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Why the M79 was SO Feared in Vietnam

The most feared weapon in Vietnam gave you no warning. Not a crack like a rifle round breaking the sound barrier, not the deep thump of outgoing mortar that told you someone was working from a tube somewhere behind you. Not the shriek of artillery announcing itself from high above the clouds, giving you time to flatten against the earth and count seconds just a hollow almost polite funk somewhere off to your left.

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And then 2 seconds of nothing while 8 oz of aluminum completed an arc above the jungle canopy you could not see. Then the round hit. A 5-m kill circle. No whistle, no warning, no time. The North Vietnamese called it súng phóng lựu M79, the grenade launching gun. American grunts called it the thumper, the blooper, the bloop tube, the elephant gun.

The name that stuck in the after-action reports was more precise, the platoon leader’s artillery. Because one ordinary spec four with that weapon in his hands was organic indirect fire for the whole squad. A single soldier standing in the open or crouched behind a paddy dike, able to put a 40-mm explosive round through a window at 150 m or paint an enemy tree line at 350.

No crew, no call sign, no audible incoming to run from. 6 lb of walnut and steel, the most important infantry shoulder weapon of the Vietnam War. And its propulsion physics was a German secret invented in the last winter of the Third Reich, January 1945. The Eastern Front is collapsing. On a frozen line somewhere in what is left of Germany’s defensive perimeter, engineers from Rheinmetall Borsig are fielding a smoothbore anti-tank gun called the 8H 600.

Fewer than 260 were built between December 1944 and March 1945. The weapon weighed less than half what the standard German anti-tank piece did, and it matched it for armor penetration out to 750 m. The reason had nothing to do with the barrel or the shell. It was the cartridge. Inside the propellant case, the engineers built a small heavily reinforced brass cup, the high-pressure chamber.

It detonated at roughly 35,000 PSI inch milliseconds. The cup was pierced with vent holes. Gas bled through those holes into the larger body of the case, where pressure dropped to about 3,000 PSI. That gentle regulated push was what moved the shell, the barrel, the breech, everything you could physically touch on the weapon, only ever saw 3,000 PSI.

The violence happened inside a sealed sacrificial cup the size of a thimble. The Germans called it the Hoch und Niederdruck system, the high-low pressure system. Allied ordnance teams captured several PA 600s, examined them, understood the physics, shrugged, filed it away, and a decade later found themselves staring at a problem the high-low principle was built to solve.

From World War I through Korea, every American infantry squad had a dead zone, the band of ground roughly between 30 and 300 m. Too far for a reliable grenade throw, too close and too tangled with cover for a mortar to work cleanly. Rifle grenades existed, but infantrymen loathed them, slow to attach, inaccurate past 75 m, and clumsy in the jungle.

That stretch of paddy, tree line, or hillside where the enemy worked between his foxhole and your perimeter had no good answer. In 1953, the Army gave the problem to Springfield Armory. Deputy small arms chief Jack Bird was an avid golfer. He demonstrated the concept at the Pentagon by loading golf balls into a tube and launching them down a hallway, showing the arc they made on their way to the far wall.

He named the project after the golf club whose shot trajectory most closely matched what he was after, the Niblick, old name for the 9 iron. Project Niblick was funded. Engineers Si More and Dave Katz went to work. The cartridge they built around the 40/46 in low velocity round deliberately adapted the German high-low principle.

The brass cup inside the case detonated at 35,000 PSI. Gas dropped to 3,000 PSI in the main body before reaching the projectile. The barrel only ever handled the gentle pressure. The result was type classified on December 15th, 1960, 5 weeks before John F. Kennedy was inaugurated as launcher grenade 40 mm M79. The weapon Kennedy’s boys would carry into Southeast Asia was approved under Eisenhower.

Here is what happens in the half second after a trained grenadier pulls the trigger. The thimble-sized brass cup detonates at 35,000 PSI, roughly 10 times the pressure inside a car tire at the moment it blows. Gas vents cups holes, drops to 3,000 PSI behind the projectile and shoves an 8-oz grenade out of a 14-in rifle barrel at exactly 250 ft per second. 250 ft per second is slow.

A rifle bullet leaves at 3,000. By comparison, the M79 round is almost lazy. A fat, visible parabola that a trained eye can sometimes track through the air. The barrel and receiver only ever handle 3,000 PSI, a tenth of what’s happening inside the sacrificial cup. This is why a 6-lb launcher fires a 40-mm explosive round with less felt recoil than a 12-gauge shotgun.

The grenade leaves the muzzle spinning at 37,000 revolutions per minute. That figure appears as 3,700 RPM in a remarkable number of secondary sources, books, magazine articles, online reference pages. The error is exactly one order of magnitude. The authoritative spec is in the original field manual, FM 23-31, appendix A, 37,000.

The six rifled grooves in the barrel spin the round fast enough that three inertial weights inside the fuse assembly fly outward under centrifugal force, retract the firing pin, rotate a steel rotor until its detonator aligns with the explosive train, and the round arms itself between 14 and 27 m of flight. Inside that window, the round is a dead aluminum slug. Past it, it is a live bomb.

Picture the geometry from the other side of the paddy. You are in a fighting position with overhead cover, a bunker entrance that faces back toward your own lines, not toward the Americans crossing toward you. An M-16 bullet travels in a line. No line from their position can reach you through that entrance.

You have made a calculation about angles, about what flat trajectory fire can and cannot do. Your position is built around that calculation. Then you hear a thunk from somewhere behind the American line. 2 seconds of silence. Then the round comes down on top of you. That is the geometry the M79 broke. It’s arcing trajectory, the same lazy parabola that meant no incoming whistle, no audible warning, allowed a grenadier to drop a round onto a position that faced away over a dike into a covered trench from above, through a gap in

overhead concealment that a rifle bullet, traveling on a flat line, would never find. Five to seven aimed rounds per minute, adjusted in 25-m increments with a folding leaf sight, from a single soldier with no crew and no call sign. The silence was not accidental. It was the consequence of the high-low system’s deliberately slow projectile, and in the Vietnamese jungle, it functioned as a weapon before the round even landed.

An enemy position designed to defeat direct fire had no answer to a round that didn’t travel in a straight line. Every force on the other side of that paddy understood this eventually. The man who carried the M79 was typically a specialist fourth class, a spec four, two grades above private, trusted enough to carry the indirect fire weapon without a crew.

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