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Type 99 grenade

The Type 99 grenade (九九式手榴弾, Kyūkyū-shiki teguryūdan), also known as the Kiska grenade, was a fragmentation hand grenade introduced by the Empire of Japan in 1939 as the standard issue for Imperial Japanese Army (IJA) and Imperial Japanese Navy (IJN) infantrymen during the Second Sino-Japanese War and World War II.^[1] It consisted of a smooth, cylindrical cast steel body measuring 3.5 inches in length and 1.625 inches in diameter, weighing approximately 0.8 pounds when filled with about 2 ounces of cast picric acid explosive.^[2] The grenade's fuze was an improved percussion-delay type similar to earlier models like the Type 97, featuring a machined striker and inertia weight assembly secured by a retaining screw to prevent premature activation; it was armed by removing a safety pin and striking the fuze cap against a hard surface, initiating a 4- to 5-second delay before detonation.^[2]^[3] Designed primarily for hand-throwing up to 30-40 meters, the Type 99 could also function as a rifle grenade when launched from spigot-type dischargers such as the Type 100 (a gas-trap cup attached to rifles like the Type 38 or Type 99) or the lighter Type 2 model introduced late in the war, using a blank cartridge to propel it up to 200 meters for anti-personnel or light anti-vehicle roles.^[1]^[3] Its unsegmented body relied on the cast picric acid bursting the casing to produce fragmentation, though this made it less effective in shrapnel generation compared to serrated Allied designs; early production models included paper instruction labels with Kanji markings and graphics for operation.^[2]^[3] The nickname "Kiska grenade" originated from U.S. forces recovering examples during the 1943 evacuation of Japanese troops from Kiska Island in the Aleutians, where it saw combat alongside other ordnance.^[3] Some Type 99 grenades featured a waterproof metal fuze cover with external threading for added flash protection, addressing reliability issues in wet environments common to Pacific Theater operations.^[2] A rifle grenade variant existed, but specific details are limited in available sources. Production occurred at arsenals like the 1st Tokyo Army Arsenal, with markings including dates (e.g., 1942-1943) and imperial symbols; the grenade remained in service until Japan's surrender in August 1945.^[3]^[1]

Development

Origins and predecessors

The Imperial Japanese Army first encountered the tactical value of hand grenades during the Russo-Japanese War of 1904–1905, where improvised devices made from shell casings, tins, or bamboo filled with explosives proved effective in close-quarters trench assaults, particularly during the Siege of Port Arthur.^[4] These early uses highlighted the need for reliable infantry weapons to support attacks in confined spaces, influencing post-war experimentation with more standardized designs.^[5] Japanese military observers during World War I further emphasized grenades' role in modern trench warfare, prompting the Army Technical Bureau to develop purpose-built models to enhance infantry firepower against entrenched positions.^[6] This led to the introduction of the Type 10 fragmentation grenade in 1921, the first mass-produced design by the Imperial Japanese Army, which served as a foundational model but lacked versatility for varied combat scenarios.^[7] The Type 91 grenade, adopted in 1931, represented a significant refinement, featuring a cast-iron serrated body with a time-delay fuze of approximately 8–9 seconds, activated by striking the fuze head after removing the safety pin for hand-throwing.^[8] Primarily designed for manual use, it included provisions for adaptation as a rifle grenade or projectile for the Type 89 grenade discharger, though its longer delay limited rapid engagements.^[9] By 1937, as the Second Sino-Japanese War began, the Type 97 fragmentation grenade was introduced to address evolving needs, incorporating a shorter 4–5 second pyrotechnic delay fuze and a wooden-handled stick design optimized for hand-throwing up to 30–40 meters.^[10] However, field reports from Chinese battlefields revealed critical flaws, including the fuze's instability due to poor manufacturing quality, which often resulted in premature detonations—sometimes injuring the thrower—or complete failures to explode after impact.^[11] Additionally, the absence of rifle-launch compatibility restricted its range and tactical flexibility compared to Allied designs.^[12]

Introduction and improvements

Development of the Type 99 grenade was initiated in the late 1930s by the Imperial Japanese Army's Technical Bureau to produce a more versatile fragmentation device suitable for both hand-throwing and rifle-launching applications.^[1] This effort addressed limitations in earlier models, such as the Type 97 grenade's vulnerability to fuse malfunctions in adverse weather, which could lead to higher dud rates.^[2] Key enhancements in the Type 99 included a refined fuse mechanism that stabilized ignition and reduced dud incidences by incorporating a screw-in fuze body to secure the striker and prevent premature release, along with machining the striker and inertia weight as a single unit for reliable arming.^[2] The delay element was set to approximately 4-5 seconds, providing tactical flexibility for close-quarters engagements without excessive exposure time.^[13] Additionally, the design incorporated compatibility with the Type 100 grenade discharger and rifle adapters, enabling suppressive fire from a distance.^[1] Officially introduced in 1939—corresponding to the Japanese imperial year 2599—the Type 99 was rapidly adopted as standard issue for infantry units of both the Imperial Japanese Army (IJA) and Imperial Japanese Navy (IJN).^[1]^[13] Its adoption confirmed its role in bolstering infantry firepower for suppressive and close-range operations.^[13]

Design

Physical construction

The Type 99 grenade features a smooth, non-segmented body constructed from cast steel, cylindrical in shape with flanged ends for enhanced stability during handling and projection. This design prioritized simplicity in mass production while forgoing fragmentation grooves found in earlier models. The body is typically painted black, with a red-painted top and a white paper label wrapped around the midsection bearing the inscription "Type 99" in kanji for identification.^[1]^[14] It measures 89 mm (3.5 in) in length and 41 mm (1.6 in) in diameter, with a total weight of 0.8 pounds (360 grams). The interior is filled with 58 grams (2.0 oz) of cast picric acid, selected for its high brisance to maximize explosive effect despite the material's sensitivity to shock.^[1]^[2] Safety features include an external metal safety pin inserted through the fuse mechanism to prevent accidental activation, along with a retaining cap screwed onto the fuse head to secure the striker. The grenade is compatible with the Type 100 cup discharger attached to rifles like the Type 99 Arisaka, enabling projection ranges of up to 100 meters without requiring additional fins or adapters. This represents an improvement over the Type 97 grenade by incorporating a more stable body suited for rifle-launched use.^[14]^[15]

Fuse and operation

The fuse of the Type 99 grenade is a percussion-ignited pyrotechnic delay type, featuring a striker assembly machined integrally with an inertia weight and housed in a removable head unit secured by a safety screw that projects through a slot in the striker cover to prevent premature movement.^[2] This design addresses reliability issues in earlier models like the Type 97 by ensuring the striker remains stable until activation.^[16] To arm the grenade, the operator first withdraws the safety pin, then strikes the fuse head sharply against a hard surface—such as the ground, helmet, or rifle stock—to drive the striker into the primer, igniting a delay element that burns for 4 to 5 seconds before reaching the detonator.^[2] A light metal flash deflector, positioned with gas vents offset from vent holes, minimizes visible flash and reduces burn risk to the user during this process.^[16] The grenade supports dual operational modes: hand-throwing for close-range use or rifle-launching via the Type 100 cup discharger attached to the muzzle of Type 38 or Type 99 rifles, where the grenade is inserted base-down with the pin removed, and propelled by gases from a blank cartridge; the resulting setback force initiates the fuze.^[3] In the rifle mode, the setback starts the delay sequence similarly to manual striking.^[1] Certain variants incorporate a machined, waterproof metal fuze cover with external threading, sealing components against moisture ingress and thereby reducing dud rates compared to unsealed predecessors like the Type 97.^[2]

Service

Production and distribution

The Type 99 grenade entered production in 1939 upon its adoption by the Imperial Japanese Army, with manufacturing carried out in state-run arsenals such as the 1st Tokyo Army Arsenal and the Osaka Army Arsenal. Examples bear markings from Tokyo dated as early as May 1942 and from Osaka as early as June 1943.^[3] Production continued through 1945, ceasing with Japan's surrender in August of that year.^[1] Although precise production figures remain undocumented, the grenade was manufactured in large quantities to serve as standard equipment for Imperial Japanese Army (IJA) and Imperial Japanese Navy (IJN) infantry units, equipping soldiers across the Asia-Pacific theater and naval landing forces. It was also distributed to allied puppet armies, including the Manchukuo Imperial Army.^[1] Some Type 99 grenades featured a waterproof metal fuze cover.^[2]

Combat deployment

The Type 99 grenade entered service with the Imperial Japanese Army in 1939 and remained in use through 1945, seeing deployment during the Second Sino-Japanese War and the Pacific theater of World War II.^[13] It served primarily as an anti-personnel fragmentation device, throwable by hand or launchable from rifles equipped with the Type 100 grenade discharger for extended range suppressive fire against enemy positions such as bunkers.^[17] In the Pacific theater, the grenade was employed by Japanese infantry in jungle and island environments, where its compact design facilitated use in close-quarters assaults and defensive actions.^[13] American forces first encountered the Type 99 during the Aleutian Islands campaign at the Battle of Kiska in August 1943, where abandoned examples led to its designation as the "Kiska grenade" among U.S. troops.^[17] The weapon's strike-activated fuse, requiring a sharp impact to initiate the delay before throwing, introduced an element of unpredictability in tactical situations, potentially amplifying its psychological effect on both users and opponents during rapid advances or desperate counterattacks.^[13] U.S. Marines and Army units reported capturing numerous Type 99 grenades across Pacific island battles, noting their frequent deployment in defensive perimeters and offensive rushes. Despite such reliability issues, the grenade proved effective at short ranges in dense terrain, contributing to Japanese infantry tactics in engagements from the Solomons to the Marianas.^[17]^[13]

Assessment

Effectiveness in use

The Type 99 grenade's dual-use design enabled employment as both a hand-thrown device and a rifle-launched projectile via the Type 100 cup discharger, thereby extending infantry engagement ranges beyond typical throwing distances of 30-40 meters.^[13]^[3] Its pyrotechnic delay fuze, calibrated for 4-5 seconds, permitted safer deployment by allowing the thrower to take cover before detonation.^[14]^[1] The cast picric acid filling generated a potent blast, comparable to contemporary fragmentation grenades.^[18]^[11] Despite these attributes, the grenade's smooth cast steel body produced inferior fragmentation patterns relative to segmented Allied designs such as the U.S. Mk 2, which relied on pre-scored casing for enhanced shrapnel dispersion.^[1]^[13] The percussion-activated fuze, requiring a strike against a hard surface after pin removal, proved vulnerable in adverse weather, particularly wet conditions that could dampen the primer.^[13]^[16] In comparative terms, the Type 99 exhibited lower overall reliability than the British Mills bomb, whose time-delay friction fuze minimized activation failures, though it surpassed the earlier Type 97 in fuze stability through machined improvements that prevented unintended striker release.^[16]^[1] Declassified World War II ordnance studies, including U.S. Army Technical Manual TM 9-1985-4, characterize the grenade as sufficiently effective for Japan's defensive infantry tactics, emphasizing close-quarters suppression over precision fragmentation.^[2] The weapon's tactical contributions in Pacific theater close combat included inflicting notable casualties during defensive engagements, yet its impact was constrained by variable soldier training levels that affected consistent fuse arming and accurate delivery.^[13] Reliability advanced over prior models via refined fuze assembly.^[1]^[18]

Post-war legacy

Following Japan's surrender in August 1945, vast stockpiles of Type 99 grenades were either destroyed by Japanese forces to prevent capture or seized by Allied troops during occupation operations.^[19] Many examples were transported to the United States for technical evaluation, including thorough ballistic and operational testing at the Aberdeen Proving Ground in Maryland, where ordnance experts analyzed the grenade's cast picric acid filling, percussion fuze, and fragmentation patterns to inform post-war munitions development.^[20] In the immediate post-war period, surviving Type 99 grenades saw limited reuse amid regional conflicts, though documentation remains sparse. Factions in the Chinese Civil War (1946–1949) occasionally employed captured Japanese ordnance, including hand grenades, but specific instances of Type 99 deployment are unconfirmed and likely minimal due to the weapon's association with Imperial Japanese Army units.^[21] Similarly, during the Korean War (1950–1953), North Korean and Chinese forces scavenged WWII-era Japanese equipment, with Type 97 grenades verified in use, but no reliable accounts confirm the Type 99's combat role, suggesting it was rare or absent from active inventories.^[22] Today, the Type 99 holds appeal among militaria collectors, who prize inert, demilitarized specimens for their historical design features, such as the waterproof fuze well.^[23] Live or partially filled examples are prohibited in private hands due to safety risks, leading to the prevalence of replicas or fully deactivated versions in auctions and displays.^[15] The grenade appears in several museums, including the Former Japanese Navy Underground Headquarters Museum in Okinawa, Japan, where an original is exhibited to illustrate late-war infantry tactics, and the Nevington War Museum in the United Kingdom, which showcases it alongside rifle dischargers.^[24]^[25] Historians view the Type 99 as emblematic of Japan's wartime ingenuity under resource constraints, representing adaptations like the percussion fuze to address reliability issues in harsh environments observed during the Second Sino-Japanese War.^[1] It occasionally features in WWII media portrayals, such as films depicting Pacific Theater battles and video games simulating Imperial Japanese armaments.^[26] Unrestored Type 99 grenades pose significant hazards from picric acid degradation, as the explosive filler can form sensitive, metal-reactive crystals over time, risking spontaneous detonation if exposed to shock, friction, or moisture loss.^[27]^[28] Experts recommend professional deactivation for any suspected examples encountered in collections or archaeological sites.^[29]

References

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Type 99 (Grenade) Fragmentation Infantry Hand ... - Military Factory
Page details technical specifications, development, and operational history of the Type 99 (Grenade) Fragmentation Infantry Hand Grenade including pictures.Missing: specifications | Show results with:specifications
[2]
[PDF] JAPANESE EXPLOSIVE ORDNANCE - Bulletpicker
Remarks : A type 99 grenade has been encoun- tered with a machined, waterproof, metal fuze corer . The only, difference between this variation and the ...
[3]
Japanese Type 99 Kiska Grenade - Inert-Ord.Net
It is operated by removing the safety pin and hitting the cap hard to start the delay. Earlier Type 99's had a paper instruction label with graphics and text ...
[4]
[PDF] The Russo-Japanese War, Lessons Not Learned - DTIC
May 6, 2003 · During these costly attacks, the combined effects of the hand grenade, trench mortar, heavy and light artillery, and the machinegun, were.<|separator|>
[5]
[PDF] Hand Grenades in the Russo-Japanese War - Zenodo
Sep 11, 2009 · the last war it was first used at Port Arthur, in August, 194, ... The first Japanese grenades were made from old preserve tins, or bamboo ...
[6]
[PDF] CHAPTER 4 The impact of WW I on the tactical development of the ...
The Japanese Army struggled to adapt to WWI, formed a committee, studied trench warfare, and conducted exercises, leading to new tactics and equipment.
[7]
https://ww2db.com/weapon.php?q=517
[8]
None
Summary of each segment:
[9]
Type 91 Grenade | World War II Database
The Japanese Army Technical Bureau began improving the Type 10 predecessor design in 1931, and the new grenades entered production in 1932 under the ...Missing: Imperial | Show results with:Imperial
[10]
Japanese Type 97 Hand Grenade - Inert-Ord.Net
It is almost identical to the Type 91, except that it has no provision for a base propellant attachment and has a shorter fuze delay time, 4-5 sec. No observed ...
[11]
Grenades - The Pacific War Online Encyclopedia
The standard Japanese grenades were the Type 91 and Type 97 grenades. The Type 91 had a 7.5-second fuse and adapters to allow it to be used either as a rifle ...
[12]
Type 97 (Grenade) Anti-Personnel Fragmentation Hand Grenade
The fuse was not a wholly sound mechanism and proven to be generally unreliable (and in some instances quite dangerous for the operator). Nevertheless, it ...
[13]
4. Grenades, Land Mines, and Booby Traps | Chapter IX: Weapons
It has a pull type friction igniter fuze with a time delay reported as approximately 5 seconds. ... delay in throwing the grenade, since actual fuze delay time is ...
[14]
Type 99 hand grenade - Internet Movie Firearms Database
The bottom was now thinner so that despite lower dimensions, the weight of the explosive charge was equal to the type 97 grenade. However, because of the use of ...<|control11|><|separator|>
[15]
TM 9-1985-4; Type 99 Hand Grenade - Michael Hiske
Over-all length: 3 1/2 inches. Maximum diameter: 1 5/8 inches. Color: Body, black with white label pasted around it. The top of the grenade is painted red; ...Missing: specifications US manual
[16]
https://bulletpicker.com/grenade_-hand_-type-99.html
[17]
Japanese Grenade, Hand, Type 99 Kiska - Bulletpicker
A Type 99 grenade has been encountered with a machined, waterproof, metal fuze cover. The only difference between this variation and the standard grenade is the ...Missing: Army Bureau development 1938
[18]
WWII Japanese weapons in the Korean War - wwiiafterwwii
Jun 19, 2015 · In 1951, the US Army occupation forces in Japan launched a project at Tokyo Arsenal to convert 130,000 Type 99s for the .30-06 Springfield ...
[19]
Technology | Shards of Ceramic Grenades in Japan - CFile
Jul 23, 2015 · Shards of the short-lived ceramic “Type 4” grenade remain as a haunting reminder of the desperation of World War II.<|separator|>
[20]
Model 100 Grenade Launcher Produced in Two Types - Lone Sentry
While it is believed that the launchers can be used interchangeably on either the Model 38 or Model 99 rifles, and on the Model 38 carbine, the Japanese have ...
[21]
Imperial Japanese Explosives - Land Mines and Grenades (Part 4)
May 30, 2016 · Type 99 Hand Grenade. Overall length: 3 ... The fuze is similar to that used in the Type 91 and Type 97 grenades with a few improvements.Missing: fuse | Show results with:fuse
[22]
[PDF] Special Series 19, Japanese Infantry Weapons - Bulletpicker
High-explosive rifle grenade and spigot-type grenade launcher.. 37. 25. Rifle grenades and accessories-------------- - ---------------------------- 38. 26.
[23]
Enemy Ordnance Materiel - AMEDD Center of History & Heritage
In addition, the Model 91 hand grenade could be used asammunition. ... In addition to the standard stick-type grenade, two otheroffensive-type hand grenades had a ...
[24]
Mukden Arsenal after WWII - wwiiafterwwii - WordPress.com
Apr 3, 2017 · Japan's final LMG design of the war, the Type 99 entered production at Mukden Arsenal in 1940 and was built there until the end of WWII. About ¼ ...
[25]
Original Japanese WWII Type 99 "Kiska" Hand Grenade with Fuse ...
Original Item: Only One Available. This is an exceptionally rare inert demilitarized genuine Japanese Type 99 Hand Grenade, which has some features that we ...Missing: ceramic | Show results with:ceramic
[26]
Japanese Type 99 hand grenade from the museum of the Former ...
More information: This is a Japanese Type 99 grenade exposed in the museum of the Former Japanese Navy Underground Headquarters. Show more ...
[27]
Infantry Weapons - Hand Grenades - Nevington War Museum
Type 99 Hand/Rifle Fragmentation Grenade. Grenade Dischargers. Type 10 · Type 89 ... The Museums Collection.
[28]
Japanese Typ99 "Kiska" Grenade - Inert-Ord.Net
This would be an early production Type 99. A high degree of detailed workmanship involved to create, fill and seal that assembly. Top Grenade, a year later ...Missing: physical dimensions weight
[29]
[PDF] Picric Acid Hazards
The big concern has been with finding dehydrated picric acid. The most dangerous situations is if the bottle is old and has a metal cap.
[30]
Grenade, Hand, Type 99 Kiska
### Fuze Mechanism of Japanese Grenade, Hand, Type 99 Kiska