Unconventional Shaped Charges

IIRC, shaped charge performance correlates very strongly and linearly with VoD indeed, there should be a graph in PATR somewhere. The non-linerarity in the LBT model is likely an effect of several phenomena earlier mentioned. One thing is that relatively small charge weights are used, if the non-linearity is caused by critical diameter, above a certain threshold (like fulmen suggests) there should be no further increase. From the observed delta observed/expected (linearity from larger test) you might be able to calculate the "missing energy" and calculate back to how much TNT this would correspond and determine critical diameter.

The data seems to support a contribution of this effect, since the non-linearity is not observed for MEDINA. Likely, more effects play a role here though, the cavity volume, explosive volume/weight and density used are probably inseparable factors determining the efficiency by which the expansion is realized.

[Edited on 6-1-2016 by nitro-genes]

Quote: Originally posted by Fulmen

Not for a shaped charge.

New 30 mm EFP attempt with a 16mm steel plate as the target.
Copper liner was used 0.91mm in thickness.
Charge was 18.5 grams of a new batch of PETN plastic explosive.
Standoff was 60cm.
What's unusual is the damage to the plate with not a full circle of copper splashed around the hole like normal. The plate looks like it has been literally punched through with great force. This time the PE was so dense that the head height was only a little over half the diameter of the charge so this could be the cause as it would make a wider less pointy projectile. Hole diameter is 17 x 18mm in diameter.

[Edited on 8-1-2016 by greenlight]



[Edited on 8-1-2016 by greenlight]

O

I was wondering as you cant oxy cut cast iron this is a m/s oxy cut.

Quote: Originally posted by ecos

I am also interested about this effect of adding metal oxides to accelerate the detonation wave inside EM. Do you know any analytical way to calculate it ? I don't think the patent is mistaken.

Quote: Originally posted by Fulmen

Philou: While that is true it's not relevant to shaped charges. Beyond a certain level more explosives has little impact on the performance, so trying to calculate the charge from it's performance alone is impossible.

OK Fulmen, it seems strange to me that it doesn't apply to shaped charges, but I'm open minded so do you have a reference, graph or document for me?

Quote: Originally posted by Fulmen

Quote: Originally posted by PHILOU Zrealone   I expressed that the dependance is not linear but quadratic. And you'd be wrong. It's closer to an exponential curve, above a certain value you gain nothing from increasing the charge.

Quote: Originally posted by Microtek

Actually, if it follows either a quadratic or an exponential expression, the larger the charge the MORE is gained by increasing the charge weight (the curve gets steeper). This may well be counter-intuitive (and rather nonsensical, physically speaking), but there it is.

Quote: Originally posted by Microtek

Quote: Originally posted by Fulmen   Not for a shaped charge. You misunderstand. My point is that if you say that the curve follows an (increasing) exponential curve then it follows that at higher values of x, the relative increase in y increases. It doesn't matter what you are trying to model. The same holds true for a quadratic curve (depending on sign).

@ Nux, finally got a closeup of the last target plate.
Do you think it is cast iron or oxycut steel?

[Edited on 19-1-2016 by greenlight]

@Nitro-genes, I think you have the jet behaviour spot on. I was just looking through Intro to technology of Explosives by Paul Cooper and found this:
"The erosion of a target by a penetrating jet is very similar to what one sees when a stream of water from a hose is directed into a bank of dirt. Material dislodged at the deepest part of the hole turns to mud and flows back along the walls of the hole.
Metal targets under shaped-charge jet attack behave like fluids because the impact velocities of the jet are at several megabar's pressure, well into the plastic region for almost all materials. This erosion process continues until the entire jet has been used up or the target has been perforated."

I think that this effect would happen to a certain degree with an explosively formed slug contacting and penetrating a steel plate. I have two picture of an EFP right as it has contacted the steel target. The first shows the initial position of the charge and the first contact with the plate and the second is right after this moment. The material being thrown back from the impact point must be from the slug and target plate and is a somewhat similar effect to what is described above.








[Edited on 24-1-2016 by greenlight]



[Edited on 24-1-2016 by greenlight]



[Edited on 24-1-2016 by greenlight]

Hi everyone,

I made last week 10gr of plastic (PETN/RDX) with this ratio: 85% HE/10% PIB (from self amalgamating)/5% motor oil (5w40). My plastic is modelable but it's not like Play doh. It's little bit hard. Someone would have an advise to ameliorate the quality, please ? Thank you very much.



[Edited on 24-1-2016 by magicchemist]

[Edited on 24-1-2016 by magicchemist]

@greenlight, nice still shot there, btw... you wouldn't happen to have an e-version of the book by any chance?

Unfortunately, I only have the book as an actual hardcover for the bookshelf

Quote: Originally posted by nitro-genes

Henning, you remember what page that was about the volume displacements in FoSC by any chance? Considering the differences in mass/velocity relation between an EFP and CSC would seem counter intuitive to have the same volume displacement indeed. Also target effects are likely different, the jet of a CSC moves so fast, the collision behaves nearly completely fluid, similar to a stream of water hitting a mudbank as I understand it. Forces are exerted to all sides from the colliding jet tip, like a fluid would, pushing the target material out of the way and even creates a "backward" stream of liner/target material that is expelled from the formed canal. So not all energy is transferred to the target and seems different from an EFP impact indeed. Wondered if you would weigh the target before and after firing, how much of the target material would be gone, though, the liner will also deposit material of course, making this hard to determine. [Edited on 23-1-2016 by nitro-genes]

cast iron

Quote: Originally posted by Laboratory of Liptakov

Greenlight, congratulations. But: Cast iron is much less firm. Especially on impact is low. If the tanks were made of cast iron, a big steel mallet would be enough to break apart. It are not same conditions for attempts. At drilling cast iron, arises grain. At drilling steel, arises long metal chips. Cast iron has high content carbon. About 4%. Steel only about 1%. From cast iron grain, you will be dirty the fingers from carbon. As from pencil. You can try and see. Therefore is hole crushed as ice. So as so, nice a piece of work. And beauty photos. Dr. Liptakov

Your right there liptakov here is a photo of the differance
Between steel and cast iron when its drilled



Cheers nux.

cast iron

Thanks guys, celebrated too early

New target next time i think, I have a 19mm plate that has been hit 3 times with a 30mm EFP and I haven't been able to get a penetration yet (nothing worth posting).
I think a 40mm EFP might be in order...

Thanks for looking up that chart of volume displacements for different charge types Henning. Curious how they measured 300 individual hole volumes for the fragmenting charge. Considering the difference in surface area between the flat cone SC and the fragmenting charge, it would seem the fragmenting charge would transfer considerably more energy to the witness plate, would seem that above a certain headheight the energy transfer to the liner in the flat bottom CSC is not transfered miraculously all to the liner, so my guess would also be that this has to be taken with a grain of salt indeed.

[Edited on 2-2-2016 by nitro-genes]

liner

40mm diameter of liner? Huuh... heavy caliber. How will be thick copper concave? Thanks, Im curious. LL ...

ratio EFP

Thanks green, 1 mm copper? Hmm... It is maybe thin plate. Of course, working will be it always. But transfer energy on target can be weakly. Maybe using soldering 1+1 mm Cu. I somewhere spend data for counting EFP assemble. Therefore I only estimated. So as so, I am curious. Height of cylinder explosive is same as diameter, it is usually basic. Thus 0,8 - 1,2 from diameter. But counting of ratio for thick of liner and his depth no and no find. LL...

Quote: Originally posted by nitro-genes

Thanks for looking up that chart of volume displacements for different charge types Henning. Curious how they measured 300 individual hole volumes for the fragmenting charge. Considering the difference in surface area between the flat cone SC and the fragmenting charge, it would seem the fragmenting charge would transfer considerably more energy to the witness plate, would seem that above a certain headheight the energy transfer to the liner in the flat bottom CSC is not transfered miraculously all to the liner, so my guess would also be that this has to be taken with a grain of salt indeed. [Edited on 2-2-2016 by nitro-genes]

Quote: Originally posted by nitro-genes

Henning, you remember what page that was about the volume displacements in FoSC by any chance? Considering the differences in mass/velocity relation between an EFP and CSC would seem counter intuitive to have the same volume displacement indeed. Also target effects are likely different, the jet of a CSC moves so fast, the collision behaves nearly completely fluid, similar to a stream of water hitting a mudbank as I understand it. Forces are exerted to all sides from the colliding jet tip, like a fluid would, pushing the target material out of the way and even creates a "backward" stream of liner/target material that is expelled from the formed canal. So not all energy is transferred to the target and seems different from an EFP impact indeed. Wondered if you would weigh the target before and after firing, how much of the target material would be gone, though, the liner will also deposit material of course, making this hard to determine. [Edited on 23-1-2016 by nitro-genes]

recounting EFP

Well, understand. 1/2 from dia is low height of cylinder. Here is original assemble the scheme from factory. Original scheme is black, my write is red. Thus: we have 19,05 mm diameter, for Copper thickness 0,505 mm. But We need counting thick liner from flat. No from line. Thus, Pí r2. = 19,05 is flat 2,85 cm2. But Dia 4 cm is flat 12,56 cm2. Next: 0,505 mm is good for 2,85 cm2. And for 12,56 cm2 is good thick 2,22 mm copper plate. ( 0,505: 2,85 = 0,177 x 12,56 = 2,223) Thus index is thick 0,177 mm on one and every cm2 of flat large. 4cm diameter = flat (radius x radius x3,14) = 12,56 x index 0,177 = 2,23 thick of copper. And next important is of course height of cylinder. In scheme 86% from diameter. However is there still PETN, which creates 15 % from all amount of charge. But also height of cylinder, partially. After recounting it is almost precise height = diameter. From this reasons, I recommended thick of liner minimal 2 mm, for dia. 4cm. Because professional engineers (from factory on EFP) know what they do it.


Dr. Liptakov

Hybrid efp shaped charge

I had 8 grams of plastic etn that was getting old so i tried a 19mm dia hybrid efp i used 80mm standoff and my standard ebw setup .
I got a nice shaped entry hole and 28mm penetration with a 3mm dia hole, not great but there is .chance of more penetration wit more tests .



[Edited on 22-3-2016 by nux vomica]

Quote: Originally posted by greenlight

Nice to see another test from you, over an inch of penetration is very good. The entry hole looks like an EFP hit but the penetration is like the effect from an actual jet. Is it possible that your device functioned as both at once with a combined effect of a large entry with deep penetration. Very interesting.

Thanks greenlight , it looks like it is forming a jet but the edges of the disc collapse in and form a small efp at the same time.
I cut the plate stack to show penetration each plate is 10mm thick.
Nux

Quote: Originally posted by NeonPulse

Very nice! I was wondering when this thread would revive. How was it a hybrid?

Thanks neon , its has been a bit quiet lately , i called it a hybrid as it should be forming a efp projectile only, but it forms a jetting affect like a cone shaped liner instead .
So it seems to be in a transition point between a efp and a liner that forms a jetting affect.

This is my other use for hybrid cones.



[Edited on 23-3-2016 by nux vomica]

So it's been a while since this thread has had a post so here goes: Recently I did a test of a cyclotol/pentolite composition in a shaped charge. An electroformed liner I had made some time ago was jb welded into a piece of stainless steel tubing with a wall thickness of 1.5 mm. A snug fitting plastic cap used on steel tube furniture was the cap and it was filled with steel epoxy putty and drilled dead centre for the cap. The cone thickness was 1.5mm thick.Also the angle was steeper than I usually go as an experiment. I didn't actually measure it though but I didn't think of that until after it was in place.oops. I also had annealed the copper first which I also don't usually do either. A bit of 40 mm PVC was standoff and a couple of wraps of tape around the charge and it fit snugly inside.
I chose a X1.75 CD as the standoff distance this time.

For the filler I decided to use a 75g casting consisting of 40g TNT, 20g RDX and 15g PETN. The fine powder TNT was mixed with the other two components and this was melted together in a small beaker in a hot water bath with the casing submerged also. The molten mixture was then poured into the hot casing which was then tapped gently on the floor to release any trapped air bubbles and a small glass test tube was put in the centre held there with a couple of skewer to make a cap well and then it was allowed to cool slowly in the hot water bath over the next hour and a half.
The heating was gradually bought up over a period of around 20 mins and This was done at no hotter than 84c. There appeared to be little shrinking and no visible cracking was seen in the cast. An aluminium cap was constructed filled with 1g RDX,300 mg Azo-Clathrate and a further 150 mg lead styphnate as the igniter to be set off electronically.

Continued: some loose packed PETN was used to fill the cap well and to Fill the spaces in the top of the cast and to fill the gap between the cap and cast. At the site a hole was dug and the charge was duct taped to the sledge hammer head and place into the hole and earth was packed around it,the cap was placed in the cap well and the whole thing buried. Firing line was connected and from a safe distance behind a large tree I heard the dull thud and dirt showering the ground. Great. The anticipation of digging through the crater for the target was great.

This charge had Successfully penetrated the target to a brilliant 110mm of solid steel plus the air gap. 65mm through the first section and the jet and carrot continued through to the second section for another 45mm exiting out the side on an angle.
I think if the jet was straight it wi old have gone clean through both ends no problem. I was thrilled! All the effort of ensuring everything was done as carefully as possible payed off.
On looking at the hole there was very little splatter and no raised edges at the entry, it was pretty clean. The carrot was plugged in tight and I had to poke it out through the exit it was like a little copper spear.

All in all it was a great attempt and I would say a complete success with just over 3CD penetration. The Cyclotol/pentolite combo worked very well along with the dirt tamping. This is by far the most penetration I've gotten out of all the tests I've ever done, I thought it would be hard to beat the last effort.

Quote: Originally posted by Microtek

Perhaps you could try it with a higher RDX/PETN content. Cyclotol is usually around 75 % RDX. Of course, not all the RDX will dissolve in the TNT.

electroplanting

Electroplating of copper cone? Very interesting question. Maybe same interesting, as result, thus the long hole. Some electro device we will see? WE are curious......LL

Quote: Originally posted by Laboratory of Liptakov

Electroplating of copper cone? Very interesting question. Maybe same interesting, as result, thus the long hole. Some electro device we will see? WE are curious......LL

Thanks Neon, will be study.......LL

Hi, Im new here.Today I lathe small shaped charge.Tomorrow will be tested.

Cone diameter is 24 mm, height 30mm thickness 1mm, cone angle is 42° .

Cone material is brass.

I use genuine military grade plasticized PETN, 40 gram.

Detonator is military grade, I aded electric match.

Casing tube is from LED flashlight, material aluminium, thickness 1mm.

Standoff is 85mm.

Target is 145mm mild steel plates.

Hmmm, brass, will be interesting to see the results.
I would say the same as NP that brass liners wouldn't afford much penetration compared to copper.
I had a quick look for documents with tests and found this pdf were the penetration of different shaped charge liners was tested in granite. On page 56 in the conclusions section, it says that "copper and brass liners gave equal penetration for 42 degree apex angles".
I am sure copper is still superior to brass so maybe this was just an effect seen when penetrating rock and copper take the lead in metal targets.


BTW: I finally put together a 40mm EFP, took it out and fired it but the detonator was inferior and didn't give enough shock for the PE to go high order.
It sounded like a loud firecracker instead of a HE and scattered bits of PVC pipe from the casing around proving it was indeed low order. I still don't know what caused it , I did use some very old PETN for the base charge in the det so that may be it.



[Edited on 24-9-2016 by greenlight]

[Edited on 24-9-2016 by greenlight]

Here are results penetration is 15,5mm.I think cone is not good centered or explosive is not equally pressed.
But explosion make big holes in concrete blocks.

I found this chinese company that manufactures tungsten copper alloy liners.I asked they to manufacure one for me with same dimension as previous brass cone but they cant manufacture so thin (1mm) liner.I cant test bigger liners.If someone will try these tungsten copper allyo liner can ask they to make bigger liner.

This is company: http://www.tungsten-alloy.com/shaped-charge-liners.htm






[Edited on 24-9-2016 by Zyxel]

Quote: Originally posted by Zyxel

Hi, Im new here.Today I lathe small shaped charge.Tomorrow will be tested. Cone diameter is 24 mm, height 30mm thickness 1mm, cone angle is 42° . Cone material is brass. I use genuine military grade plasticized PETN, 40 gram. Detonator is military grade, I aded electric match. Casing tube is from LED flashlight, material aluminium, thickness 1mm. Standoff is 85mm. Target is 145mm mild steel plates.

Just looking at the photos again and i notice the detonator is in the charge a long way i wonder if you should of only let it enter the charge 2 or 3 mm so as to give you more head hight and give the detonation wave more time form correctly .
Nux









[Edited on 26-9-2016 by nux vomica]

Hi, new test cone.

Cone diameter is 34 mm, height 26mm thickness 1,5mm, cone angle is 60° .
Cone material copper.
Explosive 34 grams.

Does is better to put detonator depper or shallower in explosive.

Detonator protrudes only 4mm in explosive.What is best standoff.I use 3,5 CD.

Would beryllium copper made better results?

Quote: Originally posted by Zyxel

Detonator protrudes only 4mm in explosive.What is best standoff.I use 3,5 CD. Would beryllium copper made better results?

Quote: Originally posted by Zyxel

Problem is that cone is not precision manufactured because man that made it for me dont have skill to made precise cone. Which is best distance for non precise cone.

Nice looking cone but I would shorten the ring of unused material at the base of the cone to get more explosive in the tube if you fit it flush like your picture. The excess copper will hinder the collapse of the cone lowering its performance.

You only need the detonator just into the plastique enough to ensure it will fire otherwise it looks like you will get a pretty good result. It will be good to see the results.
You are lucky to have the right machinery or knowing someone who does

I use ring of unused material at the base of the cone for easier centering the cone against wall of tube.Without it is more difficult to center cone.

Here are my baies form which I use explosive and detonator.

Quote: Originally posted by Zyxel

Bro I live in shit hole state called Bosnia and Herzegovina

Here are results. 39mm of penetration.Two scews that hold that together borke and bent, some holes also bent.Aluminium ring that hold detonator is 10mm thick but I find only 4 fragments from him.
Interesting is that on first plate is seen impact of cone copper ring that I use for easier centering of cone.His impact only leave light mark.But it is not round it is deformed.The same problem as the previous cone, not consistent explosive desinty or not good centered/machined cone.But Im happy.

Did another test yesterday again with pleasing results.
I had a tiny cone I had around and decided to set it into a copper pipe reducer fitting of 25 mm
The cone was epoxied in place about a week ago so it was well set.
The filling was a cast 2-5 PETN/ETN mixture developed Mr anonymous... this was achieved by melting 4g ETN in a small plastic medicine cup and gradually introducing 10g PETN into it with stirring.
The charge casing was also warmed in the water bath and the liquid explosive was poured in.
The weight of cast filling was 12.7g. Standoff was 50mm 2x CD.
the target was a cylinder of 420 stainless steel and the charge penetrated nicely going into it 61mm deep with a 13mm entry hole.
Given the small amount of explosive and the small diameter of the cone I would call this a pretty good success.



[Edited on 9-10-2016 by NeonPulse]

It looks like the jet was skewed off and entering at an angle giving the odd shaped entry. The excess ring at the base of the cone probably caused this. Off central initiation will cause it too.


And the record belongs to NUKE but his cone was so perfect it was suspected to have come from an anti tank round or similar. He used a whopping 1.5kg of PETN and NG in combination so it is no wonder he holds the record. I have 110mm which is second or third place and I will be trying to beat that since I still have these guys to use. I just need to go to the scrap yard and find a decent target and synth a bunch more PETN and EGDN to fill it with.

Casting copper for cones.

Thought i would share a idea i had recently after seeing zyxel machined copper cones and not wanting to buy round stock to fabricate cones from because of the cost of the material.

I decided that casting a rough form and machining that back would work ok as long as the copper was not full of porosity holes.

The copper is from old coins and i used the sand casting method and melted the copper in a graphite crucible in a pocket i cut in a soft fire brick and a oxy torch to heat it up.




The copper casting machined ok and i have made 3 cones so far , i need to redesign the mold to cut down on the amount of copper per pour as well as i need 56 grams to make a 6 gram 20mm diameter cone.





Now to test one out.





[Edited on 14-10-2016 by nux vomica]

Quote: Originally posted by greenlight

Nux, that looks fkin sweet, I've never thought of actually melt-casting liners at home haha. The final product came out beautiful especially for a first design. Whats the wall thickness on those cones?

Thnx Greenlight

I am also trying a new etn mix i noticed that the wax off miny babybell cheese whent quite soft from kneeding it in your hands so i made a 8% wax 92% etn mix by melting the wax in a hot water bath and mixing in the etn it mankes a crumbly mix that compacts well.




I mistakenly deleted some of the assembly photos but this is the cone i am useing for the first test the inside has some marking on it from it spinning on the arbor during machining ,the casting i used for this cone looked rough but it cut ok and has a good finish.
The i/d of the cone is 19mm and its 1mm thick.





I am trying a detonator that the petn is made from homemade pentaerythrol, ive had some tests and it seems to be as good as petn made from ebay pentaaerythritol so this is the big test which is 110mm of steel.

Haha even though the first steel block blew off when the welds holding it broke and dissipated the jet before the jet was finished doing its work, i got 78mm penertration into the target (4.10 × cone diameter ) the entry hole is almost perfectly round so the cone collapsed equally and the bottom 30mm of the hole was plugged with copper.

The detonator had 1.2 grams of petn set off by lead azide, The main charge was 17.4 grams of etn wax , cone angle of 60° and dia of 19mm , wall thickness of 1mm and standoff of 50mm ( 2.63 cone dia ). Cheers nux




[Edited on 14-10-2016 by nux vomica]