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- Newsgroups: sci.military
- Path: sparky!uunet!psinntp!ncrlnk!ciss!law7!military
- From: William Logan Lee <bill@extro.ucc.su.oz.au>
- Subject: Re: Rivet popping
- Message-ID: <By4LHK.CsM@law7.DaytonOH.NCR.COM>
- Sender: military@law7.DaytonOH.NCR.COM (Sci.Military Login)
- Organization: /etc/organization
- References: <Bx7CEF.EFB@law7.DaytonOH.NCR.COM> <BxB8D7.KKA@law7.DaytonOH.NCR.COM> <BxICpE.Kw0@law7.DaytonOH.NCR.COM>
- Date: Sun, 22 Nov 1992 16:22:32 GMT
- Approved: military@law7.daytonoh.ncr.com
- Lines: 53
-
-
- From William Logan Lee <bill@extro.ucc.su.oz.au>
-
- In article <BxICpE.Kw0@law7.DaytonOH.NCR.COM> ecrjbruce@economics.adelaide.edu.au writes:
- >Not exactly an answer but along the same lines. One of the early ways to take
- >out a tank was to fire a shell against it that hasn't got a snowballs chance in
- >hell of killing it. This would often cause molten globs of metal to spray
- >around inside the tank killing or wounding the crew (would you perform at your
- >best with molten metal over you?) and generally causing havoc.
-
- Unfortunately, they are not molten globs of metal, but anything that is on
- the inside of the armour plate (including chunks of the armour itself).
- What happens is that after the explosion, a compression waves travels out
- from the point of the explosion through the armour. Then it reaches the
- other side and anything on that side in contact with the armour receives
- that compression wave. Can you remember seeing a physics demonstration
- called "Newton's Balls" with a row of suspended ball bearings being struck
- on one end of the row. The end ball flies off, with very little observed
- movement of the intervening balls. This is the principle of the HEP (HESH)
- ammunition. Paint, screws, fittings all come off the inside of the armour
- and zip around the inside of the armoured compartment. What's more, when
- the compression wave reaches the inside of the armour, it rebounds as a
- tension wave. If the armour does not have required _tensile_ strength, it
- can fail, and a scab of armour detatches itself from the rest of the armour.
- This is travelling at a (relatively) low velocity (compared to the velocity
- of the detonation wave) and bounces around the inside of the armour,
- wreaking havok on anything in its path.
-
- >Later model tanks certainly fixed this problem, although I can't give you a
- >date on this. As late as WW2 this was still a reasonably common occurence.
-
- I had not heard of this problem being fixed, but the increased thickness,
- and quality of armour would have contributed. Eliminating bolt heads on
- the inside of the armour, as well as other fittings would also have
- contributed. Wet ammunition storage as introduced into late model Sherman
- tanks assisted in containing and cooling spall fragments from non-
- penetrating hits. A non-penetrating hit from an armour piercing round
- can cause the same effects as a HESH round.
- I did read of a tanker's recollections from WW2 where he described having
- to sandpaper the inside of the turret to remove loose flakes of paint,
- then repainting the inside so as to reduce the danger from non-penetrating
- hits.
- After WW2, woven Kevlar lining has been used to reduce this still-present
- danger, as well as to try to limit the effects of a penetrating hit.
-
- >It also forms the basis of the theory behind HESH (high explosive squash head)
- >where an amount of HE is pressed up against a tank by the force of the round
- >then it explodes and sends metal fragments and molten globules throughout the
- >interior to take out the crew. From what I have been told the results are not
- >a pretty sight.
-
- Bill Lee
-
-
