CIVIL WAR NAVAL ORDNANCE



by Eugene B. Canfield







 







CIVIL WAR NAVAL ORDNANCE	1

Shell Guns	3

Shot Guns	5

Rifles	6

Armament for the Monitors	7

Mortars	9

Boat Guns and Howitzers	9

Projectiles and Fuzes	10

Footnotes	13





From: Dictionary of American Fighting Ships, Volume III, 1968, Navy 

Department, Office of the Chief of Naval Operations, Naval History 

Division, Washington, DC



On January 8,1847 a relatively unknown lieutenant in his late 

thirties reported to the Washington Navy Yard for ordnance duty. So 

slightly was he regarded that the officer in charge received him coldly 

and put him off for 2 weeks. Yet, soon he and his commanding officer 

were steadfast friends, and such was his ability that when he was placed 

in command of the South Atlantic Blockading Squadron in June 1863, he 

had invented a system of boat howitzers, contributed to the development 

of the naval lock, created the shell guns and a lesser known series of 

rifles, designed a 15-inch smoothbore for monitor armament, and even 

originated a .69 caliber rifled musket. [1] The Lieutenant, of course, 

was John Adolphus Dalhlgren and it is to him more than to any other 

individual that the Navy owed the proficiency of its Civil War ordnance.



Aside from the guns developed specifically for the monitor 

turrets, three basic categories were used:



(a) Boat guns or howitzers;

(b) Broadside guns; and

(c) Pivot guns.



The general types of guns were shell guns, shot guns, rifles and 

howitzers. In addition, at least in the Confederate Navy, a few 

Carronades [2] remained from a bygone era.



Although Dahlgren attended to the design of rifled guns as early 

as 1856, they were not given the same emphasis as in the army, possibly 

because of the different conditions and problems met afloat. In any 

case, most of the rifled guns were the de- signs of Robert P. Parrott, 

although Dahlgren rifles as well as those of Sawyer and James saw 

service. In the Confederacy, many Brooke rifles were used.



While generalizations can be made concerning Civil War ordnance, 

variation and experimentation was the rule. Small, or even significant 

differences may be found between two pieces of the same type. In 

addition, many old or obsolete pieces, especially in the Confederacy, 

were rifled, banded or otherwise modified by a variety of methods so 

that they no longer represented a standard class of ordnance. Method of 

updating also could vary depending upon the foundry and the 

sophistication of its techniques, the time, and the individuals in 

charge.



Shell Guns



Although Dahlgren's work on boat guns preceded the shell gun 

designs, his system of shell guns represents the effort for which he is 

most famous. However, his shell guns were not the first shell guns to 

arm U.S. ships, 8-inch guns of 63 and 55 cwt. having been established in 

1845. Subsequently, a 10-inch shell gun of 86 cwt. also was brought into 

service. These guns generally followed the form of the canon-obusier 

developed for the French Navy by General Henri Joseph Paixhans. Paixhans 

initial effort commenced about 1821 and by 1841 the first tube had been 

cast. Dahlgren wrote, "Paixhans had so far satisfied naval men of the 

power of shell guns as to obtain their admission on shipboard; but by 

unduly developing the explosive element, he had sacrificed accuracy and 

range.... The difference between the system of Paixhans and my own was 

simply that Paixhans guns were strictly shell guns, and were not 

designed for shot, nor for great penetration or accuracy at long ranges. 

They were, therefore, auxiliary to, or associates of, the shot-guns. 

This made a mixed armament, was objectionable as such, and never was 

adopted to any extent in France...."



"My idea was, to have a gun that should generally throw shells far 

and accurately, with the capacity to fire solid shot when needed. Also 

to compose the whole battery entirely of such guns."



The first draft of the 9-inch shell gun was completed January 8, 

1850. Commodore Warrington, Chief of Bureau of Ordnance and Hydrography, 

approved the building of an experimental model on January 10 and an 

order was placed on the West Point Foundry. Weight of the gun was about 

9,080 pounds and the cast iron was to have a density (specific gravity) 

not less than 7.230 and tensile strength of at least 33,000 pounds per 

square inch. This original gun, as can be seen from the figure, had a 

slightly different form from the later designs and had only a single 

vent.



On May 21, 1850, the gun was landed at the Navy Yard. Practice 

with the gun was quite successful and encouraged both Dahlgren and 

Commodore Warrington. Meanwhile, in May of 1850, Dahlgren refined the 9-

inch gun, developing the curvature of the reinforce and adding two 

vents. Although subsequent designs show minor changes including the use 

of a single central vent [3] in place of the two side vents, this 

appears to be the design used during the Civil War.



Design for the 11-inch shell gun was submitted March 24, 1851. By 

April 30, Commodore Warrington had approved the building of a model by 

Cyrus Alger of the South Boston Foundry. It appears this first gun was 

used experimentally for several years and finally burst at the 1959th 

round July 18,1855. In addition to shells, the gun had fired 655 solid 

shot.



In some respects, the trial 9-inch gun built in 1857 was even more 

remarkable. After firing 1,500 rounds of standard 72-pound shell with 10 

pounds of powder charge, the gun was successively loaded with shot until 

10 shot with a total weight of 903 pounds was reached. With 20 pounds of 

charge, the overloaded tube finally burst. The 10 shot had filled the 

bore to within 7 3/4 inches of the muzzle.



In 1854, Congress authorized the Secretary of the Navy to build 

six first-class steam frigates. These six were the famous Merrimack 

class [4] and Dahlgren's new shell guns were to constitute the armament, 

the 9-inch being adopted for the gun decks. However, the Bureau refused 

to adopt the 11-inch pivot insisting instead upon a lighter 10-inch 

pivot. Because Niagara was to carry 11-inch, however, a few 11-inch were 

included in the initial production order as follows:



				9-inch 	10-inch 	l1-inch



Alger & Co., Boston   	 28 		 7		 7 

Parrott, Cold Spring	 28		 7		 7 

Knap & Wade, Pittsburg	 50		 0		 0

Anderson, Richmond	 50		 0		 0

				----		---		---

                        156         14          14



Dispute concerning the ability to handle heavy guns aboard ship 

continued. Finally, in 1857, in order to convince his critics, Dahlgren 

obtained Plymouth, sloop-of-war, as a "gunnery practice ship." He then 

replaced the original armament with four 9-inch shell guns, one 11-inch 

shell pivot gun, two 24-pdr. and one 12-pdr. howitzer, all of Dahlgren 

design. Also, the 9-inch broadside guns were mounted on the two-wheel 

Marsilly carriage rather than the four-wheel common carriage. Plymouth's 

6-month cruise was completely successful, and the Secretary of the Navy 

concluded in his 1857 Annual Report that, "The result of the operations 

of Plymouth seem to dispel all remaining doubt whether the heavy cannon 

which she carried would be manageable, and not only to justify the 

previous adoption of such ordnance in the steam frigates recently built, 

but also to render it expedient to extend this plan of armament." Firing 

of the 72 l/2-pound shell from the 9-inch gun could be accomplished once 

every 40 seconds by an experienced crew.



Vents in all naval guns were 0.2 inch in diameter. Because the 

vent became enlarged or worn more quickly than other parts of the piece, 

two were arranged in the Dahlgren shell guns. One was filled with zinc, 

the other being used until it became sufficiently enlarged to endanger 

the safety of the piece. It was then filled with zinc and the first one 

opened. Other times the right vent only was bored, the left vent being 

unbored or partially bored.



Normally, the 10- and 11-inch guns were used in pivot and the 9-

inch in broadside, but there were few exceptions. USS New Ironsides had 

a broadside battery of 11-inch shell guns mounted on iron carriages and 

slides somewhat similar to a pivot mounting. At Charleston, she was able 

to fire the 11-inch guns once every 1.74 minutes for about an hour or 

once every 2.86 minutes for 3 hours, and it was believed that a rate of 

1.33 minutes per round could be sustained for a short time. The 11-guns 

also formed a part of the armament for many of the monitors.



Shot Guns



In the decade or more preceding the Civil War, a large variety of 

32-pdr. shot guns was available for the armament of naval vessels. These 

essentially were copies of "the last English decree on the subject" and 

were constructed in 27, 32, 42, 46, 51, and 57 cwt. sizes. [5] A few 

other sizes may even be found. The most predominant sizes just previous 

to and during the war were of 27, 32, 42, and 57 cwt. These guns were 

generally mounted on the four-wheel common carriage and formed a portion 

of the armament of many ships.



In addition to the 32-pdrs., a 64-pdr. of 106 cwt. was available 

for mounting as a pivot gun on a slide carriage, though it was nearly 

obsolete. During June 1864, an 8-inch shot gun of 10,100 pounds and a 9-

inch shot gun of 12,000 pounds were designed with a cylindrical chamber, 

but these guns likely saw little if any service.



Although these tubes were classified as shot guns, were also 

available and were supplied to ships in appropriate proportions. For the 

32-pdr., the shot weighed 32.5 pounds while the shell weighed 

approximately 26 pounds when filled with 0.9 pound of powder. Firing at 

a vertical screen 40 feet wide by 20 feet high at a distance of 1,300 

yards with a 32-pdr. of 57 cwt., only three out of 10 shots hit the 

target, two direct and one on ricochet. The average range to first 

splash was 1,324 yards with deviations from 1,238 yards to 1,383 yards. 

While not necessarily the firing rate for this particular practice, the 

long 32-pdr., like the 9-inch shell gun, could be fired once every 40 

seconds. Since a 9-inch shell weighed 73.5 pound complete with sabot, it 

is apparent duties other than lifting and loading the projectile limited 

the rate of fire for these two pieces. In noting the armament of various 

ships, the 32-pdrs. of 42 and 57 cwt. are the most prevalent.



Rifles



Most of the rifled cannon used in the Civil War were the product 

of Captain Robert P. Parrott and the West Point Foundry at Cold Spring, 

N.Y. The Parrott rifles were first made in 1860 and consisted of a cast 

iron tube with a wrought iron reinforced band shrunk around the breech. 

Sizes varied from the 3-inch 10-pdr. to the 10-inch 300-pdr., although 

none of the latter and few of the former saw naval service. The 30-pdr. 

was one of the most popular and reliable sizes and was furnished with 

both truck and pivot carriages, as was the smaller 20-pdr. The 8-inch 

150-pdr. was normally mounted in pivot or placed in the monitor turrets, 

although a Marsilly carriage as well as the more usual pivot carriage 

was available for the smaller 6.4-inch 100-pdr.



In September 1862, the 100-pdr. was fired from 130 feet at a 

target having 6 inches of wrought iron armor plates. Penetration was 

achieved with a 14-pound charge and 70-pound shot. It was also found 

that the 8-inch Parrott, with 150-pound bolts and only a 16-pound charge 

could break through but not punch 4 1/2-inch plates.



The heavy 6.4-, 8-, and even 10-inch rifled guns used in both Army 

and Navy were almost exclusively those of Robert Parrott. The bursting 

of some of these guns at Charleston, and later at Fort Fisher weakened 

confidence in the durability of the guns and brought some discredit to 

his name. In fact, the Parrott guns were quite remarkable. Rodman, 

Blakely, Brooke, Dahlgren and others who were working to improve the 

state-of-art all suffered from the bursting of large caliber cannon, 

especially rifles. The technology to make reliable large caliber weapons 

did not yet exist, and when it was developed, cast iron was made 

obsolete.



Another rifle that saw use, especially on some of the river 

gunboats, was the invention of General Charles T. James. The guns were 

old army 42-pdr. smoothbores rifled possibly by Ames at Chicopee, Mass., 

and supplied with 81 1/4-pound shot or 64 1/4-pound shell. While the 

James rifles and projectiles were primarily noted for their performance 

at Fort Pulaski and Pensacola, they also performed well in naval 

service.



Heavy rifles for the Confederate Navy were designed by John M. 

Brooke. They somewhat resembled the Parrott guns in that the cast iron 

tubes were reinforced by single and later double wrought iron bands 

shrunk around the breech. Manufacturing was done at the Tredegar works 

in Richmond or at the Naval Gun Foundry and Ordnance Works, Selma, Ala. 

The most predominant sizes were the 6.4- and 7-inch, although an 8-inch 

was also produced. [6] Except under the banding, the tubes were not 

turned, but remained in the condition in which they left the mold. For 

the double-banded 7-inch rifle, nine individual bands each 2 by 6 inches 

were actually used. Six bands made up the inner layer. After the inner 

layer was turned in the lathe, the three outer bands were put on, "and 

the gun is again returned to the mill in order to have the exterior of 

the outer band turned off."



In February 1863 at Drewry's Bluff, Brooke practiced against an 

armored target composed of four layers of 2-inch plates and 22 inches of 

timber backing. Using a gun from CSS Richmond, presumably 7-inch, he 

"broke three layers of plates, so that the pieces came out, and broke 

the remaining plate and pushed it firmly in the wood . . ." The range 

was 200 yards and a 25-pound charge was used to propel the 140-pound 

bolt. However, proof firing was accomplished with a 16-pound charge and 

a 111-pound bolt. Other weights of projectile including a 102-pound 

shell were also available. The 6.4-inch guns were mounted on Marsilly 

carriages while the 7-inch guns were mounted on pivot carriages. Both 

carriages were essentially the same as those of the Union fleet.



In general, the Brooke rifles, as well as other cannon produced in 

the Confederacy, were quite subject to evolutionary changes as well as 

other small differences peculiar to the foundry and sophistication of 

the workers and their equipment. Consequently, various differences exist 

between models of the same type.



As might be expected, Dahlgren also became interested in heavy 

rifled cannon and made computations for a 16,000-pound model in 1856. By 

1860, Dahlgren was firing a 50-pdr. with considerable success. Shortly, 

designs had also been completed for 30-, 80-, and 150-pdr. rifles, 

although relatively few had been built. The first 80-pdr. was completed 

August 28, 1861, and place aboard USS Underwriter. USS Hetzel received 

serial No. 10 which burst spectacularly on February 7, 1862: “At 5:15 

rifled 80-pdr. aft, loaded with 6 pounds of powder and solid Dahlgren 

shot, 80 pounds, burst, in the act of firing, into four principal 

pieces; the gun forward of trunnions fell on deck, one third of breech 

passed over mastheads and fell clear of ship on starboard bow, one 

struck on port quarter, and the fourth piece, weighing about 1,000 

pounds, driven through the deck and magazine, bringing up on the 

keelson; set fire to the ship....” The tube weighed 7,900 pounds.



Dahlgren rifles were cast without trunnions, and the trunnions 

were supplied by a breech strap attached to the finished casting. As in 

the shell guns, two vents were present, although only one was completely 

bored through to the chamber. Very few of the rifles saw service, and 

most of them were 50-pdrs. Before his system of rifles was perfected, 

Dahlgren was given other duties as Rear Admiral and commander of the 

South Atlantic Blockading Squadron.



Armament for the Monitors



On March 9, 1862 Gustavis V. Fox, Assistant Secretary of the Navy 

and Lt. Henry A. Wise, Bureau of Ordnance, watched the encounter between 

Monitor and Merrimack from a small tugboat in Hampton Roads. Although 

MONITOR was left in possession of the battleground, neither contestant 

had been materially injured and it was apparent that something more 

powerful than Monitor's 11-inch Dahlgren shell guns [7] was required. 

Coming ashore at Fort Monroe, Fox was attracted by an experimental 15-

inch Rodman columbiad lying nearby. This obviously was the needed gun.

Therefore, in April, Dahlgren completed a 15-inch design to fit 

the 20-foot interior of the new Ericsson ironclads. The first 15-inch 

guns were

mounted alongside 11-inch shell guns since the 15-inch guns could 

not be produced quickly enough to provide two for each turret. The 

carriages were made of iron and the gun ports were so small that the 

26.5-inch muzzles could not protrude. Consequently, a smoke-box was 

devised as shown in the illustration to protect the gun crew from the 

blast of the explosion.



Early testing was carried out in attacks on Fort McAllister, Ga. 

On January 27, 1863, Commander John Worden, of Monitor fame, and now 

captain of the new Montauk, fired twenty-six 15-inch projectiles at the 

fort from a range of 1,600 yards. "The firing from turret seemed slow 

and deliberate to those in engine room; the smoke from guns was forced 

rapidly into fireroom at each discharge, but was well diluted with air 

by the fans, and rapidly passed out through furnaces and smokepipe, 

causing no unusual discomfort." Rear Admiral DuPont commented, "We have 

obtained valuable information in the success of the working of the XV-

inch gun . . . My own previous impressions of these vessels . . . have 

been confirmed, viz., that whatever degree of impenetrability they might 

have, there was no corresponding quality of aggression or 

destructiveness as against forts, the slowness of fire giving full time 

for the gunners in the fort to take shelter in the bombproofs."



On February 28, Worden first proved the effectiveness of the 15-

inch guns by destroying Confederate steamer Nashville lying aground 

under the protection of Fort McAllister. The range to the steamer was 

approximately 1,200 yards; only eight 15-inch shells and six 11-inch 

shells were required to set the wooden ship afire. Average time for 

firing the 15-inch gun was a little over 6 minutes with a minimum time 

of 3 minutes. On other occasions and with other monitors, the average 

firing time might be as much as 10 minutes.



Captain Drayton of Passaic reported that "pointing was done for 

both guns with the XI-inch, the port of the other being entirely closed 

by the concussion box." Furthermore, the smoke or concussion box was 

nearly knocked down, and the small projection on the cartridge would not 

enter the chamber so that priming powder had to be used to ignite the 

charge. Perhaps because of this, half of the 34 original guns had the 

teat chambers reamed out to parabolic form and the muzzle was turned 

down to 21 inches, the diameter of the 13-inch gun. [8] Later, for the 

Canonicus class, the gun ports were enlarged to eliminate the smoke box 

and the 15-inch guns were redesigned with a 16-inch long muzzle. 

Canonicus and her sisters carried two 15-inch guns in their turrets.



Normally, the crew for firing the 15-inch gun consisted of 14 men, 

but often only eight men were preferred as being equally efficient with 

less crowding. Three type of projectile were provided, and the 440-pound 

solid shot could be fired with 60-pound charges at close quarters, 

although 50 pounds was the normal charge. Cored shot of 400 pounds was 

recommended for use against masonry. The 330-pound shell contained 13 

pounds of powder and was ordinarily fired with a 35-pound charge. It 

contained three navy time fuses of 3 1/2, 5, and 7 seconds.



Final justification for the 15-inch gun came on June 17, 1863 when 

Weehawken’s cored shot penetrated Atlanta’s 4-inch armor plating and 

broke the heavy iron casting at the top of the pilot house. Surrender 

occurred after only 15 minutes of fighting.



In addition to the heavy smoothbores, a few of the monitors were 

equipped with the 8-inch 150-pdr. Parrott rifles. Of the Passaic class, 

Lehigh and  Patapsco had them in place of the 11-inch shell guns, and 

finally the 11-inch of Passaic was replaced with a 150-pdr. rifle. The 

twin-turreted Onondaga also had a 150-pdr. Parrott alongside the 15-inch 

smoothbore in each turret. The extra range of the rifles was 

occasionally useful in reaching targets unattainable with the 

smoothbore.



Mortars



Mortars were not widely used by naval forces during the Civil War 

and opinions regarding them were generally controversial. However, the 

17,200-pound 13-inch monsters were used in mortar boats on the 

Mississippi River. Their greatest use was in bombarding Forts Jackson 

and St. Philip below New Orleans with 8,000 of the 200-pound shells. [9] 

Most of the shells fell on and about Fort Jackson and, since the fuses 

were erratic, some of the shells bored 18 to 20 feet into the soft 

ground before exploding.



Because mortars were usually fired at an elevation of 45 degrees, 

it was necessary to provide different charges for targets at different 

ranges. Safety required that the measuring of powder and filling of 

cartridge bags be done in the magazine. The cartridges were then sent to 

the mortar in leather passing boxes. Unlike most other cannon where the 

cartridge bag was placed in the chamber and pierced by the priming wire 

as it was pushed down the vent, mortar cartridge bags were opened and 

the powder carefully emptied into the chamber. The cotton bag was then 

used to wipe off the shell before it was lowered into the bore, and 

finally was use to wipe out the mortar before sponging. The bags were 

never returned to the magazine during action as small amounts of loose 

powder remaining in the bags might fall out on the deck eventually 

forming a powder train from the mortar to the magazine. The performance 

of the mortar flotilla is commendable in that no accidents occurred 

during the 7 days of firing. One schooner, Dan Smith, fired 493 shells. 

Maximum range to Fort St. Philip was 4,710 yards and required a

23-pound charge against the wind. Best sustained rate of fire was 

2 2/3 minutes per projectile, although projectiles could be fired every 

5 minutes with greater ease.



Boat Guns and Howitzers



The Navy system of boat guns and howitzers dates from Dahlgren's 

earliest endeavors at the Washington Navy Yard. He noted that, "The 

first trial was a little bronze howitzer of my design, of two hundred 

and twenty pounds, cast in an old brass furnace . . . bored and finished 

on a lathe." The work was done in 1848. Even before the Civil War, the 

pieces saw service at various places around the world. One 24-pdr. and 

eleven 12-pdrs. accompanied Commodore Perry on his expedition to Japan 

in 1853-54. The Japanese were so impressed they requested and were given 

one of the howitzers. All the pieces were made of bronze and were of 

very simple form. They were attached to their boat or field carriages by 

a loop underneath the tube in a manner similar to the carronade. Three 

smoothbores were available: light and medium weight 12-pdrs., and a 24-

pdr. A 12-pdr. rifle was available along with a 20-pdr. rifle, although 

the latter is relatively ignored in the ordnance manuals. [10]



The boat-carriage was composed of a bed to carry the howitzer, a 

slide on which the bed moved in recoiling, and a wooden plate beneath 

the slide. William B. Cushing's open launch, in which he successfully 

torpedoed and sank Albemarle, was equipped with a 12-pdr. howitzer on a 

boat carriage. The howitzer was fired just before the launch bumped over 

Albemarle's protecting log boom to explode the torpedo.



The field-carriage was made of wrought iron and, in contrast to 

land service practice, a small wheel was located at the end of the trail 

to help the carriage over rough ground, for the carriage was to be 

hauled by sailors rather than horses. In firing, however, the pin of the 

trail-wheel was removed and the wheel turned upon the trail in order to 

reduce recoil. No limber was provided since it was not intended that the 

howitzer would be moved any great distance from the landing place. If 

movement was necessary, ammunition was slung from the axle or carried in 

the pouches of the men.



The basic ammunition for the smoothbores was shell, shrapnel or 

spherical case, and canister. Shot was never provided. The medium 12-

pdr. with its field carriage weighed less than 1,250 pounds, and 

considerably less than the 2,355-pound army 12-pdr. Napoleon with 

carriage. Consequently, it could be maneuvered relatively easily by 

hand, but was not expected to be subjected to as severe an environment 

as the army field gun. Canister could be fired at a maximum rate of 

eight rounds per minute although one round in 15 to 18 seconds was 

typical. On the boat-carriage in a launch, maximum firing rate was 

approximately five rounds per minute.



Projectiles and Fuzes



The number and variety of projectiles for Civil War ordnance are 

legion. Many varieties were supplied without official sanction, 

especially for the rifles. Most spherical shells were fitted with the 

Navy time-fuse, consisting of a composition driven in a paper case and 

then inserted in a metal stock which screwed into a bouching fitted to 

the shell. The fuse composition was covered with a water cap to prevent 

the flame from being extinguished as the projectile ricocheted over the 

water. A simple labyrinth was filled with mealed powder to communicate 

fire to the fuse composition. Protection from moisture and accidental 

ignition was provided by 3 safety cap. Likewise, a safety plug at the 

bottom of the fuse prevented fire from being communicated to the powder 

in the shell if the fuse was ignited accidentally. On loading, the 

safety cap was carefully removed and the shell pushed home with the axis 

of the fuse along the bore and away from the charge. On firing, the fuse 

was ignited by the flame coming around and over the top of the shell, 

the safety plug being dislodged by the shock of discharge. The 

illustration shows the water cap screwed into a brass fuse plug which in 

turn as firmly driven into the fuse hole of the projectile. Apparently, 

this type of fuse also saw service and was similar to the standard sea-

coast fuse.



Shells for the 12- and 24-pdr. howitzers and all spherical 

shrapnel were fitted with the Bormann fuse which also was standard for 

the army field artillery. Maximum burning time of a little over 5 

seconds was approximately correct for a range of 1,200 yards. Face of 

the fuse was marked in seconds either by arabic numerals or dots. In 

operation, a cut was made beside the appropriate time index mark 

exposing the ring of composition to the flame of discharge. At the 

desired time, the fire was communicated to the priming magazine which 

exploded driving its flame into the charge of the shell or shrapnel. In 

loading the projectile, the fuse was always toward the muzzle with the 

cut of the fuse up to be certain the composition would be ignited by the 

flame of discharge migrating over the top of the projectile. If 

inadvertently the fuse was placed toward the charge, the fuse might be 

blown in and the projectile would explode as it left the muzzle.



Firing of naval guns was accomplished by means of a percussion 

lock. Locks were first introduced into the British Navy by Sir Charles 

Douglas in 1782 replacing the slow-match and other methods of firing. 

The U.S. percussion lock used during the Civil War dated from 

approximately 1842 and was patterned after the method of Hidden. For 32-

pdrs. and similar pieces, the lock was attached to an oblong mass of 

metal about the vent called the lockpiece. On shell guns, the hammer was 

fitted in a slit cut into a lug cast near the vent. The lock was also 

attached to the Parrott and other rifles.



To fire the piece, a percussion primer in the shape of a 2 1/2-

inch-long quill barrel topped with a wafer or flat head was first 

inserted in the vent. Then the lanyard was steadily and quickly drawn 

(not jerked) rotating the hammer on its bolt until it was brought down 

on the vent setting off the percussion primer. Continued pull on the 

lanyard drew the hammer clear of the vent avoiding the erosion caused by 

gasses rushing from the vent. To obtain this action, an inch-long slot 

was cut at the rear of the hammer. In contrast to the locks on small 

arms, no springs were included in the mechanism.



The hammer for the boat-howitzers was different and simpler than 

the standard navy lock. Although the lanyard rotated the hammer in the 

same way, there was no slot. Instead, the hammer remained on the vent, 

and a perforation through the head minimized erosion as the gasses 

escaped. However, the face of the hammer was a nipple that could be 

unscrewed and replaced if erosion became excessive.



Parrott designed and developed a considerable variety of 

projectiles for the rifles he produced at the Cold Spring Foundry. The 

base rings which expanded into the rifling on being fired from the piece 

took many forms. For the larger calibers, the brass ring was cast into a 

recess provided with numerous toothlike projections to assure that the 

ring, which gripped the rifling, also rotated the projectile. The blunt 

noses of the shot, some solid and others hollow, were hardened and 

chilled to make them more effective for armor piercing. Against armor, 

ordinary cast iron shot would become mashed and cause little damage.



Both Hotchkiss and Schenkl projectiles were also used in the 

rifles. The Schenkl projectile consisted of a cast iron body with a cone 

shaped tail. A papier mache sabot was expanded into the rifling by being 

forced on the cone by the action of the charge. Projections on the cone 

insured that the rotary motion was imparted to the projectile. A basic 

problem with this ammunition was the material for the sabot. Sometimes 

moisture would swell the papier mache so that the projectile could not 

be loaded into the piece. Other times, the sabot material was hard and 

would crumble on firing, permitting the projectile to tumble in flight. 

[11] However, the Schenkl percussion fuse was quite successful and 

remained in naval use long after the Civil War. It consisted of a hollow 

metallic stock containing a plunger held in place by a small screw. On 

discharge from the piece, the screw would break and the plunger was free 

to float. On impact, the percussion cap would be set off igniting the 

primer within the plunger and exploding the shell.



The Hotchkiss projectile consisted of three parts, the body, a cup 

on the rear of the body, and a lead ring filling the intermediate space. 

On discharge, the cup would be pushed forward compressing the lead into 

the grooves. Another feature for projectiles having time fuses was the 

three longitudinal grooves along the outside to insure passage of the 

flame to ignite the fuse. Hotchkiss projectiles were generally quite 

successful, and were relatively free from tumbling. [12]



Along with his other efforts, John Dahlgren also developed a 

projectile for his rifles. As shown on page 814, the projectile 

consisted of an iron body with a lead base cast over projections on the 

rear. Along the middle of the body several ribs were formed. These ribs 

were inclined slightly to the axis of the projectile so that they would 

be parallel to the rifling and were turned to a diameter 0.02 inch less 

than the bore of the gun. Their purpose was to provide a relatively 

small but finished bearing surface for the projectile against  the bore 

of the gun. [13] The groove around the periphery of the lead base was 

filled with lubricating material. The 80-pdr. Dahlgren rifle that burst 

aboard USS Hetzel was furnished with Hotchkiss and Cochran projectiles 

as well as the Dahlgren type.



Confederate Brooke projectiles were diversified in shape and 

method of producing rotation. The four types shown may be found on 

drawings with Brooke's signature. Two of the projectiles have raised 

rings (similar to the bourrelet on modern projectiles) which were 

carefully turned to the proper dimensions, the remainder of the surface 

being rough as it came from the mold. These also have the ratchet sabot 

of bronze or copper. The base of the projectile was usually divided into 

seven equal sectors with their surfaces inclined to the axis preventing 

the sabot from slipping on the base. The sabot was secured by a central 

screw. Another type of ratchet-ring sabot, in which a soft metal ring 

was cast upon the base of the projectile, was personally designed by 

Brooke.



A very simple method of making projectiles take the rifling was 

apparently developed in late 1862 when steel for navy solid shot became 

scarce. The shot was forged of wrought iron and an annular groove was 

turned in the base to form a lip. On discharge, the lip expanded into 

the rifling and the rotation was transmitted to the shot. [14]



Other types of guns and projectiles than herein described were 

used with varying degrees of success. Information on some types may be 

found easily while a dearth of information exists on others. Often, 

especially in the Navy, an element of secrecy existed preventing the 

publication of dimensions or scale drawings of various weapons. However, 

the secrecy seemed to have been more a personal attitude on the part of 

various individuals than an official government directive. Thus, 

Dahlgren's Shells and Shell Guns published in 1856 doesn't contain a 

single illustration of either shell or shell gun, although other reasons 

may also have existed. Nevertheless, range tables are readily available. 

One of the few statements regarding security may be found in the 1866 

Ordnance Manual and warns the reader not "to show or explain to 

foreigners or others the construction of any fuzes, except so far as 

necessary for the service of the guns."



The period of the Civil War was one of a rapidly changing ordnance 

technology. Various lessons learned over a period of several hundred 

years were still being practiced. Yet, new ideas and new materiel were 

being introduced daily. Both the North and the South grasped much of the 

new ordnance technology and effectively put it to use to their own 

purpose and advantage.







Footnotes



[1] Known as the Plymouth musket, it was a development from the French 

Carabine a Tige. Ten thousand were in service in



[2] Carronades are short iron guns having relatively little weight for 

their caliber. They have no trunnions and are fastened to their carriage 

by a loop underneath in a fashion similar to the Dahlgren boat guns. 

Carronades were first brought into British service in 1779, the 68-, 42-

, 32-, and 24-pounders still being listed as retained ordnance after 

1870. The Carronade, named after the Carron Works in Scotland, is 

somewhat obscure in origin some crediting it to General Robert Melville 

and others to Charles Gascoigne, manager of the company. In any case, 

the guns were at first called Gasconades and one may conjecture the 

possibility of a play upon words, for gasconade, derived from the French 

Gascons, means a boast or vaunt of something very improbable. CS Ram 

MANASSAS was armed with a single 24- or 32-pounder Carronade.



[3] Upon the death of Commodore Warrington, October 12, 1851 Commodore 

Charles Morris was placed in command of the Bureau of Ordnance and 

Hydrography. Apparently Morris insisted on a single central vent and 

"would not permit me to have my own vent in my own model of IX-inch and 

X-inch." After Morris' death in 1856, one of Dahlgren's first acts was 

“to restore the side vents to all his guns."



[4] Others of the class were Wabash, Minnesota, Roanoke, Colorado, and 

Niagara. Niagara was built as a large sloop-of-war and strangely was 

armed exclusively with 11-inch guns.   



[5] The British had an even larger vsriety of 32-pdrs designed by 

Dundas, Monk, Blomfield and others. A hundredweight, cwt, is 112 pounds. 

Quotation is from Memoir of John A. Dahlgren by Madeleine V. Dahlgren, 

Charles L. Webster & Co., 1891. Dahlgren's second wife was quotting from 

his notes.



[6] Brooke also designed 10- and 11-inch banded smoothbores.



[7] Monitor's 11-inch shell guns were Nos. 27 nnd 28 made at the West 

Point Foundry in 1859. Forty-one cast iron shot weighing approximately 

170 pounds were fired with 15-pound charges and hit Merrimack 20 times, 

breaking six o the top layer o plates. Merrimack's armor was two layers 

of 2-inch thick rolled plntes sloping at an anlge of 35 degrees. It was 

later determined that charges of 30 pounds could be used in 11-inch 

guns.

 

[8] Dahlgren actually preferred to arm the montors wth 13-inch guns.



[9] Of the 21 vessels in the mortar flotilla, only 20 had mortars. One 

mortar schooner was sunk on the second day of firing. Some accounts 

indicate more than 16,000 shells were fired but calculations based on 

reports from the mortar flotilla indicate 8,000 is more nearly correct. 

This is still a phenomenal quantity, representing 800 tons of metal.



[10] The 71st Regiment New York Militia had two Dahlgren boat howitzers 

at Bull Run. After the battle, these, along with other artillery pieces 

were listed by the Confederate E. P. Alexander in his report of captured 

equipment.



[11] A more complete description of Schenkl projectiles and fuzes by the 

same author is presented in Civil War Times Illustrated, June 1966, page 

24.



[12] Henry L. Abbot, commanding the siege artillery at Petersburg, felt 

the projectile strained the guns and did not like to use it in the 

larger calibers.



[13] Projectiles of this type generally have been identified as of 

Confederate origin, probably because Henry L. Abbot found a sample among 

his collection of Confederate ammunition fired into his batteries at 

Petersburg. Whether the sample (see Siege Artillery in the Campaigns 

against Richmond by H. L. Abbot, Washington 1867, plate 6, fig. 66) was 

copied by the Confederates or was reclaimed U.S. ammunition is unknown. 

Abbot's inability to recognize the Dahlgren naval projectile is some 

indication of the lack of communication between the Army and Navy on 

ordnance matters. Dahlgren's patent No. 32986 is dated Aug. 6, 1861.



[14] The drawings with Brooke's signature are in the possession of the 

National Archives, One drawing titled "The Ratchet-ring Sabot Designed 

by John M. Brooke Comndr. CSN" bears the date Nov. 24, 1863. The drawing 

of the solid wrought iron shot is dated Oct. 8, 1862.

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