Garage plates water damage; need refresher course on plate raising with threaded rod & concrete.
Question by WendellB8 | last reply
I am looking at the feasibility of 3D printing concrete forms to make a staircase that goes up a 4' retaining wall. The forms would be cylindrical, split in half, and during the pour would be supported using a wood support system. Ideally I would have one main highly curved support "column" (think more of a snake or spaghetti noodle) with then stairs that slide in via a mortise and tenon type connection. The stairs would be poured individually in a separate production process than the main support. I plan on using a combination of a wire mesh, rebar and tension cables for the concrete reinforcement. The tension cables would run the length of the main support beam and would be hydraulically tensioned just before the formwork was removed. I have ample concrete experience as a civil engineer and a construction manager but this idea seems like I need some outside input.Does anyone have any experience 3d printing concrete forms. What is the best material that will hold up to the moisture and high alkalinity of concrete?At this point I have no real conceptual drawings but I'm looking to see if any similar projects have been attempted and hopefully learn and improve on them!
Topic by cjh83
I want to do a panel with "hills" and "valleys," making indentations the size of soup bowls, maybe a bit bigger. Can I "push" or "pull" metal lath that much? I know I cant do this with hardware cloth, and chicken wire is not robust enough.
Question by hardlec | last reply
I constructed 4" triangular molds out of cardboard (I am making coasters).I poured quikrete mortar mix into a cup, mixed with some water and poured into the molds until the depth was roughly .5".About 1 hour into drying I realized that huge cracks were forming!How do I eliminate or reduce cracking?
Question by TaylorC86 | last reply
#BUILDNIGHT **You must be located in the United States to enter this event** 30 SPACES AVAILABLE Deadline to sign up: Friday, June 19th. Accepted spaces will be notified by Monday, June 22nd. Read our FAQ to learn more about the Build Night program rules and how to make the most out of this event for your space. AUGUST BUILD NIGHT We are partnering with Cheng Concrete for our August 2015 build night. Sign up to participate in the build night and we will ship you a package that includes the following: (10) 20lb Buckets of Shapecrete HOW TO PARTICIPATE: Host a Build Night: pick a time in August to host a project build night using the Cheng Concrete Shapecrete. You can host multiple build nights during August to work on your projects. Post 2 Instructables: post 2 Instructables using the Shapecrete. Not posting these Instructables will affect your chances to participate in future build nights. Brownie Points (not required): after the build night post a forum topic on Instructables about your event. Include pictures, stories, etc... Here are two examples from past build nights: Noisebridge and Makers Local 256. We may even feature your photos on the homepage. REWARDS: If your submitted Instructable for this event gets featured by one of our editors we will send you an Instructables Prize Pack which includes: Instructables t-shirt, stickers, and patches. This forum post has guidelines for posting feature worthy projects. Be sure to let people at your event know so they can win a prize pack! Limit 3 per makerspace. RESOURCES: Cheng How-To Center Shapecrete Instructables App (for documentation during the build night): iOS and Android REACH OUT TO US ON SOCIAL MEDIA #BUILDNIGHT #INSTRUCTABLES #Shapecrete Twitter: @Instructables, @CHENGConcrete Instagram: @Instructables www.facebook.com/chengconcrete https://www.facebook.com/instructables SIGN UP: Fill out this form **You must be located in the United States to enter this event**
Topic by Carleyy | last reply
Hi all, I am looking for an ice/ snow melter that won't harm concrete or other surfaces, is safe for pets and can be easily made from household products or at home. I would like to be able to apply it before or after ice forms. Thank you
Topic by feign | last reply
After reading online I thought about an easy cheap alternative to lessen the noise in my garage studio room from escaping to the outside world. After the new construction the smaller space seems to echo much more than before, thus the need for more soundproofing/deadening. I though about building forms with plywood backing and filling them with readymix quickrete with wire mesh on top. After fastening the frames onto the brakets I have that will be firmly fastened to the wall in staggered pattern drywall and carpet padding will be applied on top of the plywood side of the form that would be facing toward the middle of the room thus creating a second relatively thick layer of sound deadening with roughly 1 1/2 inched of dead air space trapped between the outer and inner layer walls. Has anyone ever tried this? Thoughts, comments, suggestions welcome. To clarify: From outside to inside I would have: Siding - Standard Wrap and OSB - Stud- Moisture Barrier- Insulation - 5/8 Drywall - 1 1/2 inches of dead air space - Wire mesh side of concrete forms 1 in thick - concrete- plywood backing side of form - carpet padding - drywall - carpet Thanks. John
Question by jbutzu | last reply
I want to know how to do cheap, easy to do molds of wood or any easy to find material to cast pots in many forms (oval, round, square, rectangle, etc) to cast in concrete, hipertufa, clay or any common sturdy material like such. any sugestions welcome :)
Question by dorianbakx | last reply
I want to make a Super Mario Bros themed inside playground for my kids. I'm basically wanting to construct some type of tubing to make a "warp pipe" tunnel large enough for them to crawl in and out and create a little wooden fort that's painted to look like a castle from the video game that would connect to these hypothetical warp pipes I want to create. I need whatever I am working with to be safe and smooth, non toxic, strong enough to support two kids btwn the ages of 2 and 4 years old & 25 to 35 lbs, and durable yet not so heavy & dense that it would cause injury to my kids if they bumped their heads. I've briefly looked at PVC piping and concrete forms and am a little unsure; would either or both of theses products be suitable for my idea (and do they even come that large)? Or does anyone else have some suggestions? Thank you for your time and any responses.
Question by bellezza11 | last reply
A 16'x16'x16', 256-square foot, A-frame cabin on an elevated 3' concrete paver floating DekBlock foundation with a 3'x 6'8" front flush door, one rear 48"x 48"horizontal slider window, and another upper 24"x 24" horizontal slider window for the sleeping loft.I'm thinking that one of those standard U.S. Stove designs might provide just a little too much heat for my needs up in the Copper River Basin region of ALASKA's rural backcountry. Who knows? What are your suggestions for the above described "habitat"? Where can I find the best deals for my 256-square foot space? (Heating/ventilation-wise, we're speaking of subzero temperatures and heavy snowfall, so, I don't believe that "opening a window" is a practical solution for me if it gets too hot and smokey inside my A-frame.) Plus, I've done the HEATING ESTIMATE for the A-frame I'm going to build and the numbers come out to about a 620,000 btuh (heat loss) for the new dimensions I'm finally settling on: 16'x16'x16' or 256sq.ft. This calculation is for -50 degrees F with cold floor, ceiling, and glass surfaces taken into account. (Insulation isn't a factor this early in the design.) "Wow!" I thought at first. "A 620,000 btuh HEAT LOSS! I reckon you can never have too much stove even for an A-frame design." (Being that A-frame cabins retain heat so well, and that my sleeping loft may get really HOT in the Winter, this was a preliminary concern.) Foundation:(4) 8"- diameter cardboard cylindrical concrete forms for pin-point piers;(4) 84" reinforcement rods for pin-point concrete forms;(16) Bricks for base of footing;(24) Layout stakes;(8) 5' batter boards;(1) Spool of wire for joining the two 14" reinforcement rods for each footing base;(1) Spool of line for marking building layout lines;(?) Bags of cement;(?) Bags of gravel;(?) Bags of sand...*A few questions about the amount of concrete needed for the four footings and the four concrete piers: "How much concrete will be needed for four 8"-deep concrete footings poured into four 16"-diameter, 44"-deep holes with each containing four bricks and the four reinforcement rod supports? How much concrete will be needed to fill four 8"-diameter pin-point concrete pier forms to an estimated height of about 80"-inches? How many total bags of cement, gravel and sand (aggregate) will my foundation require? Most importantly, how much will it all cost?"A-Frame Structural Triangle (Theoretical Dimensions):Sides = 16'Base = 16'Angles opposite sides = 60 degreesAngle opposite base = 60 degreesArea = 110.85125168441 sq. ft.Perimeter = 48 ft.Framing:(2) 2"x 10"x 16' girders;(12) 2"x 6"x 12' rafters;(6) 2"x 6"x 8' joists;(4) 2"x 4"x 4' collar beams;(10) 4'x 4' plywood sheets for subflooring;(2) 16' framing braces for structural support against wind damage;(?) 3200-square feet of roof/wall sheathing material for exterior surface areas...*A few questions about the amount of roof/wall sheathing material needed to cover the 3200-square foot exterior surface area: "How much exterior sheathing will I need? How much will it cost? I understand that metal sheathing is preferred in the Copper River Basin region for its snow-shedding ability, so, given everything I've just said, what are my options for the A-frame I recently designed?"My total approach to this whole subsistence lifestyle (i.e. living off the land within a small, confined space) is probably all wrong. I understand that I might need to change my complete "mindset" and adopt a sort of NAUTICAL (or MARITIME) theme with my decor, furnishings and appliances.Since I'm really getting into boats anyway (my one chosen option for escaping the bitterly harsh winters of ALASKA's COPPER RIVER BASIN if all else fails), I feel that marine stoves, composting toilets, and an overall nautical aspect in the "finish work" might help me cope since sailboat cabins tend to be tiny, and I may need to transplant a lot of what I have to my seagoing vessel, "Vera Essie".www.geocities.com/wduncanbinns
Question by Herr VOLKMAR | last reply
HI, I need to make 4-12 foot columns and 4-3 foot columns to resemble ancient Thesolaniki (Greece) for the stage. I need to be able to break them down for transportation and storage into 8 foot lengths if possible. I was thinking of using concrete forms from the building supply section of our home improvement store, but perhaps you have another idea that is Light and inexpensive. I will be able to use the batton in the flyloft to attach a guide wire, so they won't topple. Thank you.
Question by Tabithadees | last reply
I have spent a great deal of time working on this question yet, I have no solid answer to go on. I tend to enjoy acquiring a skill set which would be very useful come TEOTWAWKI (the end of the world as we know it). I am far from a prepper, however I still entertain a slight possibility and see no problem with learning how to do a little more than cope. These skills extend from knowing where to grow, gather, and how to store penicillin to simple things like a yeast starter 100% from scratch. Brewing and distilling are also handy because it makes a great trade item. These are all things you never see in the Walking Dead or any other TEOTWAWKI cinema. One of the more important skills I believe would be conjuring fortress walls from rocks in the form of a little thing we know as concrete which we all take for granted. Now I could mix portland cement and filler with some water all day long and make a pretty cool fortess, but seriously. All the home depots in my state wouldn't have enough quick rite for that. So today I wan't to know what general rocks and minerals (that you can find in nature) can you combine to make cement. I know there are all kinds of fancy names for these, but what I really need is some good old generalities. Tell me to go outside grab a handful of clayish dirt, but it in a kiln with some lime and grind it up. I'm not looking for top of the line stuff here, this just needs to be able to hold a general form for a few years and be a little bullet resistant. This is for a crude fort, not the tallest building in the world or the hoover dam. A simple mortar would also be nice, although there really aren't any stones around to put together, bricks aren't super hard to make with as much clay as we have in our soil. So join me and maybe I will put together an instructible on all the skills you actually need but don't have!
Question by jj.inc | last reply
I played around with ultrasonics now for a while and noticed that when it comes to certain things then logic seems no longer to apply.In the normal household you might find some ultrasonic cleaner and that's about it.A few people might have some distance measuring device or sensor array somewhere.As far as the normal human is concerned that is more than enough ;)Playing with certain metals like Bismuth or Gallium is not only but also a nice way to create nice alloys that you can play with even more.Take a portable and simple hydrogen supply as an example.Just make an alloy with lots of aluminium and a small amount of gallium.Cut it into strips, blocks or grind into a powder if you dare.Either way you just add water in a sealed container and get lots of pure hydrogen.The waste product is aluminium oxide, which has additional uses.The gallium itself is not affected by the reaction and can be reused many times.However, with some metals things are just different.As you might know it is hard to impossible to create certain alloys and other wouldn't make any sense.For example an alloy made from Calcium and iron...One of the big problems with alloys is that you need to have both metals in a molten form, then mix them properly and hope it turns out as planned.And well, if the metals in question just on't want to combine we cheat by using slats as a flux for example or by blowing hydrogen through the molten mix to act as a sacrificial binder until the metal cools down.Through ultrasonic cavitation we can not only clean surface, the same effect also destroys cells as the power from the implosion and the intense heat is more than what a cell can handle.There are even tests now to determine how safe and effective it would be to sterilise hospital equippment.A few seconds in an ultrasonic bath would safe the hours in the autoclave...On an industrial scale ultrasonic vibrations are used to weld plastic parts - like the head and tail lights on modern cars or just sealed plastic housings of any kind.With all this in mind my experiments with ultrasonic soldering made me wonder...Science papers state that that for example ceramics are not actually soldered.Appearently it is again hydrogen bonds provided by the ceramic or trapped air inside that provide the means to stick permantly.There is also an effect based on the implosion of the cavitation bubble.Here the solder literally is shot at well aboce ultrsonic speeds onto the surface of the ceramic.Together with the vacuum effect the solder is then pushed into the tiniest of cracks and cavities.Surface tension and other effects finally prevent the solder from just flowing off like it would do if we use just heat.What it means is that there is no real soldering at all happening.In reality it is like millions of big hydraulic presses would push the molten metal onto the surface.Going back to the fun of Gallium with Aluminium....Aluminium does not really go to well with steel.And gallium does not that good with steel either.Melting an Aluminium-gallium alloy is quite simple.With an excess of Gallium in the mix it should be possible to add fine steel powder (steel, not iron!).Of course it would neither mix well nor really melt at these low temperatures.With ultrasoic cavitation however we could force the stuff to not only mix but also create the same effect as used by ultrasonic soldering.The additional metals and minerals in a steel alloy should hopefully prevent any unwanted reactions in the final step...If the steel powder is ine enough then the assimilation of the steel into the aluminium-gallium mix would result in the breakdown of the steel.Once cooled and hard again the big question what would happen if we let water attack it?In theory all aluminium would react to form aluminium oxide and aluminium hydroxide.The gallium again would not be affected and as it is also bound to the steel should form a nice gallium-steel alloy.But what hapens to the voids where the aluminium was???The alloy would either be only affected on the surface or through cavitation and time all aluminium would be transformed.In the best scenario we would get a steel-gallium sponge where the voids are filled with alumium oxide.Forging such a mix could result in a ceramic steel..... !?? ;)Imagine a safe...There is always forceful ways to get in.Like drilling or using a big angle grinder.The pro might use a magnesium torch rod though....The common approach to improve penetration resistance is by filling a space between the outside and inside walls of a safe.Whatever you can imagine that is nightmare for your tools can be used, like thick glass plates, hardened steel bits, carbide studs, concrete with glass fibres....But even diamond tipped tools would already struggle if the steel itself would contain high amounts of a hard ceramic like aluminium oxide.The remaining gallium would also cause very high friction and through this heat - which these tools really can't stand unless you can provide water cooling as well.With the right balance of aluminium and gallium most of the original properties the steel had can be preserved.Just and idea though....
Topic by Downunder35m
Back when I was a kid I had a little chimistry set and part of it were instructions on how to create your own chmical garden in a jar.The metal salts only "grow" in the areas with lots of water while being cured into somthing more solid when it contacts the waterglass.Quite nice trick for kids of all ages.Another and commercail use is as a binder for refractory uses.On a home level you can just crush up some vermiculite and perlite to create solid and light weight fire bricks or plate - with just waterglass as the binder.Although for this purpose you want a higher amount of cat litter in your mix.Cat litter???Yes, cat litter is the same as silica beads but it dissolves much easier in the reaction with sodium hydroxide, or drain cleaner.60g of crystal cat litter, 80g of sodium hydroxide, 100ml of water.Mix it carefully and without getting too much sodium hydroxide in the mix to quickly and you have a jar of watergalls - easy...But there is other uses too, like you could see in my Ible about making your own ferrite.In some areas it is still used as a flame retardant or to fireproof materials that otherwise would combust too quickly.Wood that was vacuum treated with waterglass and fully dried turns into a rock like substance that looks beautiful once polished.And it has a really hard time burning...As it cures like glass with just little heat it was used in Fukushima by injecting it into the soil to form a barrier for the radioactive water.The heat from the radiactive water helped curing the mix...You can even use it to repair your cracked potter and glassware..Holes or leaks in your exhaust system? What a pain if you are too short on money to replace the parts.So a lot of us pay quite a bit of money for repair putties and bandages to seal the lak at least for long enough to consider a real fix.Did you know that all these putties and such are nothing but waterglass, glass fibres and filler material?The later often just very fine sand.Easy to make you own in bucket loads for less than what the repair kit costs LOLA total pain in the behind is if your old car gets a water leak.Usually it is a seal on the pump, a hole in the radiator or a tiny crack.One to to fix it for a while is to add an egg white to your cold radiator water or coolant.Then go for a drive and the egg white will boil off and dry where it comes into contact with air - outside you problem.Works remarkably well and won't harm any part of your engine either.Only downside is that it usually only lasts for a few days, being a natural product and such.Some people though claim they got weeks or even months out of such a cheap fix.A btter and more permanent way to seal such tiny leaks is to use waterglass mixed into the cooling system.It will form a lasting glass like seal that has no issiues under high heat or pressure.It even fixes your leaking head gasket if the water goes not get into the oil jet.Oil getting into the water might still still be fixable with waterglass.Water in the oil means the waterglass could enter the oil and if that happens you end with glass in your moving engine bits.A sure way to kill every engine and used to properly destroy them for recyling purposes by law in some countries.Waterglass is added to the engine oil and then it runs until hot enough for the water to evaporate.At this point the engine and all bearings just permantly seize.Waterglass added to cement provides a good barrier for oil and other liquids, making a spill cleanup much easier as the spill can't really penetrate the concrete.My personal favourite though is to use it for the easy removal of unwanted paint gretings on walls and such.You know how some kids think that a spray can with paint and a clean wall make artwork...If said wall is "painted" with a a mix of waterglass and sugar the spray paint will stick as good as before.But then you come with a pressure washer and clean it off in a few minutes and without any traces left on the wall.Sadly you need to re-apply the protective coating before the kid with the spray can comes back next night...What are your uses for liquid glass?
Topic by Downunder35m
I am an electronic engineer in the field of power distribution switches. In recent days, I am prepared to make a project for power distribution switches at home together. The project begins now: Home decoration, the concern of hydropower indispensable. The laying of the home circuit is a crucial link, the home distribution box installation involves the safety of home appliances. Therefore, I specifically summarise the home distribution box installation knowledge, as well as home distribution box wiring diagram to make the relevant finishing, for everyone to take precautions, the home distribution box has a clear understanding. Home distribution switch installation points 1, Household distribution switch sub-metal shell and plastic shell two, there are two kinds of mounted and concealed, the box must be intact. 2, The household distribution switch of the cabinet wiring assembly should be set up to zero line, to protect the ground wire, phase line, and to be intact, with good insulation. 3, The installation of air switch seat should be clean and there is enough space, should be installed in the dry, ventilated parts, and no obstruction, easy to use. Never install the distribution box in the box to prevent fire. 4, The household distribution switch should not be installed too high, the general installation of the elevation of 1.8 meters, in order to operate; into the distribution switch of the electric tube must be fixed with a lock nut. 5, If the household distribution switch to be open, the edge of the hole to be smooth, smooth, distribution box buried in the wall should be vertical, horizontal, edge left 5 to 6 mm gap, distribution box wiring Should be rules, neat, the terminal screws must be tightened. 6, The loop into the line must be sufficient length, no joints, after installation marked the name of the use of the circuit, the installation of household distribution box to be completed after the removal of the distribution box residue. How to assemble power distribution switches at home ? 1, The installation of electrical box, distribution box installed on the wall, should be used bolts (expansion bolts) fixed, bolt length is generally buried depth (75 ~ 150mm), the thickness of the box floor, nuts and washers Of the sum of the thickness, plus about 5mm of the "margin". For smaller distribution boxes, it is also possible to embed a good brick at the installation site (in the form of a distribution box or a panel mounting hole) and then use wood screws to secure the distribution box or power distribution board. 2, Dark assembly distribution box, distribution box embedded in the wall installation, in the wall when the hole should be reserved than the length and width of the distribution box about 20mm, the depth of the distribution of the thickness of the distribution box with the wall Plaster thickness. In the masonry distribution box, the box and the wall filled with concrete can be fixed to the box live 3, The distribution box should be installed firmly, horizontal and vertical, vertical deviation should not be greater than 3mm; concealed, the distribution box should be around the gap, the edge of the panel should be close to the wall, the box and the building, Part should be coated with anti-corrosion paint. 4, The distribution box installed in the spiral fuse, the power cord should be connected to the middle of the terminal contact, the load line should be connected to the threaded terminal. In this way, in the loading and unloading fuse will not be electric shock. Porcelain plug-in fuses should be mounted vertically. 5, The distribution box of AC, DC or different voltage levels of power, should have a clear sign. Lighting line, should be set to zero line (N line) and protect the zero line (PE line) bus, zero line and protection of the zero line should be connected to the bus, not twisted, should be numbered. 6, The wire leads to the panel, the panel line hole should be smooth without burrs, metal panels should be installed insulation protective cover. Metal shell distribution box shell must be reliable grounding (then zero). Ps: Excuse me if I was wrong in words or expressions as I am a green hand in the field of power distribution switches. I need continual learnings. What is your idea ? Do you agree with my ideas ? Any of your ideas would be highly appreciated. May someone would like to help ? thanks in advance.
Topic by maryzhu | last reply
If we look up sonic drills today we usually get some fancy machines driving pipes in the ground, preferably softer ground.But the term includes all types of machines that use sonic vibrations to advance through a media.With the ancient and claimed to have never existed technologies in mind I did some digging...In the food industry vibrating knifes are quite common, same for "air knifes" on softer food.Even in the meat industry they find more and more uses now.Ultrasonic cutting or welding is the same thing and included in "sonic".Same for some experimental sub sonic drilling methods currently being tested.The general idea might be as old as using vibrating equippment to compact stuff, like concrete, bricks and so on.What you can compact by vibration you can also make "fluid" by vibration.Industrial feeder systems utilise this to the extreme by even making light and fine particles like flour move like water without causing any dusting.What all the techniques have in common that a suitable tool or tool head is used and that it is attempted to use the most suitable vibration frequency for the job.Anyone operating an ultrasonic welder knows the pain of finetuning for a new electrode or just new part to be welded.What does that tell us now that makes the understanding easier?Take a bottle of ketchup, preferably one that is still quite full.Turn it upside down and noothing comes out.Shake it a bit and you are either lucky or drowned in red.But hold it at an angle and start tapping it and the red sauce flows out easily.What it true for most newtonian fluids is in some way also true for non-newtonian fluids.Ever mixed corn starch and water to make these funny experiments with it?Hit it hard and it reacts really hard and is not sticky at all.Leave your hand resting on it and in sinks in and sticks to it.Stirring it very slowly is easy, go faster and you get stuck.You can do similar things with by using an external source for vibrations.For example a vibration speaker mounted to a smal cup of the goo.If you place sand on a sloped piece of plastic or sheet metal then at a low angle it will pile up easy and stay.Start vibrating the plate and the sand will start to flow off.Works fine with a vibration source mounted to a piece of steel bar or rod and a bucket of sand too.Trying to press it into the sand requires a lot of force, especially once you are a bit deeper.Let it vibrate properly and it slides rights down.If we can do the simple stuff as well as really complicated stuff in the industry then what about other materials?So far we use vibrations to make things move out of the way, compact things, transport them or to heat them up for welding plus some cutting applications.Considering the variety one might wonder why no one tries it for "difficult" materials.Machined surface can be found throughout ancient history.Finding "machined things" were vibrations was clearly used is a bit harder.The great walls are not a perfect example here as the views differ quite a bit on how they could have been created.But if we leave things melting them or a secret concret like recipe for creating for example granite then vibrations start to make some sense.You find some interesting videos on youtube where people use speakers, wires and rocks to confirm you can actually "machine" them by vibrations.Especially granite has some quite musical properties, big boulders as well as smaller ones produce destinct sounds when you hit them hard.Tests and measurements were made on granite and other hard rocks to check how fast sound travels in them , how it is refeclted and where the sound comes out or affects the surface the most.Lets just say every sample gave different results.Shape, density and dimensions affect not just the resonant frequency but also where and how the sound travels in the rock.What if??We can use a simple speaker, a plate and some rice to see how patterns form under various frequencies.Works with sand or other granules as well.The interesting patterns are the so called harmoncis.Here we see clear and destinct patters, sometimes with extremely fine lines and areas of softly vibrating granules.Some people say these harmonic frequencies have all special meanings and uses.We mainly used them to avoid problems.Imagine your new TV would not have a housing tested to be stable with all frequencies the speakers can produce.All of a sudden your back of the TV might start to rattle ;)Same for car engines.Harmonic vibrations are eliminated wherever possible.Otherwise they could multiply and affect other things in the engine or around it.Simply put it means we have various options to detect and measure vibrations on a surface or in a system.Back in the day every half decent backup generator had a mechanical indicator for the frequency of the supplied electricity.A set of tiny forks with the desired on painted red and several on either side of it.These forks were designed to get into harmonic and therfor quite intense vibrations at their set frequency.If the one for 50Hz looked blurry then all was good ;)The same principle god be applied on a big boulder of granite.Place the "vibration meter" at the desired spot and start moving around the vibration source on the surface until you find a spot that causes maximum response on the meter.Best thing here is that if you then place that surface area onto another peice of fixed in place granite both pieces will start to loose substance if vibrations are applied.The fine sediment forming is then usable as an indicator where to move the vibration source to continue once the effect literally wears off.Is it feasable?Well, if we trust mainstream science then the answer is no.A huge amount of vibration energy would be required for such a hard material, despite ancient proof that says otherwise.Semi industrial test also seemed to confirm the theory as only with very high amplitudes (loudness) and while automatically adjusting for the resonant frequency changes a measurable amount of material was removed.I struggle a bit with that as for the testing tool heads made from hardened steel or carbide were used.And that with little or no regards on how the head and tool itself affects the output.I mean in terms of having the max possible movement happening right t the tool contact surface!There is a huge difference between applying a vibration to a tool and using a system, tool and tool head DESIGNED to work at the desired frequency!Otherwise we wouldn't need a computer to design and test a horn for welding purposes or shade a knife spefically so that the vibration go along the right axis and in the right direction.You not break a hard thing with a very soft thing unless it travels fast enough to become harder as the target!This complicated explanation basically just confirms that if you hit water at a too high speed then it will just break you into pieces instead of offering a soft splashPlease do not jump of bridges or such to confirm this yourself!!If that is really true and science says it is, then how about the other way around?Works fine too, or we wouldn't have pressure washers or water cutters.Now for the part where I hope some really smart people leave helpful comments:If we can cut steel with just a stream of water, then I ask:Isn't for example copper much harder than water?Steel is much harder than copper but water cuts through it.The answer here it simple or complicated, depending on how you want to expain how it works.Comes down to speed and pressure plus the right nozzle shape to prevent a beam expansion.But then water is indeed "harder than steel".Questions:Lets say we would use a copper pipe that in lenght, thickness, hardness and diameter is optimised to transmit a frequency so the pipe end sees the max vibration like a feed horn for ultrasonic welding.Not to hard to calculate these days :)Now imagine said "main frequency" would be optimised for the pipe but also be a harmonic frequency of the rock to be worked on.The pipe end would deform quickly, abrasion does the rest and it fails before even making a decent sratch that is not copper metal on granite.No matter how hard we press nothing good enough will ever happen.BUT: If we would add more hormainc frequencies to feed our pipe we can multiply the amplitude quite easy!Just try with a sound generator from your app store, needs 2 or more channels to be usable.Pick for example 400hZ on one and 800Hz on another, then finetune around these number to hear how the tone changes ;)My theory goes like this:If all "working frequencies" would just harmonics of the resonant frequency of the granite, then they can be tuned so the effect on the pipe end is minimised.The overlaying frequencies however should result in the same effect a water cutter has: The pipe becomes ultra hard.The better the match and the more you have to get it right the harder the pipe will be.Adding now a "drilling frequency" or multiple could be used to drive these harmonics slightly out of phase.Like with the sound generator on your phone we end up with a pulsating sound, or vibration.While the pipe still vibrates at the same "hardening" mix the drilling frequency creates a peak like a jackhammer.Try it by using the heaphone output on a small speaker and placing some light and tiny things into the cone.The will violently jump around during these pulsing tones.For a drilling system the output can be mechanically maximised by utilising a pitchfork design.A head holds the vibration speakers and the tynes are tuned good enough to the frequency of the speakers.Always two would have to operate in sync though as otherwise the pitchfork movement that transfers the sound down the center bar won't work.This head could then be desgined to act as a holder for a quick change of work out pipes that are no longer long enough for tuning.I guesstimate that a well tuned design would result in a copper pipe being able to drill at least 10 to 15cm into solid granite before it wears off too much.And we are talking here about just a few mm to get the thing out of tune!But would dare to desing such a thing just to confirm a theory that no one ever really dared to test? ;)And if friction welding works as good as ultrasonic welding, then what would happen if we try this with the right frequencies and vibrations instead of wasting tons of energy?
Topic by Downunder35m
Initial Stirling engine conceptFor some time I was contemplating an idea for a Stirling engine that would work quite differently than the other designs that I came across. Whole internal volume of an engine may be viewed as a closed-loop pipe, trombone-like slide mechanism allows this pipe to change its length. Electrical fan replaces displacer and pumps working fluid throughout the engine constantly and in one direction. Some portion of the pipe is replaced with branching structure that consist of two heat exchangers (hot and cold) and regenerator. On both ends of this structure special valves are located that connect one of the structure’s parts to the main pipe, so that whole engine forms one closed-loop. While this happens, both of the unused parts are completely bypassed.This design should have many advantages. Working gas is in constant motion and little energy is wasted on accelerating it. Gas may pass many times through heat exchangers, allowing for much better approximation of isothermal processes. Disconnecting unused heat exchangers from the rest of the engine should minimize volume of dead spaces.There are some drawbacks to. Slide mechanism allows only very small changes of total volume (compression ratio is low), and that limits engine’s ability to operate with higher temperature differences. Piston, which is part of the slide mechanism, and especially valves, are heavy and this makes them unsuited for high speed operation, making the whole engine bulky. I also except that an area of all surfaces that are sliding against each other and produce friction would be higher than in traditional Stirlings.Problems with Stirling cycleIdeal Stirling cycle (Fig. 4) consist of two isothermal processes (constant temperature) during which work is performed, and two isochoric processes (constant volume, no work performed). Isochoric processes function is only to change temperature of the working gas, and this takes a lot of energy to do so (especially if gas with high heat capacity is used). Regular Stirling engines try to minimize this inefficiency with regenerator. But when I tried to analyze this process mathematically, I noticed that even regenerator with very high heat capacity cannot store more than half the energy needed to perform next isochoric process (see lower left part of the spreadsheets for more details).Fig. 5 represents heat pump (or refrigerator) working in a modified Stirling cycle. Isochoric processes represent transfers of heat to and from the regenerator. Rest of the temperature change is performed by polytropic processes, during which heat flows to or from the heat exchangers and also work is performed. I chose to represent heat pump, instead of a engine because engine working with this modified cycle wold require isochoric processes to be performed midstroke (or transfers of heat to regenerator would have to be performed during polytropic processes, when working gas changes its temperature also due to work being performed).Note that I am using word polytropic to indicate processes where gas changes its energy both due to heat transfers and work performed. When special cases of polytropic process are mentioned (isothermal, adiabatic, isochoric) I use their specific names.Solving those problems with Carnot cycleLegendary Carnot cycle consist of two isothermal processes (just like Stirling cycle), but changes of temperature are accomplished by the adiabatic processes (no heat transfers with the surroundings), instead of isochoric ones. This has huge advantage, because when energy is added to the working gas during adiabatic compression, all of it can be later recovered during adiabatic expansion.Design I previously mentioned can easily be adapted to work as a Carnot engine. Only change that is necessary, is replacement of regenerator with the empty pipe (ADIABATIC PIPE in Fig. 2). When valves connect this empty pipe to the rest of the engine, there is no heat transfer between working fluid and thermal reservoirs. Any changes of engine volume modify temperature and pressure in a approximately adiabatic fashion. To model what happens with the engine I used slightly modified Carnot cycle (Fig.3). Just before adiabatic process end, short polytropic process begins. It is done so that loses associated with valves connecting both adiabatic pipe and heat exchanger to the main part of the engine for a short period of time can be better simulated. Heat pump working in this cycle is shown in Fig. 6.Design detailsEngine uses special valves, which external shape resemble truncated cone. Smaller base of this cone faces main part of the engine, larger one heat exchangers. Inside there is a pipe, with one opening right in the center of smaller base. The other opening is located off-center on the larger base, so it can connect to the one of the heat exchangers or adiabatic pipe (which are situated just like chambers of a revolver’s cylinder in respect to each other). As this engine engine will most likely operate under low RPMs, flywheel will have to be connected through a transmission with very high gear ratio. The flywheel will have to be quite bulky as well. This poses another challenge, as the pressure inside engine’s tubing will be higher than atmospheric, and at least space around the other side of the “piston” will have to be pressurized as well. If only the immediate surroundings will be pressurized, and gears, flywheel, electric motor/generator will be outside of the container, then very inefficient seal will have to be employed. If everything will be located inside the pressurized container, then fast moving parts will be working against dense gas. Pressure in this area ideally should have such a value, so that on every piston stroke energy is both added to the flywheel and extracted from it as to make energy storage requirements more manageable. This requirements may also be further reduced by employing some other energy storage form. And of course exchange of heat between main part of the engine and this pressurized section must be taken into consideration.Then, there is problem of heat exchangers. They can be either large diameter pipes with fins, or smaller diameter ones that are densely packed (this seems to be must popular configuration in Stirling engines). As heat transfer with the outside of the engine takes around half of the piston stroke, it might be a good idea to employ two pumps of heat transfer fluid per each of the two heat exhangers. One would work constantly to transfer heat from some large heat reservoir, the other would transfer heat to the working fluid only when it is necessary. Some another heat exchanger would have to be placed between those two circuits.And there is also a question of the piston. Basic trombone-like version could be replaced by the something similar to the design drawn in Fig. 7, where two parallel tubes, connected by U-shaped piston, are replaced by the coaxial pipes with volute on the outer section that allows connection another parallel pipe. Piston itself has then small tubular part attached which allows working fluid to pass from outer section to the inner section. This design has only one high pressure seal, is possibly lighter, but fan that pumps working fluid will probably need to be more powerful. Problem of sideways motion of the piston must also be analyzed, and it can be either resolved with piston skirts or the crosshead. Interesting aspect of this problem is that while most frictional forces in the engine are mostly independent of the engine speed, forces associated with this sideways motion of the piston increase with engine rotational speed.Another possible improvement would be making adiabatic pipe shorter than the heat exchangers, which would reduce volume of dead spaces.Engine parametersIn case of a engine that uses helium as a working fluid, has minimum volume of 46.7 liters, maximum volume of 70 liters, operates at temperatures of -5°C and 37°C with the speed of 15 RPM you can expect that it will produce 1138W of power at 8.13% efficiency.In the case of heat pump that operates at the same parameters you can expect that it will require 2300W of power and achieve COP 4.95You can find calculations, diagrams and the detailed descriptions inside non-ideal_carnot_engine.zip (it is unfortunate that Instructables do not support uploading .zip files and other file formats any more, and I have to use another website just to upload few spreadsheets).Possible applicationsI started thinking about this concept when considering applications of thermal energy storage. In more northern latitudes largest factor in domestic energy consumption is heating. So, at least in my opinion, any movement toward replacing fossil fuels with renewables should focus on this largest contributing factor. And this actually is quite fine because storing 1 kWh in a tank filled with water, rocks/concrete or simply in the ground is much cheaper than storing it inside lithium-ion batteries. And general idea behind this low temperature engine, was that some part of this large amount of energy stored to be later used to heat buildings, could be converted into electricity.It should also be able to work in reverse as a heat pump or refrigerator.
Topic by rarinn
These are hilarious!!! There all REAL funny product lables that people have found. Here's the link to where I got them: http://www.rinkworks.com/said/warnings.shtml Product Warnings: • "Do not use if you cannot see clearly to read the information in the information booklet." -- In the information booklet. • "Caution: The contents of this bottle should not be fed to fish." -- On a bottle of shampoo for dogs. • "For external use only!" -- On a curling iron. • "Warning: This product can burn eyes." -- On a curling iron. • "Do not use in shower." -- On a hair dryer. • "Do not use while sleeping." -- On a hair dryer. • "Do not use while sleeping or unconscious." -- On a hand-held massaging device. • "Do not place this product into any electronic equipment." -- On the case of a chocolate CD in a gift basket. • "Recycled flush water unsafe for drinking." -- On a toilet at a public sports facility in Ann Arbor, Michigan. • "Shin pads cannot protect any part of the body they do not cover." -- On a pair of shin guards made for bicyclists. • "This product not intended for use as a dental drill." -- On an electric rotary tool. • "Caution: Do not spray in eyes." -- On a container of underarm deodorant. • "Do not drive with sunshield in place." -- On a cardboard sunshield that keeps the sun off the dashboard. • "Caution: This is not a safety protective device." -- On a plastic toy helmet used as a container for popcorn. • "Do not use near fire, flame, or sparks." -- On an "Aim-n-Flame" fireplace lighter. • "Battery may explore or leak." -- On a battery. See a scanned image. • "Do not eat toner." -- On a toner cartridge for a laser printer. • "Not intended for highway use." -- On a 13-inch wheel on a wheelbarrow. • "This product is not to be used in bathrooms." -- On a Holmes bathroom heater. • "May irritate eyes." -- On a can of self-defense pepper spray. • "Eating rocks may lead to broken teeth." -- On a novelty rock garden set called "Popcorn Rock." • "Caution! Contents hot!" -- On a Domino's Pizza box. • "Caution: Hot beverages are hot!" -- On a coffee cup. • "Caution: Shoots rubber bands." -- On a product called "Rubber Band Shooter." • "Warning: May contain small parts." -- On a frisbee. • "Do not use orally." -- On a toilet bowl cleaning brush. • "Please keep out of children." -- On a butcher knife. • "Not suitable for children aged 36 months or less." -- On a birthday card for a 1 year old. • "Do not recharge, put in backwards, or use." -- On a battery. • "Warning: Do not use on eyes." -- In the manual for a heated seat cushion. • "Do not look into laser with remaining eye." -- On a laser pointer. • "Do not use for drying pets." -- In the manual for a microwave oven. • "For use on animals only." -- On an electric cattle prod. • "For use by trained personnel only." -- On a can of air freshener. • "Keep out of reach of children and teenagers." -- On a can of air freshener. • "Remember, objects in the mirror are actually behind you." -- On a motorcycle helmet-mounted rear-view mirror. • "Warning: Riders of personal watercraft may suffer injury due to the forceful injection of water into body cavities either by falling into the water or while mounting the craft." -- In the manual for a jetski. • "Warning: Do not climb inside this bag and zip it up. Doing so will cause injury and death." -- A label inside a protective bag (for fragile objects), which measures 15cm by 15cm by 12cm. • "Do not use as ear plugs." -- On a package of silly putty. • "Please store in the cold section of the refrigerator." -- On a bag of fresh grapes in Australia. • "Warning: knives are sharp!" -- On the packaging of a sharpening stone. • "Not for weight control." -- On a pack of Breath Savers. • "Twist top off with hands. Throw top away. Do not put top in mouth." -- On the label of a bottled drink. • "Theft of this container is a crime." -- On a milk crate. • "Do not use intimately." -- On a tube of deodorant. • "Warning: has been found to cause cancer in laboratory mice." -- On a box of rat poison. • "Fragile. Do not drop." -- Posted on a Boeing 757. • "Cannot be made non-poisonous." -- On the back of a can of de-icing windshield fluid. • "Caution: Remove infant before folding for storage." -- On a portable stroller. • "Excessive dust may be irritating to shin and eyes." -- On a tube of agarose powder, used to make gels. • "Look before driving." -- On the dash board of a mail truck. • "Do not iron clothes on body." -- On packaging for a Rowenta iron. • "Do not drive car or operate machinery." -- On Boot's children's cough medicine. • "For indoor or outdoor use only." -- On a string of Christmas lights. • "Wearing of this garment does not enable you to fly." -- On a child sized Superman costume. • "This door is alarmed from 7:00pm - 7:00am." -- On a hospital's outside access door. • "Beware! To touch these wires is instant death. Anyone found doing so will be prosecuted." -- On a sign at a railroad station. • "Warning: do not use if you have prostate problems." -- On a box of Midol PMS relief tablets. • "Product will be hot after heating." -- On a supermarket dessert box. • "Do not turn upside down." -- On the bottom of a supermarket dessert box. • "Do not light in face. Do not expose to flame." -- On a lighter. • "Choking hazard: This toy is a small ball." -- On the label for a cheap rubber ball toy. • "Not for human consumption." -- On a package of dice. • "May be harmful if swallowed." -- On a shipment of hammers. • "Using Ingenio cookware to destroy your old pots may void your warranty." -- A printed message that appears in a television advertisement when the presenter demonstrates how strong the cookware is by using it to beat up and destroy a regular frying pan. • "Do not attempt to stop the blade with your hand." -- In the manual for a Swedish chainsaw. • "Do not dangle the mouse by its cable or throw the mouse at co-workers." -- From a manual for an SGI computer. • "Warning: May contain nuts." -- On a package of peanuts. • "Do not eat." -- On a slip of paper in a stereo box, referring to the styrofoam packing. • "Do not eat if seal is missing." -- On said seal. • "Remove occupants from the stroller before folding it." • "Access hole only -- not intended for use in lifting box." -- On the sides of a shipping carton, just above cut-out openings which one would assume were handholds. • "Warning: May cause drowsiness." -- On a bottle of Nytol, a brand of sleeping pills. • "Warning: Misuse may cause injury or death." -- Stamped on the metal barrel of a .22 calibre rifle. • "Do not use orally after using rectally." -- In the instructions for an electric thermometer. • "Turn off motor before using this product." -- On the packaging for a chain saw file, used to sharpen the cutting teeth on the chain. • "Not to be used as a personal flotation device." -- On a 6x10 inch inflatable picture frame. • "Do not put in mouth." -- On a box of bottle rockets. • "Remove plastic before eating." -- On the wrapper of a Fruit Roll-Up snack. • "Not dishwasher safe." -- On a remote control for a TV. • "For lifting purposes only." -- On the box for a car jack. • "Do not put lit candles on phone." -- On the instructions for a cordless phone. • "Warning! This is not underwear! Do not attempt to put in pants." -- On the packaging for a wristwatch. • "Do not wear for sumo wrestling." -- From a set of washing instructions. See a scanned image. ________________________________________ Assurances: • "Safe for use around pets." -- On a box of Arm & Hammer Cat Litter. ________________________________________ Small Print From Commercials: • "Do not use house paint on face." -- In a Visa commercial that depicts an expecting couple looking for paint at a hardware store. • "Do not drive cars in ocean." -- In a car commercial which shows a car in the ocean. • "Always drive on roads. Not on people." -- From a car commercial which shows a vehicle "body-surfing" at a concert. • "For a limited time only." -- From a Rally's commercial that described how their burgers were fresh. ________________________________________ Signs and Notices: • "No stopping or standing." -- A sign at bus stops everywhere. • "Do not sit under coconut trees." -- A sign on a coconut palm in a West Palm Beach park circa 1950. • "These rows reserved for parents with children." -- A sign in a church. • "All cups leaving this store, rather full or empty, must be paid for." -- A sign in a Cumberland Farms in Hillsboro, New Hampshire. • "Malfunction: Too less water." -- A notice left on a coffee machine. • "Prescriptions cannot be filled by phone." -- On a form in a clinic. • "You could be a winner! No purchase necessary. Details inside." -- On a bag of Fritos. • "Fits one head." -- On a hotel-provided shower cap box. • "Payment is due by the due date." -- On a credit card statement. • "No small children." -- On a laundromat triple washer. • "Warning: Ramp Ends In Stairs." -- A sign, correctly describing the end of a concrete ramp intended for handicap access to a bridge. ________________________________________ Safety Procedures: • "Take care: new non-slip surface." -- On a sign in front of a newly renovated ramp that led to the entrance of a building. • "In case of flood, proceed uphill. In case of flash flood, proceed uphill quickly." -- One of the emergency safety procedures at a summer camp. ________________________________________ Ingredients: • "Ingredients: Artificially bleached flour, sugar, vegetable fat, yeast, salt, gluten, soya flour, emulsifier 472 (E) & 481, flour treatment agents, enzymes, water. May contain: fruit." -- The ingredients list on a package of fruit buns. • "100% pure yarn." -- On a sweater. • "Some materials may irritate sensitive skin. Please look at the materials if you believe this may be the case. Materials: Covering: 100% Unknown. Stuffing: 100% Unknown." -- On a pillow. • "Cleans and refreshes without soap or water. Contains: Water, fragrance & soap." -- On the packet for a moist towelette. See a scanned image. ________________________________________ Instructions: • "Remove the plastic wrapper." -- The first instruction on a bag of microwave popcorn; to see the instructions, one first has to remove the plastic wrapper and unfold the pouch. • "Take one capsule by mouth three times daily until gone." -- On a box of pills. • "Open packet. Eat contents." -- Instructions on a packet of airline peanuts. • "Remove wrapper, open mouth, insert muffin, eat." -- Instructions on the packaging for a muffin at a 7-11. • "Use like regular soap." -- On a bar of Dial soap. • "Instructions: usage known." -- Instructions on a can of black pepper. • "Serving suggestion: Defrost." -- On a Swann frozen dinner. • "Simply pour the biscuits into a bowl and allow the cat to eat when it wants." -- On a bag of cat biscuits. • "In order to get out of car, open door, get out, lock doors, and then close doors." -- In a car manual. • "Please include the proper portion of your bill." -- On the envelope for an auto insurance bill. • "The appliance is switched on by setting the on/off switch to the 'on' position." -- Instructions for an espresso kettle. • "For heat-retaining corrugated cardboard technology to function properly, close lid." -- On a Domino's sandwich box. ________________________________________ Requirements: • "Optional modem required." -- On a computer software package.
Topic by LoneWolf | last reply
Well i hate to bother anyone but can you please take some time to read this book i worked hard on ? i spent countless hours of my free time over the weekend developing the plot and creatures so can you please take some time out to read the whole thing tell me what it needs or what would be good i already am 16 pages into the sequel so tell me if this is good so i can post the sequel ! enjoy Times come by Alby Chapter 1- beginning It was the night I would never forget,the night.......i....the......the last night I would enjoy life. It was spring of 2017 the night air was heavy in my lungs and you could faintly smell the BBQ and charcoal smoke from cookouts that died down hours ago I could here people talking and having a good time but I think my drink I grabbed the wrong beer it was Sarah's it was spiked I never would have noticed who did it at least it wasn't her to drink it. I simply enjoyed the sky line of Chicago filled with sky scrapers and mirror like office buildings it all seemed like a Bokeh picture to me the drug is taking affect on my body I feel dizzy . I hopped on the train, it was empty as for the weather gave a good reason to walk but I needed to get home safely. In about 30 minutes I was home. I clumsily walked up the stairs and almost fell it took about ten minutes before I opened the door, I then plopped down on my bed and ran to the bathroom and regurgitated everything I ate that night. i starred at the ceiling. I saw every detail to the nearest centimeter and then blurry the specks the marks swirled in my vision and I felt weightless for a while. I starred at the clock and noticed it was about 4:00 am and cursed myself for going to that bar with Sarah I threw up all over my bed. I tried to grab the phone to call the paramedics but I fell and hit my head on my night stand. I passed out from the concussion i fell into a deep sleep a very deep sleep. Chapter 2 Change I wiped the crust out of my eyes and felt my head a sharp pain rippled thru my scalp it was a Gash about two inches in length. i walked into the bathroom I pulled the faucet but all that came out was a wisp of air. I snatched a baby wipe and cleaned off my face I cleaned my wound with alcohol the sting ive gotten used to I used to get hurt pretty bad in the army, I got shrapnel in my knee and they sent me home the first year. I noticed a dead silence on the street I thought they probably closed it off for some type of repair. I put on my white tee shirt and noticed its softness and how it fit snug on my semi-muscular figure I was in good shape for a twenty-four year old, my mom would always tell me most of the people in America are fat but I guess she loves to tell stereotypes for what they are. I put on my jeans and not forgetting the belt this time either. I snatched my keys off the kitchen counter and headed for the door. I walked outside and paused too look at the empty streets filled with litter and carnage . My mouth wide open in amazement I asked myself what happened and pondered the different reasons riot,panic,fire what could cause such a mess, I walked towards a police squad car and smelled something rancid I slowly proceeded, I instantly veered back in panic I could not believe what I saw a dead police officer lying face down with half a chunk blown clean off his head. There were pieces of it every where splattered on the windshield and door of the police car and some on the concrete. I instinctively inched towards him and thought to myself that something bad is happening and I need protection. I unhooked his holster off his waist and placed it on mine I pulled off his Kevlar vest and put it on weirdly enough it barely was messy or smelled bad. I checked the pockets of the vest and took out a pair of keys I knew it belonged to his squad car. I first popped open the trunk and saw it glistening in the sun a Ar-15 assault rifle. I picked it up and the memories of my army training it just instantly popped into my mind. I guess it applied the same here, I slung it around my back and walked into the silence. I took out the pistol put in the clip pulled the slide back and switched the safety off and cautiously held it. I believe the gun made me more nervous than whats in the shadows, I walked down the narrow street and saw it the skyline of the city filled with smoke and fire. I stood in anger and confusion my home town ravaged broken and charred blood stained the streets and walls, but why.....why....how could this... I mean what could....d..do such a thing. I walked away in the opposite direction and then cut into an alley way to piss and paused as I heard a roar I looked up and saw a quick glance of the belly of a apache attack craft it quickly zoom by and then another. I looked away and ran out of the alley and then down the street to see what direction they were heading. They sped towards the lake area and then I saw a tiny black object fall horizontally from the choppers belly and it slowly fell, then a explosion. I could feel the vibrations. the explosion ripped the lake area into nothing....nothing..but....but...smoke. My heart skipped a few beats thinking what if the next one falls in this area I quickly broke my daydream and bolted as fast as I could as far as I could until I saw a woman crawling on the concrete she was Moaning and holding her stomach. I came up behind her and asked for help. She turned on her back “ Sarah? Ohh my god sarah are you okay ?” and she held a gun in her hand a Glock 22 model the slide locked all the way back and no clip in the gun. I kicked it out of her and and sprung on her she begged for mercy “albert you have to stay away from me im turning” she saw that I was armed and quickly told me the gun was unloaded and that she was sorry she told me she would do anything just get away from her . I told her “Im not here to hurt anyone I just want to help” I starred at her beautiful figure her perfect face and thin hourglass body but ragged cloths and red eyes from crying. How and what did she go thru that could turn her into such a wreck. She got up and put her arm around my shoulder kissed me on the cheek and passed out. I dragged her to an fenced off alley where there was a mattress I put her down and sat next to her .she hugged me and began to cry she than jumped on top of me “Sarah what are you doing no we cant do this now no!” I told her I will help her but I dont think she understood a word I said. She looked at me in my eyes I could feel her touch my soul, her blue eyes glared in the sun. “i dont want to die alone please” I stood up nervously, I was concerned for her health when suddenly I heard a bang then felt a sharp pain in my leg. I collapsed in agony and saw the cause of my pain a bean bag round I looked up and saw a gas mask wearing figure he shot me with another bean bag round in the knee, from his shot gun he then walked over my numb body and. picked up both bean bag's and threw it aside two people in hazmat gear grabbed Sarah and took off her clothing I screamed “what are you doing to her!!!” they did not acknowledge me they looked at her body like they where searching for something. Her passed out figure limp as a rag doll they removed her pants then her underwear I screamed “No!! you son of a bitch don't do it ill kill you” they studied a bite mark on her upper thigh they made some type of hand signal and left. the soldiers then they came and started pouring gasoline on the mattress and her body. the one with the kriss super V took his cigarette out of his mouth and then flicked it at her it rolled of of her shapely belly and hit the mattress her body bursted into flames and she spasmed and kicked wildly. Then the man pointed it me and said in a British accent “ knock that fuckin Yankee an put em in da ACP double time, thoes hungry bastards are comin” Chapter 3 world gone mad I awoke on a bed in clean clothes and a hair cut. I stood up and walked into the hallway and noticed that this was a hospital. Suddenly a hand grabbed me. “aey where do you think your going ya damn runner rapist” I starred at him & his arrogant look and heavily customized ACR bushmaster. “get the fuck away from me im leaving what ever the hell this place is” he then sprung up and pushed the barrel of his ACR into my neck. “look if you want to get devoured by those runners be my guest buddy but dont go exposing this place to the infection” I looked at him like he was retarded “infection what infection and why the hell is the army bombing populated areas” he looked at me the same way. “ where were you 2 days ago ? There was a virus it was originally H1N1 but it evolved up to 10 times now its got Chicago by the balls and its spreading across the world as we speak turning everyone into animals devouring and ripping people to shreds and then the virus takes over the dead body and brings it back as a runner also know as a fresh undead body that has the ability to run or sometimes sprint god forbid but after 2-4 weeks without food the tissue breaks down from constant use without fuel and they start to get slow and shuffle around” my mind felt overwhelmed I wondered how my parents were doing in Dallas. “so what am I supped to do here but be a waste of space” he grinned. “well you obviously know how to use a weapon and our records say you have been in the military. you cant take care of yourself out there so we will make you part of out kill squad. “kill squad ?” “ohh shit you mean you have never killed or seen any infected yet ? that means your fresh you can be put to good use in our kill team” he told me his name was henry the specialist of his team kill team Charlie-mike. He directed me to the staff sergeant who looked at me and said “well well well we got some fresh meat hope you ready for 3 months of hard core trainin cuz this wont be easy now get yo ass in the garage and clean every APC tire the armory I think the kill teams ran over a little too much runners” 3 Months later........ the training was more rigorous than the basic military stuff a the armory where there was at least a 100 others conversing and grabbing into boxes of gear. Henry took me to the gunny of the armory where he helped me choose my gear. I picked up dragon skin Kevlar with implanted ceramic & alloy inserts. I took some gloves which I cut the fingers of. My boots where the basic digital camo color probably a left over from the war in Iraq which ended several years ago when our president simply drew the troops out. And European troops and some Russians finished off the big time terrorists soon after we heard no more from any our genocidal efforts finally payed off. I went to the weapon stand where I had to fill out a ID sheet to make sure they knew I had training with combat rifles. I chose the ACR which was in stock by the thousands as a gift from the weapon companies to the American army. I pulled all the safety clips and then grabbed a eotech scope out of a box and locked it onto the rail system of the weapon. I attached a mag pull the every one of my carbon strength reinforced clips. The gunny looked at me with a grin and we left for briefing. Chapter 4 things get messy we met up in the garage of the hospital every runner hunter of this kill force a total of 300 men and women in the huge elevated parking complex of the hospital, a general arrived in the elevator his chrome glasses shined in the evening light so did the many badges pinned on his suit which fit his old figure rather awkwardly. he had two formally dressed men with him they both had desert eagles on there side holsters but the general had a FN 2000 slung around his back. it was worn and scratched its polymer body was embedded with and insignia that I did not see so well as it was obscured by the scuffs and grime he looked at us and smiled his mouth opened and he flung his cigar off the ledge of the building he then begun and explained in a dominant voice. “there are 40 spec op Humvee's set up in formation ready to patrol the streets of Chicago you all will be in sector 6 the most dangerous sector of Chicago but no need to worry we have full fledged firepower of 4 APC's which will Carrie your kill team to your objectives take as much time as needed the runners arent going any where. you will clear the sears tower area a hot spot for runners. look all you men and woman, its time to revolt and fight back. its time to say we will not be scared, we will not be intimidated, we will win back our freedom!!” the whole complex light up with cheer. As the two men in formal wear took out PDA's and started directing people to there kill teams the first man shouted “ Chavez,Williams,buck, and,Samson go to APC #1” I quickly advanced thru the crowd to APC 1 I slowed my pace and saw its matte paint job of digital camo and its pop up dillan machine gun turret mounted on top. I pounded on its steel behind and its back door unlatched I stood waiting for the rest of my team I saw all three walking in a line towards the door I saw him ,the man with the kriss super V he smiled at me and said “no fuckin way you tha yankee we picked up in tha alley way you mad cus we killed your little runner girlfriend” I sprung towards him and grabbed his collar and punched him in the stomach then elbowed him in the mouth all the color drained out of his face. “ if you wouldn't of shot me with a fucking bean bag I would of blown your brains out back at the alley” he looked at me and with blood dripping down his mouth “i was just doing my job. welcome to foxtrot 3 by my names john samson you can just call me hunter” I let him go and he limped into the APC then another walked towards me he wore a Grey baklava and tight fitting clothing and a vest that barely covered his chest which awkwardly bulged out he walked towards me and took off the mask. She looked at m surprised face and said “what ? a woman cant be in the military” “well I..I...I just did not expect to have such a high rank personnel on our team” she looked at me and frowend “were both specialists grade one my names Kelly williams” “a heavily armored male in a hijab walked towards me playfully he came up to me and pulled off his hijab he was a African American . “hey specialist now look Im basically here to keep the moral you catch me ? I was in the navy im Ricky buckman Just call me squid now what do you want to go by kid?” I smiled “echo” “nice choice” Albert “echo” chavez I thought in my head I figured that sounds good. We all jumped in the APC while a kill team of rangers in a heavy Humvee with a mounted sentry gun rolled behind us as the whole convoy of kill force 6 prepared for battle. I thought about all my training aim for the head,short controlled bursts a shot anywhere else just stunned them. They move fast so they have to be neutralized if you get bitten or infected kill yourself with the poison capsule that was given or a team mate would do it. I grabbed a Kukri blade off the weapon rack that was provided in the APC I looked at its razor sharp edge its brushed steel surface reflected no light I sheathed it and strapped it to my leg. I caught the eye of Kelly who was fiddling around with the UAV control panel she looked at me and smiled. The APC's lights blinked red prompting us that we are in a hot zone. The APC vibrated as the co pilot took out a pack of runners with the Dillon remote controlled mini gun. We all loaded our weapons and packed up some ammo. Hunter and squid looked at each other and they bumped fists. I put a clip in my ACR and cocked it I turned on the eotech scope and strapped on my helmet and then slid on a black baklava. The APC driver prompted a alarm which was the signal that the door was opening, the big metal door slowly lowered its platform to the ground and we all got out Kelly was the last one out she grabbed that control panel and slid it into her bag she ran out and flipped the close button on the APC. We met up with the four other teams in our sector who already exited there Humvee's. A black Humvee that I never knew was in the convoy rode up and a military adviser jumped out and barked orders like some scared little dog and then jumped back in glad that he wasn't us. He positioned eight snipers on the roof who where each divided into teams of four they zip lined up the roofs and soon each team where picked up by two little bird helicopters the rest of us where on the ground either Humvee calvary hit teams or long range grenade support foxtrot was positioned on the magnificent mile at least it was magnificent. We cautiously walked down the street with another team of 6 watching our back and little birds with snipers covering us and telling us where the nearest pack is. It was empty until we got a report a pack of twenty runners where heading straight for us about 3 blocks away we had about a minute to prepare, snipers took out some and only six broke there steady aim and where 5 feet away, I drew my weapon and just before I could fire a Humvee rammed half the pack of runners over my team shot at there heads to finish them off . I stunted back and fell startled by a runner with broken legs dragging its smelly corpse towards me, my team did not even notice as they where pre occupied with finishing off the pack it grabbed my boot and pulled itself onto my chest I pushed it back and hunter tackled it and shot it once it grazed its ear he then rad up to it and curb stomped its head in over and over, like an egg it crunched under his boot he then walked towards me and picked me up and then our comm's screeched with a danger code: sector red REPEAT SECTOR RED!! this is not a drill!! squid looked at Kelly “OH shit radio the APC radio the APC!!” Kelly hastily radioed the APC and it arrived around the corner ASAP she got in and took the panel out of her backpack all the rangers got back in there Humvee's and formed up a line of vehicle's and the APC was in front we all jumped in and squid popped open 3 of the four combat hatches. We took stance and poked our body's out of the hatches while Kelly was typing away at the panel. “Kelly get us that predator drone NOW!!” “on it Echo..about.....NOW!! get ready for some boom boom boys” she said over the comm a predator drone deployed from a building somewhere and roared across the city's night sky. The little birds shot flares into out immediate area and the military advisor said nervously over the comm “formation green zone ASAP make space for one more hummer!!” his hummer screeched into our circle formation at the middle of the block intersection. We all could hear the uproar and the screaming rage of the Runners it was 9:00 PM and my stomach dropped as runners came at us from every angle swarming in between all the vehicles as we took out as much as we can the advisor yelled. “Break formation head for lane 3 of sector 5 Kelly yelled “but thats a dead end we have no where to go !!” “exactly now MOVE !!” we hastily rammed out way thru the crowd of runners it was easily about 200 to 300 runners we reached the street which was a dead end it was blocked by a collapsed building from all the beach bombing runs. We waited for 5 minutes until we saw it our doom three times as much runners appeared and headed for the convoy. The driver looked bewildered “Get ready im breaking position” he advanced the APC towards the crowd its massive tires gripping the rubble and concrete so agile and quick. He opened fire the Dillon mini gun until there was not one round left. the APC swiveled madly like a dog chasing its tail, all the blood and body matter stuck to the tire made it impossible to control. The whole interior rocked forward on impact with the flipped car. suddenly a screech and the APC flipped over on its side. the runners ignored the APC and went for the group of Humvee's ripping the rangers out that had not locked there Humvee door and devouring them. We herd the screams despite layer after layer of Kevlar and Armour of the APC. My radio started to squawk. “ Pindad Panser down repeat,flipped on its side calling in little bird for support !! bring in UH-60 shadow for medivac ASAP!” I groaned in pain the impact was hard,i could taste blood in my mouth my world was spinning. my team mates did not move they where all laying face down. I soon passed out Chapter 5 delta crimson “Delta crimson GO GO GO !!” I awoke in a sweat, I felt normal again I wiped my blood crusted face off. I leaned up and saw them. “Squid Kelly Hunter Your all alive !” hunter smiled “the crowds not givin up. Hurry mate we got to get outta this APC or crimson is just gonna have to save us” Crimson was an elite rescue squad of some of the best rescue force members in the military marines,rangers,green berets, you name em they can save you. Suddenly we heard the roar of helicopters. Then the door of the APC light up and blew of its hinges a soldier in a crimson baklava shined a light me and my team he latched two metal hooks onto our APC and then the helicopter lifted us into the air, this vehicle the best attack helicopter crafted by the engineer crew over at Hudson base they called it the Shadow because thats all it was, a quick killer in the night. A man made machine manufactured to kill and thats what it was best at. I broke for the chopper and jumped in then squid then Kelly it started to take off right before it left ground hunter grabbed the bay door and climbed in. “forgetting something ?” He threw me my ACR bushmaster which started to look like the generals FN 2000 it was scuffed and marked in every crack and crease. A crimson medivac specialist handed us some refreshments and snacks he said he picked it up at his last raid. He gave me some meds, adrenalin shots use them as a last resort of energy he said. I looked at squid who was holding his dog tag “ man echo you see how that APC flipped on us I almost crapped my pant's” I laughed at the joke even if its not funny my team needs the moral. I looked it the pilot he caught my stare. “where going to the main objective” I sighed and looked away hunter looked at me and made some type of hand signal. “hey Kelly you think we could of died back there” “easily hunter luckily the runners did not find our APC interesting” I looked over at Kelly who was looking at the cracked screen of the control panel. “hey Kelly what all did you use that panel for” “i saved the whole platoon with this thing while you where taking a nap, now its gone and base is a long fly away. The screen broke when the APC flipped. And the predator drone crashed without me controlling it” “damn, nothing good ever lasts long does it” “well echo thats not true your still alive aren't you ?” I we both smiled and when the happiness broke it was back to work. chapter 6 Raid The shadow landed on the roof of a building about 3 blocks away from objective R.R.T.R (runner ruled territory raid) our forces had to kill all runners and take back the sears tower. Kelly was stationed on the roof with hundreds of other snipers .with her barret M82 which ripped into 2 to 3 runners at a time with its large caliber amour piercing rounds. Military advisors sent Ground troops they marched the streets for the main attack on the R.R.T (runner ruled territory). Soldiers of all pact creed and faction marched side by side. the ISF (Iraqi Security Forces) the IRA (Irish Republican Army) even the CIA and DEA forces were marching along with whole police precincts including the bulk of the U.S military. This battle was inevitable and we are going to win.
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