Rodman gun
The Rodman gun was a series of large smoothbore, muzzle-loading columbiad cannons developed in the mid-19th century by U.S. Army Major Thomas Jackson Rodman (1815–1871), representing the pinnacle of cast-iron artillery technology through an innovative hollow-casting process that produced exceptionally strong and durable barrels.[1][2] Rodman's design addressed the chronic issue of cannon bursting under high pressure by cooling the guns from the inside out during casting, using a water-circulated iron pipe within the mold to create uniform compression in the metal while the exterior remained hot; this "wet chill" method, patented in 1847, allowed the guns to withstand far more rounds than traditional solid-cast cannons, with tests showing a hollow-cast 8-inch gun enduring 1,500 firings compared to just 73 for its predecessor.[1][2] The guns featured a distinctive bottle-shaped profile with a thick breech tapering toward the muzzle, ratchet grooves for precise elevation, and compatibility with prismatic powder—hexagonal cakes designed to burn evenly and maintain consistent pressure during firing.[1] Available in calibers from 8 to 20 inches, the Rodman guns were cast primarily at the Fort Pitt Foundry in Pittsburgh, with the 15-inch model weighing around 25 tons and capable of hurling 440-pound projectiles up to 5,730 yards at velocities exceeding 1,000 feet per second using 75 pounds of powder, while the rare 20-inch variant, produced in 1864, fired 1,000-pound shells at 1,735 feet per second with 200 pounds of charge and reached ranges of about 5 miles in tests.[1][2][3] During the American Civil War (1861–1865), over 1,800 Rodman guns were produced and deployed mainly in coastal fortifications, such as Fort Hamilton and Fort Washington, serving as powerful deterrents against naval threats though rarely seeing combat; the 20-inch models, of which only two were authorized, were never fired in battle but symbolized American industrial prowess at the 1876 Centennial Exposition.[1][3][2] A West Point graduate and Ordnance Department officer, Rodman refined his process after the 1844 USS Princeton explosion, collaborating with foundries to test prototypes as early as 1849, and his innovations not only bolstered Union defenses but also influenced global cannon manufacturing until rifled breech-loading steel guns rendered smoothbores obsolete by the late 19th century; today, around 182 Rodman guns survive in museums and parks, underscoring their role in the evolution of artillery.[1][2][3]History and Development
Inventor and Invention Process
Thomas Jackson Rodman (1816–1871) was a career United States Army officer and ordnance expert who graduated from the United States Military Academy at West Point in 1841, ranking seventh in his class.[4] As a Union artillery officer during the Civil War, he served as commander of Watertown Arsenal in Massachusetts, overseeing ordnance production, and was later promoted to brevet brigadier general for his contributions to artillery development.[1] His primary motivation for innovating cannon design stemmed from the urgent need to enhance the durability and safety of cast-iron artillery, particularly after high-profile failures such as the 1844 explosion of a 12-inch naval gun aboard the USS Princeton, which killed several high-ranking officials and exposed the vulnerabilities of existing casting techniques.[1] In the mid-1840s, Rodman, then assigned to Allegheny Arsenal in Pittsburgh, Pennsylvania, initiated a series of experiments to address the limitations of producing large-scale cast-iron cannons.[1] He focused on testing alternative cooling methods using small-scale models, aiming to mitigate the inherent weaknesses caused by uneven cooling in traditional solid casting processes.[1] The key challenge he targeted was the contraction of the outer metal layers during cooling, which generated internal stresses and resulted in porous, brittle interiors susceptible to cracking under pressure.[4] These experiments, conducted over several years, involved comparing cooling rates and material properties to develop a more uniform solidification process.[1] Rodman's breakthrough came with his invention of hollow casting, for which he received U.S. Patent No. 5,236 on August 14, 1847.[3] To validate the method, he oversaw initial test-firings in 1849 using paired 8-inch guns—one cast traditionally and one via his hollow technique—which demonstrated significantly greater endurance for the new design.[1] Further trials in 1851 reinforced these results, showing the hollow-cast guns could withstand over 1,500 rounds compared to far fewer for solid-cast versions.[1] Following these successes and additional evaluations, the U.S. Army formally adopted Rodman's hollow casting process in 1859, marking a pivotal advancement in artillery manufacturing.[1]Design Innovations
The Rodman gun's primary innovation lay in its hollow casting method, which involved pouring molten iron around a central iron pipe through which cold water was circulated to cool the bore from the inside out while the exterior remained hot from surrounding coals.[1] This inward cooling induced compressive stresses in the inner layers of metal, counteracting the tensile stresses generated during firing and resulting in a denser, stronger structure free of internal cracks or voids that plagued traditional solid-cast guns.[2] By reversing the conventional cooling direction, the process forced impurities outward, enhancing overall durability and allowing for the production of much larger calibers without compromising integrity.[5] Complementing this was the gun's distinctive bottle-shaped profile, which featured a thickened breech tapering smoothly toward the muzzle to distribute propellant pressures more evenly along the barrel's length.[1] At the rear, a large flat cascabel disk replaced the traditional spherical knob, providing reinforcement against breech stresses and incorporating ratchet grooves for precise elevation adjustments.[1] These features, derived from Rodman's extensive experimentation with pressure dynamics, enabled calibers up to 20 inches while maintaining a streamlined form that optimized weight distribution and handling.[5] The guns were constructed from high-quality cast iron selected for its elasticity under high pressures, with bores reamed to precise dimensions for the smoothbore columbiad configuration, ensuring consistent projectile fit and minimal windage.[1] Ballistically, this design supported dramatically increased powder charges—up to 200 pounds for the 20-inch model—paired with innovative prismatic powder cakes that burned progressively to sustain even pressure.[5] Ranges extended to approximately 4 miles at optimal elevations, as demonstrated in proofing tests, while burst trials confirmed exceptional safety, with an 8-inch prototype enduring 1,500 rounds without failure compared to fewer than 100 for conventional designs.[1][2]Manufacturing
Casting Technique
The Rodman casting technique utilized a hollow mold design featuring a central water-cooled iron pipe, or core, to enable internal cooling during solidification, fundamentally reversing the traditional external cooling process that often led to structural weaknesses in large cannon. This method, developed by U.S. Army ordnance officer Thomas J. Rodman in the 1840s and 1850s, allowed for the production of robust, one-piece iron guns up to 20 inches in caliber by promoting uniform compression rather than tension in the metal.[6][1] The process began with melting pig iron in multiple furnaces to produce molten metal, which was then poured into the mold surrounding the insulated central pipe. Cold water was continuously circulated through the pipe to cool the bore first, while the exterior of the mold was kept heated with coals or hot materials to delay outer solidification; this water flow was maintained for extended periods, typically 24 to 65 hours depending on gun size, consuming up to 50,000 gallons for an 8-inch barrel. Once cooling was complete—often taking nearly a week for larger guns—the core was removed, and the bore was bored out, reamed, polished, and finished to precise dimensions.[1][5] A key metallurgical innovation was the avoidance of shrinkage cracks and internal voids, as the inward-directed cooling caused the outer layers to contract against the already solidified inner core, creating compressive stresses that enhanced overall strength. This resulted in denser metal, particularly at the bore, with tests demonstrating improved specific gravity and reduced porosity compared to solid-cast guns.[7][1] Quality control included rigorous post-casting proof tests, where completed guns were fired with double charges and double shot to verify integrity under extreme pressures, often enduring hundreds of rounds without failure—far surpassing traditional designs. For instance, a 15-inch Rodman gun withstood 509 proof rounds, including overloaded firings, confirming its superior durability.[8][9] This technique also facilitated the distinctive bottle-shaped profile of Rodman guns, optimizing stress distribution along the pressure curve.[1]Production Facilities and Output
The production of Rodman guns occurred primarily at specialized foundries and arsenals in the northeastern United States, leveraging the innovative hollow casting technique to enable efficient manufacturing of large-caliber ordnance. The Fort Pitt Foundry in Pittsburgh, Pennsylvania, served as a key site, casting numerous Rodman guns, including both 20-inch models in 1864 and 1869. Cyrus Alger & Co. at the South Boston Foundry in Massachusetts also contributed significantly, producing smoothbore Rodman guns under government contract during the Civil War. Additionally, the Watertown Arsenal near Boston, commanded by Thomas J. Rodman himself, supported production efforts by handling related ordnance manufacturing and testing. The Scott Foundry in Reading, Pennsylvania, and the West Point Foundry in New York further supplemented output for various calibers. Initial production began with small experimental runs in the 1850s, following Rodman's patent in 1847 and the successful casting of the first 15-inch gun in 1859. Demand surged with the onset of the Civil War in 1861, leading to a rapid ramp-up that continued through 1865, though manufacturing extended into the postwar period until 1871. In total, approximately 1,840 Rodman guns were produced across all sizes, with the majority completed during the wartime years to bolster coastal and fortress defenses. Output varied by caliber to meet strategic needs, with smaller models comprising the bulk of production for field and siege use. Around 1,300 10-inch guns were manufactured, providing versatile heavy artillery support, while approximately 323 15-inch guns formed the backbone of seacoast fortifications. Production of 8-inch models totaled about 213 units, suitable for lighter emplacements, and a single 13-inch gun was cast experimentally. The massive 20-inch variant saw limited output of just two units, reflecting their specialized role despite high demand for maximum firepower. Distributions for the 8-, 10-, and 13-inch models emphasized quantity over the rarer larger calibers. Wartime challenges included material shortages for iron and coal, which strained foundry operations amid competing industrial demands, as well as scaling issues from transitioning to high-volume output using the unproven internal cooling method. These factors increased production times and risks of casting failures, though the process ultimately proved reliable. Costs were considerable, with each 15-inch gun priced at around $9,000 due to the intensive labor and resources required.Variants and Specifications
Smoothbore Models
The smoothbore Rodman guns formed the core of the original design series, serving as heavy columbiads optimized for seacoast defense in fixed fortifications to counter approaching naval vessels. These muzzle-loading cannons emphasized durability and power through Rodman's hollow-core casting process, allowing for thicker walls and reduced internal stresses during firing. Produced primarily during the 1860s, the models ranged from lighter pieces suitable for both coastal and occasional siege or naval applications to massive experimental guns dedicated to permanent battery emplacements.[7][1] All smoothbore Rodman guns shared a common compatibility with spherical projectiles, including solid shot for penetrating armor and hulls, explosive shells for bursting inside targets, and hot shot—heated cannonballs—for igniting wooden ships and structures. Bore diameters matched their nominal calibers, while overall lengths were proportioned to enhance stability and projectile acceleration, typically achieving bore lengths of 10 to 12 calibers for efficient powder burn. Muzzle velocities generally fell in the range of 1,000 to 1,500 feet per second, depending on charge size and projectile weight, enabling effective engagement of threats at sea.[10][5] Key specifications for the models are outlined below, drawing from U.S. Army ordnance records and test data. Weights are approximate in short tons; performance metrics reflect standard service loads at typical elevations of 15 to 25 degrees. Projectile weights distinguish solid shot and shell where applicable; ranges and velocities are for solid shot unless noted.| Caliber | Weight (short tons) | Powder Charge (lbs) | Solid Shot Weight (lbs) | Shell Weight (lbs) | Total Length (inches) | Muzzle Velocity (fps, approx.) | Effective Range (yards, max.) |
|---|---|---|---|---|---|---|---|
| 8-inch | 4.2 | 10 | 63 | 50 | 120 | 1,200 | 3,870 |
| 10-inch | 7.8 | 15 | 128 | 102 | 137 | 1,300 | 4,835 |
| 13-inch | 16.4 | 30 | 200 | 200 | 178 | 1,400 | 5,730 |
| 15-inch | 25 | 75 | 440 | 330 | 190 | >1,000 | 5,730 |
| 20-inch | 58 | 200 | 1,000 | 1,000 | 243 | 1,735 | 8,800 |
Rifled and Modified Versions
Following the initial success of smoothbore Rodman guns during the American Civil War, efforts were made to adapt the design for rifled bores to enhance accuracy and range. In 1861, Union ordnance officers attempted to cast a 12-inch rifled Rodman gun using the hollow casting method, but the project failed due to technical challenges in machining uniform grooves during production. Similarly, a 15-inch rifled version was tested in 1864, incorporating spiral grooves inspired by Dahlgren shell gun patterns, yet it too proved unsuccessful and saw no operational deployment.[1] Post-war modifications focused on converting existing smoothbore Rodman guns to rifled configurations, primarily through the insertion of wrought-iron liners. Starting in the 1870s, over 200 10-inch smoothbore Rodmans were bored out to accommodate 8-inch rifled liners, creating a limited series of modified models that utilized elongated shells for improved precision.[12] These conversions, often employing hook-slant rifling similar to Confederate Brooke patterns, resulted in about 210 units by the 1880s, though some experiments with larger calibers like 12-inch and 15-inch versions were abandoned due to structural failures.[1] The rifled adaptations significantly boosted performance over smoothbores, achieving ranges up to 6 miles with 180-pound projectiles at 20-degree elevation, compared to the original 4-5 miles, while offering greater accuracy through shell stabilization.[2] However, the elongated ammunition increased loading difficulties, reducing the rate of fire to one round every 5-7 minutes versus 2-3 minutes for smoothbores, limiting their utility in rapid engagements.[13] Experimental variants included Parrott-sleeved Rodmans, where smoothbore castings were reinforced with wrought-iron bands and liners akin to Parrott rifle designs, tested in the late 1860s but rejected for inconsistent pressure distribution. Additionally, proposals for 20-inch rifled Rodmans were explored in 1864-1865 but ultimately dismissed due to excessive weight (over 100,000 pounds) and failed proof tests, with only smoothbore models entering limited production.[1][7]Carriages and Deployment
Types of Carriages
Rodman guns required specialized carriages to accommodate their massive size and the forces generated during firing, primarily designed for fixed seacoast and fortress applications. These carriages were engineered to provide stability, elevation control, and limited or full traverse while absorbing recoil through mechanical or later hydraulic means. Materials typically included seasoned oak for wooden structural elements, wrought or cast iron for reinforcements and pivots, and brass for precision components like elevating screws and fittings.[14] Front-pintle barbette carriages were the most common type for larger Rodman guns in open seacoast emplacements, featuring a pivot point at the front of the chassis to allow approximately 180-degree traverse. These designs incorporated wooden or iron frameworks with elevating screws for adjusting the gun's angle and mechanical recoil slides or buffers to manage the backward force. For instance, 15-inch Rodman guns were frequently mounted on front-pintle barbette carriages in coastal batteries, as documented in late-19th-century fort armaments. The 20-inch experimental Rodman gun utilized an iron front-pintle barbette carriage produced at the Watertown Arsenal, emphasizing reinforced construction to support the gun's extreme weight.[15] Center-pintle casemate carriages were adapted for enclosed fort interiors, with the pivot located at the center of the chassis to enable 360-degree rotation within the confined space of a casemate. This design was particularly suited to smaller Rodman models, such as 8- and 10-inch variants, allowing precise aiming through embrasures while minimizing exposure. Elevation was achieved via hand-operated screws or, in later modifications, hydraulic cylinders for smoother adjustment under the gun's weight. Recoil was controlled through sliding mechanisms on iron rails, ensuring the gun returned to position after firing. Historical records from Fort Jefferson note 15-inch Rodman guns on center-pintle carriages for versatile defense against approaching vessels.[16] Sea-coast modifications to standard barbette carriages included reinforced iron platforms and ratchet-equipped cascabels to enhance stability and prevent overturning from the intense recoil of 15- to 20-inch guns. These adaptations were critical for open emplacements exposed to high-angle fire and wave action. For example, an 8-inch casemate carriage was constructed with cast-iron cheek-plates and brass elevating components, illustrating the blend of materials for durability and precision in Rodman systems. Wooden versions for similar calibers used oak transoms and chassis, later transitioning to all-iron models for greater strength.[14]Mounting and Transportation
The immense size and weight of Rodman guns necessitated specialized transportation methods, particularly for the larger 15-inch and 20-inch models intended for fixed coastal defenses. These guns were typically shipped from production facilities like the Fort Pitt Foundry in Pittsburgh via rail on custom flatbed cars or double railway trucks designed to support loads exceeding 50,000 pounds. For instance, the 20-inch Rodman gun, weighing 116,497 pounds, was transported overland by rail to Fort Hamilton in New York, where its arrival required careful handling to avoid structural damage to the rail lines.[5] Smaller variants, such as 8-inch and 10-inch Rodman guns, could be moved shorter distances using horse-drawn sling carts or wagons, though their primary deployment in fortifications limited the need for frequent mobility. Disassembly was uncommon, as the guns were cast as single pieces for durability, but wartime logistics occasionally involved temporary platforms or reinforced roads to facilitate delivery to remote sites. The sheer mass of the larger guns presented significant challenges, often requiring multiple locomotives for pulling and reinforced bridges or trestles along the route to prevent derailments or collapses.[17] Mounting Rodman guns in fortifications involved precise engineering to integrate them into defensive positions. Cranes and temporary rail systems were employed to hoist the guns into place atop their carriages, followed by alignment with parapets to ensure clear lines of fire over walls or earthworks. For the 20-inch model at Fort Hamilton, the special iron front-pintle barbette carriage—itself weighing 36,000 pounds—was assembled on-site after separate shipment from Watertown Arsenal, allowing for stable elevation and traversal. These procedures were applied primarily at Atlantic coast installations, including Fort Sumter in South Carolina, where two 15-inch Rodmans were emplaced in the 1870s, and Fort Monroe in Virginia, a key testing and deployment hub.[5][18][1]Military Use
Union Employment
The Rodman gun played a central role in Union coastal defense strategies during the American Civil War, primarily deployed in fortifications along the Eastern Seaboard to counter potential naval threats from Confederate ironclads and blockade runners. These massive smoothbore columbiads, ranging from 8-inch to 20-inch calibers, were emplaced in key harbors such as New York and Hampton Roads to protect vital ports and naval facilities. For instance, a 20-inch Rodman gun was installed at Fort Hamilton in New York Harbor, serving as a cornerstone of the defenses there due to its immense firepower and range, capable of hurling 1,000-pound projectiles over five miles. Similarly, 15-inch models like the "Lincoln Gun" were mounted at Fort Monroe, Virginia, to safeguard the approaches to the Chesapeake Bay and support Union naval operations in the region.[19][20][7] Combat employment of Rodman guns by Union forces was limited, reflecting their role more as deterrents than active weapons, with few instances of direct engagement before the war's end in 1865. The "Lincoln Gun" at Fort Monroe was emplaced to counter ironclad threats following the March 1862 Battle of Hampton Roads between the USS Monitor and CSS Virginia and first fired on April 2, 1862, against a Confederate battery at Sewell's Point. In later operations, two 10-inch Rodman columbiads were utilized in Union bombardments against Fort Sumter in Charleston Harbor during 1864 and 1865, contributing to the sustained artillery assault that reduced Confederate defenses. Overall, actual firings in combat were rare, as the guns' presence often sufficed to discourage enemy advances; over 1,000 Rodman guns were deployed in coastal forts, remaining in service through the 1890s.[19][21][22] The effectiveness of Rodman guns lay predominantly in their psychological and strategic deterrent value against ironclad warships, symbolizing the Union's industrial superiority and resolve to defend its shores with overwhelming force. Their thick-walled construction, achieved through Rodman's innovative water-cooling process during casting, allowed them to withstand repeated firings without bursting, outperforming earlier designs in endurance tests where they endured up to 1,500 rounds. A notable example was the 1864 test firing of the 20-inch model at Fort Hamilton, which demonstrated a range of 6,144 yards (approximately 3.5 miles) with a 125-pound powder charge, validating its potential against armored vessels despite the shift toward rifled artillery. However, the war concluded before widespread combat validation, leaving their anti-ironclad role largely untested in battle. Rifled variants of the Rodman design were occasionally deployed in select coastal positions for enhanced accuracy.[23][7][20] Logistical challenges for Rodman guns stemmed from their enormous size and powder requirements, necessitating robust supply chains for ammunition and specialized crew training to handle the behemoths safely. Ammunition, including solid shot and shell weighing up to 450 pounds for 15-inch models, was produced at federal arsenals and transported via rail to coastal forts, though shortages occasionally arose during intense campaigns. Crews, often comprising 10 to 15 artillerymen per gun, underwent rigorous training in loading procedures, powder management, and recoil control, emphasizing precision to mitigate the 10-minute reload cycle and reduce accident risks from the guns' 50-ton-plus weight. These efforts ensured operational readiness, underscoring the Union's commitment to fortifying its seaboard against naval incursions.[21][7][19]Confederate Adaptations
Despite severe resource constraints, Confederate foundries attempted to replicate the Rodman gun's design for their coastal and river defenses, primarily producing 8-inch and 10-inch columbiads that mimicked the distinctive "soda bottle" shape and mushroom knob breech of the Union originals. Facilities like the Tredegar Iron Works in Richmond, Virginia, and the Bellona Foundry nearby cast these guns using traditional solid-core methods rather than Rodman's innovative hollow cooling process, which resulted in structurally weaker barrels prone to cracking under stress. Tredegar, the Confederacy's largest ironworks, manufactured numerous 8-inch Model 1861 columbiads and 10-inch Model 1861 versions for seacoast fortifications, while Bellona produced additional 8-inch examples, such as one deployed at Drewry's Bluff in 1862. Near the war's end, Tredegar successfully cast two prototype 12-inch columbiads on November 14, 1864, and February 20, 1865, incorporating the hollow casting technique, though these arrived too late for significant combat use.[24] The Confederacy also relied on captured Union artillery to bolster their arsenal, seizing pre-war heavy guns from federal forts at the war's outset, including columbiads and similar pieces from sites like Fort Sumter in April 1861. These captured weapons, primarily older 8-inch and 10-inch models predating the full Rodman refinements, were repaired and adapted for Confederate service, often by adding iron bands for reinforcement. Local innovations included rifling some of these guns using designs inspired by Confederate naval engineer John M. Brooke, converting smoothbores into more accurate projectiles for anti-ship roles; for instance, 10-inch Model 1844 columbiads captured at Sumter were banded and rifled to fire 200-pound shells.[25][26] These adapted and copied Rodman-style guns played a key role in Confederate defensive operations, particularly in riverine and harbor fortifications. At Vicksburg, Mississippi, during the 1863 siege, a 10-inch columbiad cast by Bellona Foundry in 1863 was positioned at South Fort to counter Union naval advances along the Mississippi River, contributing to the defenses that withstood bombardment for 47 days. In Charleston Harbor, South Carolina, similar 10-inch Confederate columbiads from Tredegar and Bellona were mounted at Fort Moultrie on wooden carriages, aiding in the repulsion of Union ironclad attacks in 1863, including against the USS New Ironsides. Rifled variants, such as modified 8-inch columbiads, were employed for long-range fire against blockading squadrons.[27][25] Resource shortages and technical limitations hampered Confederate production, restricting output to smaller calibers without equivalents to the Union's 15-inch or 20-inch Rodmans, and leading to higher failure rates from inferior iron quality and casting inconsistencies. Unlike Union guns, which benefited from controlled cooling to minimize internal stresses, Confederate versions suffered bursts during testing and combat, with reports of several exploding under full charges due to uneven metal density. Overall, these adaptations provided essential firepower but underscored the South's industrial disadvantages, producing fewer than 100 heavy columbiads compared to the North's thousands.[24]Comparisons and Influence
Similar Contemporary Weapons
The Dahlgren columbiad, developed by U.S. Navy Commander John A. Dahlgren in the 1840s, represented a parallel advancement in smoothbore heavy artillery to the Rodman gun, featuring a distinctive bottle-shaped profile designed for naval and coastal use. Unlike the Rodman's hollow-core casting process, Dahlgren guns were solid-cast from iron, which limited their maximum sizes to 11- or 15-inch calibers compared to the Rodman's 20-inch models, though they proved reliable in shipboard applications such as ironclads during the Civil War.[28][19] In contrast, the Parrott rifle, invented by Captain Robert P. Parrott in 1860, shifted toward rifled designs for greater accuracy and range, employing a cast-iron tube reinforced by wrought-iron shrinkage bands at the breech to contain explosive forces. These guns, ranging from 10-pounders to 300-pounders, offered enhanced mobility for field and siege operations—such as the bombardment of Fort Sumter—outdistancing smoothbores like the Rodman at ranges up to 4,290 yards, but they suffered from brittleness, with notable failures like the "Swamp Angel" bursting after just 36 rounds due to inadequate reinforcement compared to the Rodman's uniform internal compression.[28][19] European contemporaries included the British 13-inch sea-service smoothbore mortar of the 1850s, a cast-iron weapon primarily for naval bombardment and coastal defense with a range of about 4,000 yards, relying on traditional exterior cooling during casting that restricted scaling beyond Rodman sizes. Similarly, the French Canon de 24 C modèle 1870, a 24 cm (9.4-inch) rifled muzzle-loader built with steel hoops over a cast-iron core for naval and coastal roles, achieved comparable ranges of around 5,000 meters but used exterior hooping methods that did not match the Rodman's interior water-cooling innovation, which compressed metal layers inward for superior strength in unprecedented large calibers.[28][19][29]| Weapon | Caliber Range | Casting Method | Primary Use | Key Limitation vs. Rodman |
|---|---|---|---|---|
| Dahlgren Columbiad | 9–15 inches | Solid-cast iron | Naval/ironclads | Smaller max size; no internal cooling |
| Parrott Rifle | 3–10 inches | Cast-iron with wrought-iron bands | Siege/field | Prone to bursting; less durable |
| British 13-inch Mortar | 13 inches | Traditional cast-iron (exterior cooling) | Naval/coastal | Limited scaling; shorter effective gun range |
| French 24 C Modèle 1870 | 24 cm (9.4 inches) | Built-up steel hoops over iron | Naval/coastal | Exterior reinforcement; smaller than Rodman giants |