhstan, Canada, Australia, Namibia, Niger, and parts of Central Asia and North America. The economics of supply depend on ore grade, mining method, recovery rates, and the cost of conversion and transport to downstream facilities.

Unlike many metals, uranium supply is not determined only by mine output. Secondary sources such as government inventories, utility stockpiles, re-enrichment of tails, and material released from the nuclear weapons complex can materially affect available supply. These sources are finite and often policy-dependent, so they tend to supplement rather than replace primary mining over long periods.

Supply is also sensitive to regulatory and technical constraints. Uranium mining and milling require licensing, environmental review, and waste management systems. In-situ recovery, open-pit, and underground mining each have distinct cost structures and geological requirements. Because new projects take years to permit and build, supply responds slowly to price signals. Transport bottlenecks, conversion capacity, and geopolitical restrictions can further limit the flow of material from mine to market.

Demand Drivers

Uranium demand is dominated by nuclear electricity generation. Utilities purchase uranium as part of a multi-stage fuel cycle that includes conversion, enrichment, and fabrication into fuel assemblies. Because reactor fuel is purchased infrequently relative to daily power output, demand is driven by reactor operating schedules, refueling cycles, and long-term procurement strategies rather than by short-term spot consumption.

The main structural demand centers are countries with large nuclear fleets, including the United States, France, China, Russia, South Korea, Japan, and parts of Eastern Europe. Demand is relatively inelastic in the short run because operating reactors require fuel regardless of near-term price changes. Over longer periods, demand depends on reactor retirements, life extensions, and the pace of new reactor construction.

Uranium also competes with other energy sources in the power sector. Natural gas, coal, hydroelectricity, wind, and solar affect the economics of nuclear generation, but uranium itself is a small share of total nuclear power costs, so fuel price changes usually have limited effect on reactor dispatch. Substitution is more relevant at the level of electricity generation than within the fuel cycle. Seasonal electricity demand can influence utility procurement timing, but the underlying consumption pattern is governed by baseload reactor operation and refueling outages.

Macro and Financial Drivers

Uranium prices are influenced by the US dollar because the commodity is quoted in dollars while production and utility revenues occur in multiple currencies. A stronger dollar can make dollar-denominated uranium more expensive for non-US buyers, while a weaker dollar can ease purchasing costs. Interest rates matter because uranium is often held in inventory, and storage, financing, and carry costs affect the economics of holding physical material.

The market also reflects the balance between spot and term contracting. Because utilities prefer supply security, long-term contracts are central to price formation, while the spot market is thin and can move sharply when marginal buying or selling appears. Inventory levels, conversion availability, and the willingness of intermediaries to release material into the market can therefore have outsized effects on quoted prices. Uranium does not function as a broad inflation hedge in the same way as some precious metals; its pricing is more closely tied to fuel-cycle procurement and nuclear-sector fundamentals.

MonthPriceChange
Jun 20064,571.85-
Jul 20064,835.085.76%
Aug 20064,923.401.83%
Sep 20065,374.729.17%
Oct 20065,917.1310.09%
Nov 20066,624.2311.95%
Dec 20067,178.788.37%
Jan 20077,815.598.87%
Feb 20078,288.326.05%
Mar 20079,778.1917.98%
Apr 200712,081.3523.55%
May 200713,203.549.29%
Jun 200715,116.6914.49%
Jul 200714,683.20-2.87%
Aug 200712,287.38-16.32%
Sep 20079,633.80-21.60%
Oct 20078,760.46-9.07%
Nov 200710,166.7016.05%
Dec 200710,018.21-1.46%
Jan 20089,476.78-5.40%
Feb 20088,198.40-13.49%
Mar 20087,940.97-3.14%
Apr 20087,486.21-5.73%
May 20086,647.52-11.20%
Jun 20086,360.99-4.31%
Jul 20086,656.854.65%
Aug 20086,950.004.40%
Sep 20086,795.52-2.22%
Oct 20085,252.36-22.71%
Nov 20085,555.305.77%
Dec 20086,050.618.92%
Jan 20095,852.75-3.27%
Feb 20095,354.23-8.52%
Mar 20094,956.50-7.43%
Apr 20094,896.67-1.21%
May 20095,677.6915.95%
Jun 20095,917.524.22%
Jul 20095,710.79-3.49%
Aug 20095,420.30-5.09%
Sep 20095,083.26-6.22%
Oct 20095,293.604.14%
Nov 20095,124.30-3.20%
Dec 20095,081.50-0.84%
Jan 20105,012.05-1.37%
Feb 20104,821.97-3.79%
Mar 20104,671.21-3.13%
Apr 20104,707.190.77%
May 20104,697.24-0.21%
Jun 20104,633.09-1.37%
Jul 20104,742.062.35%
Aug 20105,179.429.22%
Sep 20105,248.831.34%
Oct 20105,459.134.01%
Nov 20106,380.3416.87%
Dec 20106,736.525.58%
Jan 20117,087.855.22%
Feb 20117,212.811.76%
Mar 20117,007.79-2.84%
Apr 20116,376.95-9.00%
May 20116,156.12-3.46%
Jun 20116,071.47-1.38%
Jul 20115,780.63-4.79%
Aug 20115,564.61-3.74%
Sep 20115,725.222.89%
Oct 20115,767.680.74%
Nov 20115,906.212.40%
Dec 20115,943.290.63%
Jan 20125,958.060.25%
Feb 20126,103.122.43%
Mar 20126,437.685.48%
Apr 20126,600.142.52%
May 20126,701.121.53%
Jun 20126,711.600.16%
Jul 20126,689.08-0.34%
Aug 20126,504.49-2.76%
Sep 20126,288.80-3.32%
Oct 20125,756.21-8.47%
Nov 20125,409.29-6.03%
Dec 20125,613.003.77%
Jan 20135,422.62-3.39%
Feb 20135,498.121.39%
Mar 20135,360.20-2.51%
Apr 20135,218.90-2.64%
May 20135,129.32-1.72%
Jun 20135,104.59-0.48%
Jul 20134,982.59-2.39%
Aug 20134,612.67-7.42%
Sep 20134,563.67-1.06%
Oct 20134,568.820.11%
Nov 20134,664.882.10%
Dec 20134,525.56-2.99%
Jan 20144,602.941.71%
Feb 20144,650.201.03%
Mar 20144,532.15-2.54%
Apr 20144,276.57-5.64%
May 20143,723.04-12.94%
Jun 20143,677.99-1.21%
Jul 20143,698.790.57%
Aug 20144,013.718.51%
Sep 20144,477.1511.55%
Oct 20144,669.344.29%
Nov 20145,315.7113.84%
Dec 20144,841.28-8.93%
Jan 20154,724.11-2.42%
Feb 20155,068.767.30%
Mar 20155,225.593.09%
Apr 20155,161.81-1.22%
May 20154,764.07-7.71%
Jun 20154,826.921.32%
Jul 20154,850.260.48%
Aug 20154,832.51-0.37%
Sep 20155,145.466.48%
Oct 20155,247.741.99%
Nov 20155,103.18-2.75%
Dec 20155,043.48-1.17%
Jan 20164,993.27-1.00%
Feb 20164,895.08-1.97%
Mar 20164,334.71-11.45%
Apr 20164,003.30-7.65%
May 20164,070.781.69%
Jun 20163,973.55-2.39%
Jul 20163,759.00-5.40%
Aug 20163,771.070.32%
Sep 20163,627.51-3.81%
Oct 20163,156.31-12.99%
Nov 20162,743.76-13.07%
Dec 20162,861.514.29%
Jan 20173,327.5616.29%
Feb 20173,793.0513.99%
Mar 20173,731.26-1.63%
Apr 20173,528.21-5.44%
May 20173,296.33-6.57%
Jun 20173,018.41-8.43%
Jul 20173,128.943.66%
Aug 20173,126.67-0.07%
Sep 20173,123.84-0.09%
Oct 20173,106.06-0.57%
Nov 20173,434.1410.56%
Dec 20173,781.5710.12%
Jan 20183,594.34-4.95%
Feb 20183,369.43-6.26%
Mar 20183,383.500.42%
Apr 20183,257.00-3.74%
May 20183,470.476.55%
Jun 20183,669.775.74%
Jul 20183,732.741.72%
Aug 20184,177.2211.91%
Sep 20184,461.706.81%
Oct 20184,711.625.60%
Nov 20185,113.778.54%
Dec 20185,175.211.20%
Jan 20195,233.211.12%

Top Companies

Cameco Corporation
Website: http://www.cameco.com/
Location: Saskatoon, Canada
Estimated Production: 22 million pounds per year

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