Unconventional Shaped Charges

Quote: Originally posted by Hennig Brand

I think well over 90% of the mass and energy were in the projectile that went through the steel, through the main hole, judging by the size and depth of the other spots on the target. From the little bit I have seen a bit of splatter is a common sight on a target hit by an EFP.

Has anyone noticed that the Krakatoa EFP uses a very large amount of HE for the targets it is shown penetrating. It uses 500 grams PE for a 1 inch and 1.9 inch steel plate in the videos, thats thick target material but isn't 500g overkill.

I just plasticized some PETN that had been recrystallized for the first time for use in EFP's.
I tried 13% Polybutene but it didn't seem enough and Semtex has 20% inert's I'm pretty sure so I bumped it up to 16% Polybutene and 6 drops motor oil to add softness. It was rolled for about 2.5 hours
The result 31.9 grams PE is off white (due to the motor oil) and is slightly stiffer than Play doh.
The density was measured and is between 1.42-1.44.


[Edited on 12-7-2015 by greenlight]

Quote: Originally posted by Hennig Brand

Here are a couple of equations which could be useful to someone trying to perform heat transfer calculations based on a partially filled spherical vessel/flask. V = 1/3 * pi * H^2 * (3 * R - H) A = 2 * pi * R * H where: V = Volume of contents in partially filled spherical vessel A = Inside Surface Area of curved surface, next to contents, of partially filled spherical vessel H = Height of contents in partially filled spherical vessel R = Inner Radius of spherical vessel Equations for other shapes can be found too, in texts or online.

Spherical Cap or Spherical Dome not Hemisphere

Quote: Originally posted by greenlight

I just plasticized some PETN that had been recrystallized for the first time for use in EFP's. I tried 13% Polybutene but it didn't seem enough and Semtex has 20% inert's I'm pretty sure so I bumped it up to 16% Polybutene and 6 drops motor oil to add softness. It was rolled for about 2.5 hours The result 31.9 grams PE is off white (due to the motor oil) and is slightly stiffer than Play doh. The density was measured and is between 1.42-1.44. [Edited on 12-7-2015 by greenlight]

For loading of SC and EFP you do not need to have a literal plastique with excellent rheological properties, although it is a really cool thing to achieve Hence one can make do with much less inerts and physical work to only reach phlegmatisation (5-10% is ok) and ease the loading and compaction of the charge. I've used 10% castor oil with PETN and RDX for SC application...the mix is a crumbly granular matter that loads excellently and achieves good density.

@Hennig, thanks, and I did roll it for a longer time than needed as it was staying too crumbly with just Polybutene and I was trying to hold out on adding anything else. As soon as the small amount of motor oil was added it formed together much more efficiently as well as becoming softer.

@Markx, I realised when it was still crumbly that I could have used it in an EFP as is but I have always wanted the full plastique and as you say it is a cool thing to acheive
I will try less Polybutene next time and try and bring the inert's % down but add a small amount of motor oil straight away instead of after adding the 16% PB.

Has anyone seen this video I would have thought that it would have detonated the bombs https://www.youtube.com/watch?feature=player_detailpage&v=xAmraOEGzqU

Anyway tried out my new ebw fireset the setup was 1.2 grams of etn compressed to 1.3 grams c/c plus 0.1 on top for a total of 1.3 grms of etn the copper dish was 6.25mm rad, 0.6mm thick and 11.5 mm dia ,bridge wire 0.030mm dia x 2mm long, coax 7 meters with 200mm twin core on the end connecting with a jst to the shaped charge 10mm ms plate at 40 mm standoff, and yes I have a voltage measurement of 3500v at detonation.
cheers nuxy









[Edited on 13-7-2015 by nux vomica]

The caseing is a s/s m10 rivnut we have a couple of hundred of them at work

Damn, I misunderstood again
I've got it now.

I think I will order some 1mm magnesium sheet to experiment with when i have these copper lined EFP's dialed in correctly.

efp

I can get a 2.5 mm drill almost through from the exit side there's a burr on the entry side stopping it .
the photo is with a piece of 2.4mm welding wire.

Cheers nuxy



[Edited on 14-7-2015 by nux vomica]

Yeah, I remember now that you mention it. That amount of penetration and holes that small in diameter are not characteristic of EFPs, especially at such short standoffs. A well made Munroe effect shaped charge can still work quite well at the standoffs you are using and it looks like you are one of the ones here most able to do accurate and precise work. Very nice tests, interesting!

Maybe they are some sort of transition type charge, not really an EFP and not really a Munroe effect SC, but somewhere in-between?


[Edited on 14-7-2015 by Hennig Brand]

I had a go at penetrating 20mm m/s plate, just couldn't get through though it cracked and bulged the back of the plate.

I had 23mm standoff and I think it was too close as the entry looks smaller than normal and there is hardly any copper spatter on the target 2.5 to 3 times standoff might be a better proposition.

Setup was my standard ebw one ie 1.2 grms etn and firing voltage was 3500v.

Cheers Nuxy.













[Edited on 15-7-2015 by nux vomica]

genie

Quote: Originally posted by greenlight

@Nuxy, thats pretty close to complete penetration by the look of the picture, well done. I agree about the standoff, I think it would have made it through if you had used 40mm standoff like your last test.

Quote: Originally posted by Hennig Brand

Less standoff would normally produce a larger entry hole, since there is less distance/time for elongation and narrowing of the jet or projectile. That is a thick piece of steel for the size of the charge that is for sure!

Ive got over a meter of the 20mm steel flat bar leaning against my bench at work hopefully I wont have to use all of it to get a hole through both sides.

I agree about the less standoff bigger hole but im wondering if the jet takes longer to focus, the lack of copper splatter is different to the other shots they had spatter and the hole was nice and round not wonky looking with none ,after all it is a bit of a bastard son, looks like a efp but acts like a shaped charge.
Cheers nuxy.

Quote: Originally posted by Hennig Brand

For 0.6g of copper, density 8.96g/cc : 0.6g / 8.96g/cc = Volume = 4/3 * pi * r^3 r = 0.25 cm D = 2r = 0.50 cm edit: I look forward to your next test. It will be interesting to see how much more penetration you can get out of it. BTW, math just takes practise, no one is born knowing how to do it, though some do of course have a greater affinity and some have greater ability as well (not saying I am an expert and yes I make mistakes too). Rework and understand the above calculation a couple of times and then a day or two later rework it again. If you actually think and follow the process and understand as you are working through it will sink in and you will really know it. Repetition is a good thing! A lot of times people are trying to prove a mathematical relation so they tend to latch onto, or force even, anything that looks like a connection whether or not it obeys the mathematical laws or not (I have been guilty myself). The same sort of thing often happens when detectives decide someone is guilty before they investigate and a very high percentage of the time they are able to built a strong case against them even when the accused is innocent (the detectives don't necessarily consciously do it on purpose). The math can be completely wrong and still occasionally end up with the right number. [Edited on 15-7-2015 by Hennig Brand]

Yeh im a bit of a rusher somtimes as they say the devil is in the detail.
Smacked a liner with a hammer till it was reasonably round, you were spot on size with 5mm dia, put it next to the exit hole in the 10mm plate and it's close to size where the hole flares out .
Cheers nuxy

[Edited on 16-7-2015 by nux vomica]

Quote: Originally posted by greenlight

Just wondering how far you guys insert your detonator into the explosive charge in your EFP's as I found this in one of the pdf's: "Results of the cap depth test determine that inserting the blasting cap 7.5 cm into an EFP creates a more elongated projectile shape with a higher velocity than the projectiles produced from the EFP with a cap depth of 2 cm." I knew centred detonator placement was important but it seem the depth of insertion is also a factor contributing to the final slug shape and velocity.

Like this (forgive my terrible drawing skills):

So the red colour representing some 3 mm piece of low density inert material, flattening the shockwave.

I am a bit more happy with the results of the 20mm plate test now I have cut the plate in half I got 16mm depth with 2.5mm dia at the bottom of the hole .
I added a picture showing the cut plate after I sprayed crack detection fluid on then developer to show things better.

Dont know whether to go up another 5 mm or try 46 mm now. Nuxy



[Edited on 17-7-2015 by nux vomica]

Ebw shaped charge video

I took a video of one of my shaped charges going off since it was a bright day and not raining, l protected my phone with a piece of 2mm stainless steel sheet with a 10mm hole drilled in it to just let the lens be exposed I don't know the mathematical odds of a splinter hitting the lens at 4 meters away but I thought it must be minute .

And no I don't know how I would explain to my wife how my phone got a hole through it .

The video charge is ebw fired at the end of 7 m coax at 3500 v using my standard s/s rivnut with 1.2 + 0.1 etn, copper liner and 35mm standoff, target is 20mm plate.

Plate in photo is the target i will cut at work to check penetration.

Cheers nuxy.




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[Edited on 18-7-2015 by nux vomica]

I just redid the 35mm standoff again because I wasn't happy with the result [12mm] and bingo I got a full penetration through 20mm of steel , I spent a little more time assembling everything and I got the best looking penetration yet, nice and straight and narrowing to 1.75 mm which is the dia of the pin sticking through the target.
It was standard ebw charge fired at 3500v through 7m coax.

Cheers nuxy.

[Edited on 22-7-2015 by nux vomica]

Quote: Originally posted by Hennig Brand

Nice result! That is a lot of steel penetrated for such a small charge! I also watched your video above, which was interesting. I noticed from the video that you seem to be doing your explosive testing in a more suitable location than I have been. Probably not something to be emulated, but I have been taking 20 or 30 paces off my back door step before setting up a test. Of course where I am is very rural with no close neighbors.

Yeah I didn't think I was going to make It through at one stage so maybee 35mm standoff is the sweet spot for these small charges.
I realize how lucky you are because were semi rural till 10 years ago now suburbia is everywhere new estates taking over a lot of the farmland. its getting harder to find quiet spots all the time.
cheers nuxy.

Cut the 20mm steel plate that I got full penertation in half looks even better than I thought 3mm dia to 16mm depth then narrowing to 1.75mm for a small amount of etn it sure does some work.
Rod in pic is 1.6 dia.

Cheers Nuxy

pictures

Quote: Originally posted by Laboratory of Liptakov

Huuh. This is the art of high energy. In the gallery, Christie's sold a lot worse images. Much worse, but for millions of dollars. Send them this picture. :-) Dr. Liptakov

Thanks, it is amazing to think how much energy is forced so quickly through the target but it still looks like the jet delicately pulsed through the steel.
I dont think you can claim you are a artist to mr plod when he is examining your artistic folio. nuxy





[

[Edited on 24-7-2015 by nux vomica]

Tried something different today sill useing my standard setup eg rivnut 1.2grm etn I machined a flat .6mm copper disc 11.5 mm dia and fired it at 10mm m/s at 35mm standoff it only penertrated 3mm o/d of hole was 15 mm cheers nuxy

Quote: Originally posted by Hennig Brand

Yeah, without at least a bit of curvature the projectile doesn't narrow and elongate. With curvature the detonation zone hits the apex of the domed disc (highest point in center) first accelerating it to high velocity long before the detonation zone makes it to the bottom outer edge of the domed liner (is the same for Munroe effect shaped charges as well). The different in relative velocity and mass difference going from the inside to the outer edge of the liner generates forces which stretch the liner into a narrower more elongated shape which is much more capable of penetration. Interesting that the hole diameter, in this flat liner test, is so much larger than the initial liner diameter.

I'm still not happy with the result hennig I didnt have the liner flush with the outside of the rivnut I think the flared edge on the rivnut interfered with the forces acting on the liner as the flare was in front of it and also there is a impact ring where the S/S flare hit the target so the flare and copper liner must have traveled forward , I am going to ether add more etn or a spacer to get the liner flush with the outside of the rivnut.
Cheers nuxy
Edit tried with liner flush gave a smaller dia impact mark and penertrated 4mm at deepest point of impact might start slowly curving liner to see what happens.







[Edited on 28-7-2015 by nux vomica]

The topic heading ' Unconventional Shaped Charges ' judging by the very conventional ones thus seen here seems has been taken to mean ' improvised ' or not of commercial manufacture. I"M NOT CRITICIZING IT , experimental results posted add to the base of knowledge. I had this passing thought. A ( H.E.P.) High Explosive Plastic anti armor round consists of a plastic explosive composition that is spread on impact into a pie shape against the armor. Used against homogeneous armor ( composite interferes ) a shock wave travels through to the interior , spalling there a pie sized weight of armor. My thought is how might armor behave if the interface with the explosive is patterned or corrugated with ridges or pockets , etcetera. I'm not talking about the surface of the armor itself , rather discrete repeating depressions which are in the explosive's surface. Think of an ice cube tray filled with explosive and the bottom laid against the armor substrate. The intervals having standoff will by Munroe effect cut a pattern of regular deep channels into the armor. The idea then is that partially perforated in this way , the armor section is effectively made thinner and therefore possibly be completely blown inward , making a very large opening. Does anyone know of any investigation or related study of this notion.

In the picture of the ice cube tray the underside is cris crossed with channels which will act like linear shaped charges. These will cut that same pattern deeply into the armor. The unperforated armor beyond the depth of the cuts is thinner and more yielding to the force of the explosion.




These may have been posted before I don't know , found by googling - explosive wave shaping

Explosive Loading of Metals & Related Topics
www.dtic.mil/dtic/tr/fulltext/u2/b102693.pdf

Imaging detonation waves for wave shaper
www.dtic.mil/dtic/tr/fulltext/u2/a513564.pdf

Detonation wave conference
www.dtic.mil/dtic/tr/fulltext/u2/128529.pdf

Method to Increase Tip Velocity of a Shaped Charge Jet
www.mater.upm.es/isb2007/Proceedings/PDF/Volume_1/Vol.I(14)W...

Stopping Power of Explosive Reactive Armours
http://www.cryptocomb.org/Stopping%20Power%20of%20Explosive%...

Patent resource
http://patents.justia.com/patents-by-us-classification/102/4...


Interesting site for the clarity of explanation of nuclear porn
http://nuclear-knowledge.com/explosivelenses.php

Thermonuclear lenses
http://books.google.com/books?id=B7RV_vASz0EC&lpg=PA311&...

[Edited on 3-8-2015 by franklyn]

Quote: Originally posted by franklyn

The topic heading ' Unconventional Shaped Charges ' judging by the very conventional ones thus seen here seems has been taken to mean ' improvised ' or not of commercial manufacture. I"M NOT CRITICIZING IT , experimental results posted add to the base of knowledge.

Quote: Originally posted by franklyn

...

you are talking about HESH...
You have to know, these charges doesnt penetrate the armor like a shaped charge or an EFP...the enormous pressure on the surface is that high, that the armor rear side (inside of the "tank") gets "brittle" and is bounced off into the tank (with high speed and having alot of kinetic energy)...the armour plate still is not penetrated.
I highly doubt there would be an advantage if you would make the explosive with a higher surface (shapedcharge-like) to the target...well, the projectiles inside the "tank" would be more, but with less energy and if the armor is too thick, no projectile will be build inside the tank. to this comes that the shock have to directly hit the target...mini-shapedcharges would "destroy" the surface, but wouldnt (i guess) improve the power of the shockwave nessesary for the HESH projectile...

I really like HESH...saw a video once...very impressive...i was like "No way, dis wont penetrate"...was right, but....WELLLL....
HESH is 50th...maybe 60th and really fun to do, i guess, but against DU/ceramic-armor its completely useless today

Efp success

I have been trying to find the point where my charges turn into a efp , I changed the angles of the cones by 10 ° starting at 120° still a small jet hole ,130° transition small hole but copper spatter was looking like a efp probably should do this one again, 140° definate efp target is 6mm mild steel at 100 mm standoff charge is standard ebw 1.2 etn at 3500 volts.
I also found the carrot in the wood block below more steel than copper must have had only enough energy to just punch through the 6 mm cheers nuxy.








[Edited on 8-8-2015 by nux vomica]

Quote: Originally posted by Hennig Brand

Very interesting test. That 140 degree value agrees with what I have seen in the literature a few times as well.

Thanks I didnt have any fixed ideas of angles I started with the angle closest to the cone hight of the cylindrical liners .
I have uploaded the120° and 130° test plates for comparison nuxy.



[Edited on 9-8-2015 by nux vomica]

EFP IMPROVEMENT

I performed another test with an EFP trying to drop the amount of explosive used and use PE instead of the usual pressed powder.
The explosive was 79% PETN, 5% RDX, 15% polybutene, 1% motor oil.
The flyer plate was a 0.9mm copper disc 30mm in diameter.
Casing was a 35mm long PVC pipe.
Explosive weight was 16 grams, almost half the amount I was using with powder.
The target was a 10mm or 3/8 inch steel plate.
Result is a complete penetration leaving a very clean hole with little spalling around it.
Very happy with the plastic as a main charge, makes loading and det insertion much easier too


[Edited on 10-8-2015 by greenlight]

Quote: Originally posted by greenlight

I performed another test with an EFP trying to drop the amount of explosive used and use PE instead of the usual pressed powder. The explosive was 79% PETN, 5% RDX, 15% polybutene, 1% motor oil. The flyer plate was a 0.9mm copper disc 30mm in diameter. Casing was a 35mm long PVC pipe. Explosive weight was 16 grams, almost half the amount I was using with powder. The target was a 10mm or 3/8 inch steel plate. Result is a complete penetration leaving a very clean hole with little spalling around it. Very happy with the plastic as a main charge, makes loading and det insertion much easier too

Quote: Originally posted by greenlight

Yes, much better effect than before. I think I will see if it can penetrate 3/4 inch steel next.

How far away was mr smiley face from the ten mm plate greenlight 16 grams must have kicked him in the arse pretty hard.

Quote: Originally posted by greenlight

I had the plate against a tree but it penetrated just to the left of it it so I couldn't retrieve it. I'm going to try and catch one that hasn't been deformed soon. I just have to think of an effective way to stop it without damaging it.

catch slug

depth

contruct

OK, thanks. This contructions ?

Plastic etn efp

I tried the bug board pib to make some plastic etn I used enamel thinners to dissolve the pib then mixed the etn in, the pib ratio was 13%, this pib will work but its crumbly not a mouldable mix like play doh, so I bought some castor oil and will make some Methyl Ricinoleate and see if that makes a better mix.
I had a copy of Risi rp4 sff so I packed 5 grams of the plastic etn in it and used a 0.6mm thick copper disc 19mm in dia with 6mm offset standoff was 410mm and steel angle 10mm thick, setoff with my standard ebw head at the end of 7 meters of rg6 cable at 3500v.

The bang didn't have that sharp crack that I am used to but I got full penetration through the 10mm steel and the flyer penetrated through 150mm of dense clay behind it then shot off at a angle so I didn't find the flyer
p
Pretty happy with result from first try of plastic etn will be making another batch soon for more testing.

cheers nuxy








[Edited on 12-8-2015 by nux vomica]

Thats a nice result for 5 grams of PE and a 10 mm target.
My PE is the same when I mix the binder in it just stays crumbly, try adding some % motor oil as well and working that in. It holds together much better then.

Quote: Originally posted by greenlight

Thats a nice result for 5 grams of PE and a 10 mm target. My PE is the same when I mix the binder in it just stays crumbly, try adding some % motor oil as well and working that in. It holds together much better then.

liner

Quote: Originally posted by Laboratory of Liptakov

Hmm, good work, Nuxy. 5g and 10 steel troughout, its nice results. But I see no precise surface on the Copper liner. Pic 2. It is maybe reason, why is on the target so large dispersal. Bridgewire point is precise center? Thanks, Liptakov

Quote: Originally posted by greenlight

How many mm deep is your depth of curvature (the lowest point in the curve of the liner) nux?

I drew a quick sketch of your liner and my liner to scale with a mm ruler.
I think it would work better as an EFP and produce a more slug-like projectile if you took the depth of curve down to 3 or 4 mm on your liner.
Yours has much more of a curve height and I think this is causing it to form smaller diameter holes because its is almost acting like a CSC/Munroe effect as the sides of the liner collapse around itself.
If you treat the arrows as a shockwave, they are much closer together as they intersect with the liner on your flyer plate which would definately form a more elongated projectile if I am correct.




[Edited on 13-8-2015 by greenlight]

Quote: Originally posted by greenlight

I drew a quick sketch of your liner and my liner to scale with a mm ruler. I think it would work better as an EFP and produce a more slug-like projectile if you took the depth of curve down to 3 or 4 mm on your liner. Yours has much more of a curve height and I think this is causing it to form smaller diameter holes because its is almost acting like a CSC/Munroe effect as the sides of the liner collapse around itself. If you treat the arrows as a shockwave, they are much closer together as they intersect with the liner on your flyer plate which would definately form a more elongated projectile if I am correct. [Edited on 13-8-2015 by greenlight]

Soft recovery system

Projectile recovery system ready to test.
There is a 1 meter pipe filled with packing styrofoam, a 2 meter pipe following filled with sawdust/wood shavings and a 1 meter pipe behind this filled with 9 liters of water and a clear plastic window so the slug can pass through.
All pipes are 110mm ID.
Hopefully this should catch it without causing extensive damage.




[Edited on 13-8-2015 by greenlight]

[Edited on 13-8-2015 by greenlight]

Huuh.. Super digital aparatus catching system. But 110 mm diameter is not very. You need very precise aiming on target. I am afraid that slug flips out of tube offside. I look forward to the results. Liptakov

First recovery no-go

Okay, so the first recovery system went not so well.
Even though a hand level and laser pointer was used to ensure everything lined up correctly, the EFP slug seems to have just touched the side of the first pipe evident by the large piece that has been removed in the picture. This caused it to slide along for a bit before punching through further down and exiting the pipe in the other picture. Theres is a penetration hole in the sawdust pipe right in the middle but after inspecting the contents, it was a small piece of copper shrapnel probably breakup when it exited the tube.

I think for the next test I will use styrofoam boxes with the same setup and contents. Then I will not have to worry about the projectile straying because there will be plenty of room.

[Edited on 14-8-2015 by greenlight]

Really cool to see people are trying to catch the EFP projectile. The idea of holding something in your hand that has travelled around 4000 m/s is pretty awesome.

A thought I had was maybe go to a farmer and ask for a large bale of straw. (It would literally be searching for a needle in a haystack afterwards though...unless you have a metal detector ) Not sure it would be soft enough to catch the EFP reasonably undamaged though.

[Edited on 14-8-2015 by nitro-genes]

One pack of straw might be enough to get most of the kinetic energy absorbed for these charge sizes indeed. Maybe a bucket of water placed directly after the straw pack could provide some insurance that it hasn't penetrated the entire pack (else a lot of searching could be done, while the projectile is 1 km further down range )

It might even be possible to make a standarized setup in which the fired projectile travels throught the straw and ends up at the bottom of the bucket of water and can be simply fished out. Blocks of gassed concrete (the low density stuff)directly after the pack of straw might also do well indeed, good idea!

[Edited on 14-8-2015 by nitro-genes]

Had a bit of a failure myself too, running low of etn and going to make new batch on the weekend but wanting to try a bigger efp, I tried a annmal charge its 70% ammonium nitrate 23%nitro methane and 7% aluminium powder, used a cardboard tube with a 140 degree cone and 20 grms annmal setoff with a ebw detonator standoff 500mm and the other side of the 10mm angle as a target.

It didn't penetrate the ten mm angle got almost 9mm through in half of the 13mm dia hole and bulged the back of the plate I am drying the ammonium nitrate as I think its slightly damp being stored for several years and will have another go in the next couple of days nuxy.

[Edited on 14-8-2015 by nux vomica]

@ Nitrogenes...Yes I think the water is essential as a last ditch effort to ensure that you collect the EFP slug.
I think another problem is to make sure that it does not ricochet off anything as mine just skimmed the inside of the pipe which sent it straight out the side.
I think I will try: box of foam. box of foam. box of wood dust. box of wood dust. box of water.
Hopefully that should do it with minimal damage.

@Nux...What is the VOD of ANNM? 6000-6500m/s?
I have seen CSC's with ANNM explosive that worked but never EFP. I wonder if it is as suitable as (P)ETN which have higher VOD'S.
Sounds like it worked okay though for a non-plastic explosive. I had the same problems when I was using powder HE's as main charge. Used 30 grams once and still didn't get through the damn 7.5mm plate.
Maybe get rid of the aluminium powder, I read somewhere I think that it doesn't work as well in shaped charges. I may be wrong though so don't quote it.

What diameter was your EFP?