218.txt

黑客培训教程

explosive should detonate at 7600-7800 m/sec..  These two explosives are very
powerful and should be sensitive to a #6 blasting cap or equivelent.

    These explosives are dangerous and should not be made unless the
manufacturer has had experience with this type compound.  The foolish and
ignorant may as well forget these explosives as they won't live to get to use
them.
    Don't get me wrong, these explosives have been manufactured for years with
an amazing record of safety.  Millions of tons of nitroglycerine have been
made and used to manufacture dynamite and explosives of this nature with very
few mis haps.
   Nitroglycerin and nitroglycol will kill and their main victims are the
stupid and foolhardy.  Before manufacturing these explosives take a drop of
nitroglycerin and soak into a small piece of filter paper and place it on an
anvil.
  Hit this drop with a hammer and don't put any more on the anvil.  See what I
mean! This explosive compound is not to be taken lightly.  If there are any
doubts DON'T.

Improvised Explosives Plastique Explosive from Aspirin    by: The Lich

 This explosive is a phenol dirivative.  It is HIGHLY toxic and explosive
compounds made from picric acid are poisonous if inhaled, ingested, or handled
and absor- bed through the skin.  The toxicity of this explosive restrict's
its use due to the fact that over exposure in most cases causes liver and
kidney failure and sometimes death if immediate treatment is not obtained.

 This explosive is a cousin to T.N.T.  but is more powerful than it's cousin.
It is the first explosive used militarily and was adopted in 1888 as an
artillery shell filler.  Originally this explosive was derived from coal tar
but thanks to modern chemistry you can make this explosive easily in
approximately three hours from acetylsalicylic acid (aspirin purified).

 This procedure involves dissolving the acetylsalicylic acid in warm sulfuric
acid and adding sodium or potassium nitrate which nitrates the purified
aspirin and the whole mixture drowned in water and filtered to obtain the
final product.  This explosive is called trinitrophenol.  Care should be
taken to ensure that this explosive is stored in glass containers.  Picric
acid will form dangerous salts when allowed to contact all metals exept tin
and aluminum.  These salts are primary explosive and are super sensitive.
They also will cause the detonation of the picric acid.

 To make picric acid obtain some aspirin.  The cheaper brands work best but
buffered brands should be avoided.  Powder these tablets to a fine
consistancy. To extract the acetylsalicylic acid from this powder place this
powder in methyl alcohol and stir vigorously.  Not all of the powder will
dissolve.  Filter this powder out of the alcohol.  Again wash this powder that
was filtered out of the alcohol with more alcohol but with a lesser amount
than the first extraction.  Again filter the remaining powder out of the
alcohol.  Combine the now clear alcohol and allow it to evaporate in a pyrex
dish.  When the alcohol has evaporated there will be a surprising amount of
crystals in the bottom of the pyrex dish.

 Take forty grams of these purified acetylsalicylic acid crystals and
dissolve them in 150 ml.  of sulfuric acid (98%, specify gravity 1.8) and heat
to diss- olve all the crystals.  This heating can be done in a common electric
frying pan with the thermostat set on 150 deg.  F.  and filled with a good
cooking oil.

When all the crystals have dissolved in the sulfuric acid take the beaker,
that you've done all this dissolving in (600 ml.), out of the oil bath.  This
next step will need to be done with a very good ventilation system (it is a
good idea to do any chemistry work such as the whole procedure and any
procedure on this disk with good ventilation or outside).  Slowly start adding
58 g.  of sodium nitrate or 77 g.  of potassium nitrate to the acid mixture in
the beaker very slowly in small portions with vigorous stirring.  A red gas
(nitrogen trioxide) will be formed and this should be avoided.

  The mixture is likely to foam up and the addition should be stopped until
the foaming goes down to prevent the overflow of the acid mixture in the
beaker.  When the sodium or potassium nitrate has been added the mixture is
allowed to cool somewhat (30- 40 deg.  C.). The solution should then be dumped
slowly into twice it's volume of crushed ice and water.  The brilliant yellow
crystals will form in the water. These should be filtered out and placed in
200 ml.  of boiling distilled water. This water is allowed to cool and then
the crystals are then filtered out of the water.  These crystals are a very,
very pure trinitrophenol.  These crystals are then placed in a pyrex dish and
places in an oil bath and heated to 80 deg. C.  and held there for 2 hours.
This temperature is best maintained and checked with a thermometer.

  The crystals are then powdered in small quantities to a face powder
consistency.  These powdered crystals are then mixed with 10% by weight wax
and 5% vaseline which are heated to melting temperature and poured into the
crystals.  The mixing is best done by kneading together with gloved hands.
This explosive should have a useful plsticity range of 0-40 deg.  C..  The
detonation velocity should be around 7000 m/sec..  It is toxic to handle but
simply made from common ingredients and is suitable for most demolition work
requiring a moderately high detonation velocity.  It is very suitable for
shaped charges and some steel cutting charges.  It is not as good an explosive
as C-4 or other R.D.X.  based explosives but it is much easier to make.  Again
this explosive is very toxic and should be treated with great care.

  AVOID HANDLING BARE-HANDED, BREATHING DUST AND FUMES, AVOID ANY CHANCE OF
INGESTION. AFTER UTENSILS ARE USED FOR THE MANUFACTURE OF THIS EXPLOSIVE
RETIRE THEM FROM THE KITCHEN AS THE CHANCE OF POISONING IS NOT WORTH THE RISK.
THIS EXPLOSIVE, IF MANUFACTURED AS ABOVE, AHOULD BE SAFE IN STORAGE BUT WITH
ANY HOMEMADE EXPLOSIVE STORAGE OS NOT RECOMENDED AND EXPLOSIVES SHOULD BE MADE
UP AS NEEDED.


Improvised Explosives Plastique Explosive from Bleach     by: The Lich

 This explosive is a potassium chlorate explosive.  This explosive and
explosives of similar composition were used in World War II as the main
explosive filler in gernades, land mines, and mortar used by French, German,
and other forces involoved in that conflict.  These explosives are relatively
safe to manufacture.

  One should strive to make sure these explosives are free of sulfur,
sulfides, and picric acid.  The presence of these compounds result in mixtures
that are or can become highly sensitive and possibly decompose ex- plosively
while in storage.  The manufacture of this explosive from bleach is given as
just an expediant method.  This method of manufacturing potassium chlorate is
not economical due to the amount of energy used to boil the solution and cause
the 'dissociation' reaction to take place.  This procedure does work and
yields a relatively pure and a sulfur/sulfide free product.  These explosives
are very cap sensitive and require only a #3 cap for instigating detonation.

  To manufacture potassium chlorate from bleach (5.25% sodium hypochlorite
solution) obtain a heat source (hot plate etc.) a battery hydrometer, a large
pyrex or enameled steel container (to weigh chemicals), and some potassium
chloride (sold as salt substitute).  Take one gallon of bleach, place it in
the container and begin heating it.  While this solution heats, weigh out 63
g.  potassium chloride and add this to the bleach being heated. Bring this
solution to a boil and boiled until when checked by a hydrometer the reading
is 1.3 (if a battery hydrometer is used it should read full charge).

 When the reading is 1.3 take the solution and let it cool in the refrigerator
until it's between room temperature and 0 deg.  C..  Filter out the crystals
that have formed and save them.  Boil the solution again until it reads 1.3 on
the hydrometer and again cool the solution.  Filter out the crystals that have
formed and save them.  Boil this solution again and cool as before.

  Filter and save the crystals.  Take these crystals that have been saved and
mix them with distilled water in the following proportions: 56 g.  per 100 ml.
distilled water.  Heat this solution until it boils and allow it to cool.
Filter the solution and save the crystals that form upon cooling.  The process
if purifi- cation is called fractional crystalization.  These crystals should
be relatively pure potassium chlorate.

 Powder these to the consistency of face powder (400 mesh) and heat gently to
drive off all moisture.  Melt five parts vasoline and five parts wax.
Dissolve this in white gasoline (camp stove gasoline) and pour this liquid on
90 parts potassium chlorate (the crystals from the above operation) in a
plastic bowl. Knead this liquid into the potassium chlorate until immediately
mixed.  Allow all the gasoline to evaporate.  Place this explosive in a cool,
dry place.  Avoid friction, sulfur, sulfide, and phosphorous compounds.

     This explosive is best molded to the desired shape and density
(1.3g./cc.) and dipped in wax to water proof.  These block type charges
guarantee the highest detonation velocity.  This explosive is really not
suited to use in shaped charge applications due to its relatively low
detonation velocity.  It is comparable to 40% ammonia dynamite and can be
considered the same for the sake of charge computation.

    If the potassium chlorate is bought and not made it is put into the
manufacture pro- cess in the powdering stages preceding the addition of the
wax/vaseline mix- ture.  This explosive is bristant and powerful.  The
addition of 2-3% aluminum powder increases its blast effect.  Detonation
velocity is 3300 m/sec..


Plastique Explosives From Swimming Pool Chlorinating Compound    By the Lich

 This explosive is a chlorate explosive from bleach.  This method of
production of potassium or sodium chlorate is easier and yields a more pure
product than does the plastique explosive from bleach process.

  In this reaction the H.T.H. (calcium hypochlorite CaC10) is mixed with water
and heated with either sodium chloride (table salt, rock salt) or potassium
chloride (salt substitute).  The latter of these salts is the salt of choice
due to the easy crystalization of the potassium chlorate.

  This mixture will need to be boiled to ensure complete reaction of the
ingredients.  Obtain some H.T.H.  swimming pool chlorination compound or
equivilant (usually 65% calcium hypochlorite).  As with the bleach process
mentioned earlier the reaction described below is also a dissociation
reaction.  In a large pyrex glass or enamled steel container place 1200g.
H.T.H. and 220g.  potassium chloride or 159g.  sodium chloride.  Add enough
boiling water to dissolve the powder and boil this solution.  A chalky
substance (calcium chloride) will be formed.  When the formation of this
chalky substance is no longer formed the solution is filtered while boiling
hot.  If potassium chloride was used potassium chlorate will be formed.

    This potassium chlorate will drop out or crystalize as the clear liquid
left after filtering cools.  These crystals are filtered out when the solution
reaches room temperature.  If the sodium chloride salt was used this clear
filtrate (clear liquid after filter- ation) will need to have all water
evaporated.  This will leave crystals which should be saved.

    These crystals should be heated in a slightly warm oven in a pyrex dish to
drive off all traces of water (40-75 deg.  C.).  These crystals are ground to
a very fine powder (400 mesh).

    If the sodium chloride salt is used in the initial step the crystalization
is much more time consuming.  The potassium chloride is the salt to use as the
resulting product will crystalize out of the solution as it cools.  The
powdered and completely dry chlorate crystals are kneaded together with
vaseline in a plastic bowl.  ALL CHLORATE BASED EXPLOSIVES ARE SENSITIVE TO
FRICTION AND SHOCK AND THESE SHOULD BE AVOIDED.  If sodium chloride is used in
this explosive it will have a tendancy to cake and has a slightly lower
detonation velocity.

  This explosive is composed of the following:

 potassium/sodium chlorate 90%        vaseline  10%

   Simply pour the powder into a plastic baggy and knead in the vaseline
carefully. this explosive (especially if the Sodium Chlorate variation is
used) should not be exposed to water or moisture.

 The detonation velocity can be raised to a slight extent by the addition of
2-3% aluminum substituted for 2-3% of the vaseline.  This addition of this
aluminum will give the explosive a bright flash if set off at night which will
ruin night vision for a short while.  The detonation velocity of this
explosive is approximately 3200 m/sec.  for the potassium salt and 2900 m/sec.
for the sodium salt based explosive.

Addendum 4/12/91:

   It was claimed above that this explosive degrades over time. I would assume
that this occurs due to the small amount of water present in the vaseline, and
that a different type of fuel would be better than the vaseline.


ASSORTED NASTIES:

                                  Sweet-Oil
 In this one you open there hood and pour some honey in their oil spout.  if
you have time you might remover the oil plug first and drain some of the oil
out.  I have tried this one but wasn't around to see the effects but I am sure
that I did some damage.

                                   Slow Air
 Ok, sneak up the victims car and poke a small hole somewhere in 2 of his/her
tires.  They only have 1 spare.  Now if the hole is small but there then there
tire will go flat some where on the road.  You could slice the tire so this is
blows out on the road wih a razor blade.  Cut a long and fairly deep (don't
cut a hole all the way through) and peel a little bit of the rubber back and
cut that off.  Now very soon there tires will go flat or a possible blow out
at a high speed if your lucky.

                               Vanishing Paint
 Spread a little gas or paint thiner on the victims car and this will make his
paint run and fade.  Vodka will eat the paint off and so will a little 190.
Eggs work great on paint if they sit there long enough.

                                 Loose Wheel
 Loosen the lugs on you victums tires so that they will soon fall off.  This
can really fuck some one up if they are cruising when the tire falls off.