Originally Posted by G O R T Electrostatic air cleaners incorporate negative ionizers.Suspended particles are clumps of molecules.The ionization energy of nitrogen and oxygen are quite high.Organics compositions are lower and most metals are much lower.It is obvious that many electrons end up on larger particles, possibly because a particle containing thousands of electrons is not disturbed so much as a molecule having only 16.

There is a point at which increasing hardness makes a metal functionally weaker for many purposes. My only point is that I suspect this effect works best for particulates rather than gas phase molecules. You need to read up on metallurgy, I guess.

Things like crystal structure is important as well, which is how (I think) processes like annealing work. The idea that anions can enter the body through breathing without losing their charge certainly seems to be woo, but specific claims need to be made. OK fair enough, though in the case of anion formation it would be electron affinity that would be important rather than ionisation energy. Related Discussions:Hello Ya’llHow many people are on drugs?Can you survive having a metal mask melted on to your face?Medical MarijuanaCAT Scans = Much more radiation exposureMass of air in lungsSolid air!What is clean air ?Do our lungs extract more oxygen from cool air?chemistry changes due to radioactive decay As has been said, fabrics/fibers and also ceramics have more potential. It is, isn’t it.

A lot of people smith their own plate/maile if that is what you are interested in. I have my doubts that it could remove say traces of an organic vapour from the air. The best you could do is melt down a bunch of aluminum cans into a funny hat and take it to a proper facility to have it anodized. Agreed. When I bought it, I had to sign a paper saying I acknowledged it was not the seller’s fault if got my hand stuck in some kind of machinery and a rescue crew had to remove my finger to free me.Now THAT’S my kind of wedding ring.

Originally Posted by G O R T Originally Posted by exchemist [OK fair enough, though in the case of anion formation it would be electron affinity that would be important rather than ionisation energy. Electrostatic air cleaners operate the same way but also provide positively charged collection surfaces for charged particles to stick to. Originally Posted by G O R T A functioning device cannot be based on pseudoscience. How do you make a strong metal like titanium?

With titanium. Originally Posted by warownslife first guy- hahaha. no no, just strong metal. I think some of the strongest and lightest materials are composites rather than solid metals.

So, I want to start by learning how to make strong metal.second guy- A. i know titanium is an element. Of course if you want specific strength, then it is hard to beat (strength/density), except maybe carbon fiber composite. I don’t care, any diatomic nitrogen and oxygen that do not lose extra electrons to airborne particles simply lose the electron to a surface they contact. There are also a lot of devices that work just fine – but people ascribe pseudoscience results to them. We have much harder metals than steel, but the best metal for swords is still various types of steel.Also, making a slash/bulletproof breastplate isn’t that effective.

Originally Posted by warownslife This might be the wrong place but how do you create stronger metal (or material)? I have a bunch of steel in my house but their not all of equal strength or even type. The catalyst would perform the permanent separation. I was wondering when youo breathe in pollution do your lungs clean themselves eventually when exposed to clean fresh air? first guy- hahaha. no no, just strong metal. Any effects on the human body remain unproven scientifically.

Swords, for example. You don’t “make” it. or the fabled admantium that wolverine has. Elements used inlcude: carbon (always present), manganese, phosphorus, sulphur, silicon, manganese, nickel, chromium, molybdenum, boron where to buy a essay
, titanium, vanadium and niobium. My only point is that I suspect this effect works best for particulates rather than gas phase molecules. Originally Posted by G O R T Electrostatic air cleaners incorporate negative ionizers.Suspended particles are clumps of molecules.The ionization energy of nitrogen and oxygen are quite high.Organics compositions are lower and most metals are much lower.It is obvious that many electrons end up on larger particles, possibly because a particle containing thousands of electrons is not disturbed so much as a molecule having only 16.

Use unobtainium , its cheaper The problem with gasses is that they would resist permanent separation without being confined. Part of the problem is that strength isn’t just hardness. Anodized titanium will make mince meat out of carbide bits, ceramics will work, but will cost a hefty sum, not including the cost of the titanium itself $20 or more sometimes for just scrap titanium, and the thousands you’ll spend on machines. And I’d prefer stab proof and eventually bullet proof. Some carbon and silicon particles can become embedded.

There are plenty of perpetual motion machines out there that function but do not do what they claim to do. I have my doubts that it could remove say traces of an organic vapour from the air. And I’d prefer stab proof and eventually bullet proof. Sure it can.

The electrostatic charge makes them attracted to surfaces with Earth potential. Lately I have had an obsession with clean living, fresh air, and avoiding pollution.. One of the first uses for ionizing electrostatic air cleaners was to collect waste sulphuric acid vapors from a DuPont chemical plant.Of course acid vapors would be in the form of tiny suspended droplets. B. yes, i know, it was a joke.C. what would happen if something was made out of pure carbon?

Silicon particles cause the miner’s disease known as silicosis, carbon particles cause a similar disease called black lung. If you are actually curious about designing new materials, though, yeah that is a big field. However simple air filters (i.e. a fan and a filter) have been proven to be more effective. I.E, this isn’t going to work. The idea that anions can enter the body through breathing without losing their charge certainly seems to be woo, but specific claims need to be made.

Ozone is harmful to living things, including bacteria and humans. (Which is one reason ozone generators are used in hospitals.) Meh, vibranium is stronger.On a more serious note, I’ve noticed a trend moving away from metals for armoring individuals. Now an anion of some specific gas may form a new affinity for some catalyst that it normally would not. It’s an amazing and growing field. Negative ion generators charge a pointed tip with high negative voltage. People are wearing bulletproof fabrics in the field, not the armor suits of medieval knights.If you’re ACTUALLY interested in pursuing the science behind this and not just some teenager who think prepping for the zombie apocalypse is “cool”, I would suggest looking into materials science as an advanced education.

Pretty simple. You don’t really need to worry about those though because even city air is not bad enough to cause them.A bigger concern would be ozone damage and damage from unburnt hydrocarbons.These are likely as bad for you as breathing second hand smoke in a crowded shabby old blues bar would be.It isn’t so much the accumulated debri in this case as it is the scarring and other cellular damage the pollution causes.Anyhow, since I am not a medical expert in lung diseases I will give you a link to The Canadian Centre for Occupational Health and Safety (CCOHS). One of the first uses for ionizing electrostatic air cleaners was to collect waste sulphuric acid vapors from a DuPont chemical plant.Of course acid vapors would be in the form of tiny suspended droplets. On that note, by wedding band is titanium. Originally Posted by Strange Originally Posted by warownslife C. what would happen if something was made out of pure carbon?

It depends:Graphite – Wikipedia, the free encyclopediaDiamond-like carbon – Wikipedia, the free encyclopediaAmorphous carbon – Wikipedia, the free encyclopediaGraphene – Wikipedia, the free encyclopedia thats cool. Part of me wants to dip into blacksmithing weapons or plates for armor, etc. Any effects on the human body remain unproven scientifically. Ionizers are used to clean the air of various particles now including germs.

I have my doubts that it could remove say traces of an organic vapour from the air. This might be the wrong place but how do you create stronger metal (or material)? I have a bunch of steel in my house but their not all of equal strength or even type.

Part of me wants to dip into blacksmithing weapons or plates for armor, etc. The catalyst would perform the permanent separation. How do you make a strong metal like titanium? or the fabled admantium that wolverine has. how to create (from home) a strong material or metal?

How do you make a strong metal like titanium? Titanium is an element. My only point is that I suspect this effect works best for particulates rather than gas phase molecules. Titanium is not that strong.

6-4 is pretty good, comparable to some high strength steels, but there are much stronger steels and cobalt alloys. Ozone will be created by any ion generator; there is no way for ions to “skip” oxygen molecules when deciding where to bond. B. yes, i know, it was a joke.C. what would happen if something was made out of pure carbon?

Ever worked with titanium? I have, and it’s not a terribly workable metal unless you have some very expensive bits. Originally Posted by warownslife C. what would happen if something was made out of pure carbon? It depends:Graphite – Wikipedia, the free encyclopediaDiamond-like carbon – Wikipedia, the free encyclopediaAmorphous carbon – Wikipedia, the free encyclopediaGraphene – Wikipedia, the free encyclopedia Originally Posted by fizzlooney Use unobtainium , its cheaper But currently out of stock. Originally Posted by warownslife or the fabled admantium that wolverine has.

The problem with gasses is that they would resist permanent separation without being confined. You do realise that is fiction, don’t you? Are you really asking how you create adamantium at home? lol It could be that the affected particles require a lower ionization due to their composition including certain atoms.

So, I want to start by learning how to make strong metal.second guy- A. i know titanium is an element. If you want a breastplate for historical recreation or costuming, don’t worry about making it bulletproof. Which is damn near impossible when you live anywhere near Chicago, IL like I do. but… But a late medieval breastplate designed to fit you is remarkably easy to maneuver in if you are experienced and reasonably strong.

They have a fairly nice ansd easy to understand page about it there.What are the Effects of Dust on the Lungs? : OSH Answers Yes, but your lungs can’t get rid of absolutely everything. The strength of steel depends on a number of factors such as what other elements are present in what proportion. Now an anion of some specific gas may form a new affinity for some catalyst that it normally would not. Originally Posted by exchemist [OK fair enough, though in the case of anion formation it would be electron affinity that would be important rather than ionisation energy.

Yes that all seems to make sense, thanks. A knight should have been perfectly capable of mounting and dismounting his own horse in his armor no sweat. If the electric field (voltage @ distance) is too strong, some ozone is created.

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What will stop blunt force, a bullet, a slash, and a stab most effectively are different types of weaves, too. An armor that can stop all of that is probably going to be heavier than something you could fight in.

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