Homebuilt 1300°C tube furnace

Quote: Originally posted by peach

The economical part will be of interest to a lot of people, as pure alumina tubes of a similar size are roughly five or ten times more expensive. As Quartz is usable to only 1100C before mechanical problems start, there is a strong incentive to avoid the pure alumina materials if at all possible.

Quote: Originally posted by peach

I noticed GC and Magpie were having problems getting their cement to stick to the elements and discovered an interesting snippet from this site;[/url] Electrical Elements New elements have a greasy residue left from the wire manufacturing process, which may cause the ITC 213 to flake off if not removed. One method is to pre-fire elements after stretching for 5 to 10 minutes to achieve at least cherry-red glow. If this is not possible, the elements can be heated in a furnace or kiln at 700oF for 30 minutes. Allow to cool. The ITC 213 can be applied as described above or can be applied by dipping. Using a wide shallow pan, empty the ITC 213 into the pan and add 1/3 water, mixing well. Dip the entire element except for the lead wire into the ITC 213 mixture. After dipping, shake the element to remove excess coating and hand to dry for several hours or overnight. The elements are now ready to install.

Quote: Originally posted by chief

Just to share 2 Ideas (not from me, but tricks of the trade) on reaching really high temoeratures: ==> up to 1700 [Celsius]: Mo-wire around Al2O3-ceramic-tube [also commercially available as furnaces] ==> up to 3000 [Celsius]: Wo-tube, current directly through the tube The latter may be adapted,using cheaper stainless-steel-tubes (limited lifetime, but throw-away available from hardware-stores), which should hold up to 1300 [Celsius] too; then it would be only a matter of contacting them, wrapping some isolating-mat (even maybe rockwool) around them. Since the resistance rises with temperature the electrical power would be dissipated within the isolated zone, contacting therefor should be easy enough (if necessary through welding). As power-supply: One thick additional secondary winding around the welding-transformer, eg. . Within such stainless-steel-tubes then, at lower temp., even pressure-experimentation could be done (catalysts in the tube, have fun making HNO3 etc.), since in the hardware-store there are also other stainless-steel-components available,usually to make waterpipe-connections etc. . Maybe someone could succeed in Fischer-Tropsch-gasolining from coal-water (50 Bar, 200 [Celsius]) ? [Edited on 8-10-2008 by chief] [Edited on 8-10-2008 by chief]

Thanks for the video MR!

Graphite is used in commercial furnaces that need to reach 3000C and where a direct arc, plasma or flame aren't acceptable.

That is a ridiculous temperature for the majority of what people on here will want to do, and expensive to cater for (it'll boil aluminium oxide and melt magnesium oxide & zirconium dioxide ).

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[Edited on 22-6-2011 by peach]

Quote: Originally posted by peach

Quote: RCA Tube 35 mm O/D X 28.8 mm I/D alumina X 1000 mm long at unit cost £36.00 (1 in stock) Pythagoras tube 29 mm O/D X 23 mm X 760 mm long unit cost £5.50 (100 in stock) Six times cheaper. These prices don't include VAT, which is currently 20% in the UK. 36 pounds becomes £43.20, which is about $70. Plus on the delivery, $86 ish. [Edited on 21-6-2011 by peach]

Quote: Originally posted by garage chemist

I have a method for cutting pythagoras tubes at home. It involves two persons, one is holding a powerful angle grinder with a disc for cutting concrete, grinder sitting on the ground and disc facing upwards, and the other one holds the tube to the spinning disc while constantly rotating the tube, slowly cutting deeper with each rotation. There is a little chipping at the cut, but after cleaning up the cuts with a diamond grinding bit only about 1cm of tube is lost. I agree that you should always let the supplier do the cutting if possible as this method is obviously somewhat dangerous both for the tube and for the workers, though I've made several cuts this way and never broke a tube.

Quote: Originally posted by peach

It's funny, imagining things I've bought sitting on a seat in the plane on their own, being served drinks with their safety belt on.

That's damn funny, peach.

I've cut the tops off assay crucibles (mullite?) using a masonry/concrete blade in my table saw. This gave a fairly clean cut.

[Edited on 25-7-2011 by Magpie]

Nah, you're not getting a decent formed, taper quartz tube with caps via eBay any time soon!

The average 'home chemist' is far more interested in making kEwL thermite than doing anything involving quartz.

My mullite tube is about 29mm ID I think, and it's 460mm long. They usually come as 760 or a metre. Most companies only do things by the stick or sheet; even though they'll chop it up, you have to pay for the whole length.

I am about to order a quartz liner myself and the guy who's making it is doing it for a reasonable price. If you can decided what size you want yours to be within a week or two, I may be able to get him to do it cheaper by adding more to the order. He also has quartz wool, can make the custom tubing adaptors, boats and all that stuff to go with it. I think mine is around a hundred pounds for the tube, caps and some wool.

As far as Anderman go, I think you'd be better firing up your fingers on the phone's keypad. The guy I spoke to also gave me the wrong email address over the phone.

I've had the vacuum people on the phone three times now, to repeat my card number. My last experience with another vacuum company was the same, and then I got a letter from my bank telling me they wanted money I'd already given them. Some companies have not joined the high tech era of the pen and paper note.

[Edited on 26-7-2011 by peach]

Furnace up to 1200-1300C

Yeah, I understand Im looking a simple solution for complex task. I dont need pharmaceutical performance though, I just need reduce some calciums and other stuff which should go in quite harsh conditions, compare to mining industry.

I have following design in mind (ATTACHMENT)

a steel cooking pot in
cover it with clay of 1-2cm thick
put charcoal in the mantle
add another layer of clay of 0.5-1cm thick

Cover the lid with same structure

Would this reach 1000-1200C temp with LPG gas burner? Should the bottom be covered with clay layer too, would this hinder the delivery of energy into the container?

Well, this wouldn't be just for few uses. I was actually planning of using this for several different processes, including those with catalysts. Lead in one tube, catalyze, and lead the products out and cool. Cool.

I made a little adventure to my local junkyard and found a 60-liter aluminium cylindrical tank. An idea came in my mind to coat it with ceramics from inside, make holes at the bottom for the burner, a top at the middle for the canister to sit and vent holes at the top and then the lid. This would be the primary can, and I may coat this with rockwool after then.

My idea is to use common wood coal as an alternative for the gas burner. Big pack of it like 5kg costs a few quid and that should give rather nasty temperatures and kilowatt-powers when I install line fan to blow air at the bottom of the burning coal.

Another of my idea was to insert the crucible itself into this thing, which is coated with clay and stuff and has an nichrome electronics inside it, so if the outer temp is 900C, I will need only small boost with electricity to reach my 1000-1300C.

I planned on using common concrete, but it seems that it only sucks up all the heat, so I've got to look for fireclay, at least to cover the interior. Hope it aint that nasty priced shit I saw at my HW store last week... -___-

Quote: Originally posted by testimento

My great-looking patent of that glue-like al2o3 paste just failed miserably. And it looked so fine when it was wet.

I'll do so then. Had it in my mind on the way.

Quote: Originally posted by batsman

I have heard that you can use asbestos paper, but there has to be some substitute to it

Quote: Originally posted by jock88

I presum that Moly D could be run from a variac

What do ya all think of this one?

http://www.ebay.co.uk/itm/Silicon-Carbide-Heating-Element-1-...

It is a Silicon Carbide heating element 5.37 ohms , 1.25 inches diameter and about 15 inches long (I think). and costs 100 bucks
What power would it put out?

TIA

Quote: Originally posted by testimento

Silicon carbide elements are good for up to 1600C and I saw them sold in China for decent prices. Ni-chrome wire will melt at 1350C. I'm looking for good ceramic lining material for high temp furnace. I was planning of making the body from CaSO4 because it is very cheap and withstands temps up to 1300C easily. But I was looking something more refractory for the surface, and I came up with an idea to use aluminium oxide and potassium/sodium silicate paste. Should this work? [Edited on 16-2-2014 by testimento]

Quote: Originally posted by Cheddite Cheese

At 120 V, 2.68 kW.

Gouging rods as heating elements

Reading up on using graphite rods as heating elements shows that they are only good to about 500C when used in air.
They are good to 2000C if used with an inert gas.
Anyone care to comment on the following scheme to put gouging rods into a home furnace. The rods will be surrounded with quartz glass, the rods I have fit nicely into tubes with a small amount of play. A copper rod is machined and drilled so the the gouging rod fits up the middle and is clamped for a good connection (the copper rod being cut with a hacksaw at the back like a collette). The quarts tubes also sit into the copper end. Argon gas (very small amount) is bled into the tubes to keep the gouging rods from burning.
Cooling water could be run through the copper ends if necessary.
The diagram may explain things better and shows just one end of one element. Four elements can be run in series and the whole lot run with a pid and an oil cooled welder (or a few rewound microwave oven transformers).
The elements are ghetto and good to go to 1800C or so (until quarts starts melt).

Quote: Originally posted by jock88

Hi, Is Kanthal A1 compatible with Quartz glass tubes? Is it OK to place a wound element inside the quartz glass tubes that can be had discarded in old domestic heaters. TIA

Quote: Originally posted by JJay

Snip I just built a fairly humble tube furnace. It is only 500 watts and 12 inches long. I simply wrapped one layer of ceramic paper around a 1 inch black iron pipe and fixed it in place with wire and then wrapped it with nichrome. Then I placed several additional layers of ceramic paper around it and held them in place with wire and put it into a box made with firebrick with the power supplied by a triac dimmer. I had a similar one that was twice as big with 1/3 the wattage with less insulation up to around 850 F yesterday, so I'm quite sure that this one will get really hot. I have a couple of 120 cm quartz tubes that I can place in it. My target is 1000 C. I bought some alumina boats, but they don't seem to quite fit into my quartz tube, and I'm not sure what to use to grind them down to size (I suppose a diamond grinder would work). Given the simplicity of construction, I will post pictures later.

LoL, it wouldn't create an arc - it would create a short circuit, which would blow out the triac long before melting the insulation. But anyway, that's actually not likely to happen with careful construction. And actually, materials become *less* effective conductors when they heat up. I'm not mocking you, but I'm not sure what makes you think you are competent to give advice on these matters... have you built a tube furnace, wg48?

I have 120v elements and yeah, only a mm or so of inside insulation and about 10mm outside plus some refractory brick. I guess I should mention that I doubled up the inner layer of ceramic paper at the ends to keep it from breaking down under the steel wire, and I didn't wrap the heating element very tightly. I think it might be possible to heat it to 1300 C but I don't have any specific plans that would require such temperatures... I think the tube furnace could be used to make phosphorus but have no plans of doing so.

Incidentally, the iron pipe / asbestos (ceramic) paper plan came straight out of Vogel's Practical Organic Chemistry, although I had to make some modifications for higher temperatures / lower voltage / less use of carcinogenic materials. I'm not saying my furnace is as good as garage chemist's, but it sure was easy to build.

Here it is running at around 800 C. I'm burning it in so that it won't fume when I use it in regular experiments (burning off pipe paint, wire coatings, masking tape, etc.). Oh and, the quartz tubing is actually pretty close to ambient temperature at 30 cm away from the heating element.




[Edited on 26-2-2016 by JJay]

Quote: Originally posted by JJay

LoL, it wouldn't create an arc - it would create a short circuit, which would blow out the triac long before melting the insulation. But anyway, that's actually not likely to happen with careful construction. And actually, materials become *less* effective conductors when they heat up. I'm not mocking you, but I'm not sure what makes you think you are competent to give advice on these matters... have you built a tube furnace, wg48? I have 120v elements and yeah, only a mm or so of inside insulation and about 10mm outside plus some refractory brick. I guess I should mention that I doubled up the inner layer of ceramic paper at the ends to keep it from breaking down under the steel wire, and I didn't wrap the heating element very tightly. I think it might be possible to heat it to 1300 C but I don't have any specific plans that would require such temperatures... I think the tube furnace could be used to make phosphorus but have no plans of doing so. Incidentally, the iron pipe / asbestos (ceramic) paper plan came straight out of Vogel's Practical Organic Chemistry, although I had to make some modifications for higher temperatures / lower voltage / less use of carcinogenic materials. I'm not saying my furnace is as good as garage chemist's, but it sure was easy to build. Here it is running at around 800 C. I'm burning it in so that it won't fume when I use it in regular experiments (burning off pipe paint, wire coatings, masking tape, etc.). Oh and, the quartz tubing is actually pretty close to ambient temperature at 30 cm away from the heating element [Edited on 26-2-2016 by JJay]

Quote: Originally posted by JJay

Umm... let's see here.... The coefficient of resistance of both quartz and alumina is extremely close to 0. There is minimal risk of loss of resistance from temperature. Snip .

Quote: Originally posted by wg48

I found the link http://www.vtt.fi/inf/pdf/tiedotteet/1996/T1792.pdf Page 11 starts the electrical data Thinking about it if you don,t ground the tube (I don't recommend that) it will approximately half the voltage across the tube insulation. If you have an ohm meter you could check the resistance between the tube and element cold and hot dis connected from the mains of cause.

Quote: Originally posted by JJay

The breakdown voltage is more than 1000 volts / mm at 1400 C. The surface area between the nichrome wire and the ceramic paper is tiny, so the volume resistivity changes, while interesting, are not significant enough to lead to problems, even at 220 V. Please stop spreading disinformation.

Ready made furnace elements ((reporposed)

Below is a pic of a heating element extracted from an old ceramic hob. Presumable good to red heat temperature perhaps higher if the watts is reduced. It could be repurposed as the heating elements of a furnace.

Sorry a bit off topic but is related.

This is my second attempt to post. Does attempting to post two pics crash the system?

The glass (possibly fused quartz) tube across the diameter of the element had me intreaged. It appears to be a thermal cut out operated by the deferential expansion of the glass tube to a metal bar inside the tube. I surprised the difference can operate the micro switch type of mechanism at the end of the glass tube.





[Edited on 4-3-2016 by wg48]

NoobTube Furnace.

I have been sucked into the furnace fever but I don't want it to be a major project / cash burner,
also, I have no space for a permanent setup and I can not carry heavy stuff,

so, approaching this project impetuously, I now have 10m 20awg (0.81mm) Kanthal A1 wire, which is c2kW at 240 Vac.

My plan is to wrap the wire around the centre part of a quartz tube, 26 mm id x 893mm long, c100 turns, c200mm winding length.
http://www.ebay.co.uk/itm/160998873534?_trksid=p2060353.m143...
and rely on the poor thermal conductivity of quartz and air,
supporting the quartz tube horizontally at its ends with some kind of heat transfer/cooling (tbd)
I expect radiated heat loss to limit the maximum temperature to below 1000 C (I may try insulation later)
Anyone tried quartz tubing meant for uv tubes ?
Is there any reason to doubt that these tubes are fused quartz ?

My main problem (apart from no experience and little research) is measuring and controlling the temperature.
I have a Rex C-100 temperature controller with 40A triac that would suit, but which thermocouple to use?
Type-K (1350 C max) would be simplest.
Can anyone recommend a CHEAP/eBay thermocouple that is likely to survive say 1000 C for extended periods ?
The wire and junction are not a problem, I can make my own, its the insulation that's a problem.
Worst case I'll just physically separate the wires.

If I change my mind about the quartz tube
then the Kanthal wire will probably be used as a heater for either flasks or a fractionating column,
or just rest amongst other project seeds

A simple electric oven temperature control and thermo sensor placed inside the pipe but outside the blankets will control theses devices. Just recalibrate the temperature marks with the melting points of lead, tin, silver etc

Quote: Originally posted by Magpie

PID (proportional-integral-derivative) controllers can be had for very low cost off e-bay. I built a control circuit for a small relatively low temperature furnace using a PID controller and a solid state relay. It works quite well. You can see it in my last picture at: http://www.sciencemadness.org/talk/viewthread.php?tid=2171&a...

Yes, i searched for a ceramic tube about a year ago and found it here in my country, but i passed becouse it was about 80-100 euros, before shipping.

Thanks for your response.

Here is a stoneware tube that I made by putting successive layers of slip onto cardboard. It is crudely constructed, will shrink when fired, and is surely not as heat resistant as fused alumina or pure mullite, but I think it will do the job.

[Edited on 28-3-2016 by JJay]

Quote: Originally posted by JJay

I am pleased to announce that I have successfully made aluminum chloride with my tube furnace.

A write-up would be far more interesting than an announcement.

Quote: Originally posted by experimenter_

Is it possible to use the quartz tubes that can be found inside the infrared heaters (common household appliances)? According to wikipedia, some heaters operate at 1500 °C. They emmit infrared. I think it is quartz glass right? Also the lamp inside the heater is called "qurtz heat lamp". Typical tubes are 30cm length with 1cm diameter. Maybe they can be repurposed to be used in a tube furnace.

Quote: Originally posted by yobbo II

Why are high temperature high Alumina bricks so expensive? It's only Alumina? http://www.ebay.co.uk/itm/INSULATION-BRICKS-230-x-114-x-76mm... .

Using a quartz resistance from a toaster oven/microwave grill, removing the resistance from the inside, and wapping it arround the outside of the oven, then drilling a hole the size of the tube in a refractory brick, and inserting it along with a thermocouple, a really cheap, but small one (my tubes are 1cm diameter, and 30cm long)

However, to me it seems to good to be true, and since im such a beginner in all of this, asking seemed like a smarter option than going ahead and doing it.
So, what is the wrong thing with this idea that would make me fail?

The resistance wire may need to be changed so that it doesnt melt.

[Edited on 19-7-2017 by ficolas]