Sciencemadness Discussion Board

Anyone working with Vycor or quartz glasses?

Bert - 11-2-2018 at 11:12

I have a high temperature project, and think I can source the parts. But I have never worked these high temp materials. Anyone equipped for and experienced in working these materials? This needs to be done on a shoestring... I'd rather start looking here than asking around in China.

Morgan - 11-2-2018 at 13:35

Are you going to use tubing or some other shape like a test tube or something else?

Bert - 11-2-2018 at 14:24

Basically, using a commercially available closed end tube, stock tubing and commercially sourced ground joints to counterfeit Hennig's oleum retort- But with some modifications.

The output being a 24/40 male ground joint to allow a better exclusion of atmospheric moisture, the top closure a 55/50 female joint with a quartz plug closure and the main body of the retort sized both longer and larger in Dia. (24" working length below arm, 2" OD, approximately) inside Dia. of main tube relative to the top closure should allow the slug of Sodium sulfate waste to just be able to slide throuh and exit the top 55/50 neck after cooling.

See here for Hennig's retort:

http://www.sciencemadness.org/talk/viewthread.php?tid=5495&a...

files-4.jpg - 224kB

Magpie - 11-2-2018 at 15:12

I have a 1" quartz tube, closed one end, about 18" long that I bought for making SO3. It has a ground glass opening which attaches to a tapered borosilicate glass piece that conducts the SO3 into a receiver. The tube fits in my horizontal tube furnace. The tube end is male so material expansion differences have no effect. I have this documented somewhere on this forum.

Bert - 11-2-2018 at 15:47

D'oh!

Reconsidering which sex joint for the openings. Thanks-

Magpie - 11-2-2018 at 15:54

Actually Bert I mis-spoke here. Both pieces are quartz. Please see picture in this thread:

https://www.sciencemadness.org/whisper/viewthread.php?tid=10...


JJay - 11-2-2018 at 16:41

I have a quartz distillation flask with ground joints and two ground quartz tubes. I have been considering the construction of a fairly large tube reactor, and I think Magpie's suggestion to use male joints on the sections that point away from the hot zone is a good one, if the joints will interface with quartz, especially if hot substances will be flowing through them.

Chemetix - 12-2-2018 at 02:05

I have designed and built quartz reactors for research, if you need specific details about something I could possibly be of assistance. But your proposed use of a 55/50 quartz joint is expensive as hell and large joints are prone to freezing. Quartz is quite brittle, the force you can use to unstick a borosilicate joint can often destroy a quartz piece.

Making a thick lip on the vertical tube and forming a V shaped plug to sit in this rim, can be then made to seal with a bit of hand grinding with some silicon carbide grit. Some lugs and springs to hold them together should be enough to seal the apparatus given the low back pressures. It's crude but bullet proof.

markx - 12-2-2018 at 04:03

I've worked a lot with quartz rotary tube and fluidized bed chlorination reactors during my time in the research of "carbide derived carbon".....it is a difficult material to manipulate. It can resist reasonable compressive loads (as load that is applied to a tube wall from the outside), but the opposite will definitely lead to cracks in the quartz tube. It was quite a hazzle mounting a 2,5m long quartz tube into the reactor without breaking it and then installing the magnetic rotary head, heat shields and graphite bushings....it was an interesting time :)
But long story short....we searched for quite a time to find a replacement for the quartz reactor core material, but no reasonable alternative could be found in the field of metallic materials. All of them would corrode very fast in the high temperature chlorine environment and even quartz glass itself was attacked by the halogen and eaten away quite fast. Within about half a year the reactor core would wear so thin it collapsed under its own weight.
But perhaps in the case of oleum a metallic material could be found as a replacement for the quartz retort? Something from the field of stainless alloys e.g? It would be so much more easily workable compared to making equipment from quartz...

Magpie - 12-2-2018 at 04:58

I have made SO3 using a 1" quartz tube 18" long in my homemade tube furnace. It's a piece of cake using NaHSO4 (a pool chemical). Garage chemist has instructions in Prepublication. The temperatures just aren't that high.

Bert - 12-2-2018 at 09:16

(Scratches furiously with dull pencil on back of envelope, answer: More than I would ever need...)

50 lb. sack of Sodium bisulfate on ebay, $100.00 delivered...

JJay - 12-2-2018 at 09:37

I use this flask for sulfuric acid. The cap, which is quartz, is made of a material with a very slightly higher coefficient of expansion than the rest of the flask and can be removed only when the flask returns to room temperature.

I did not request a cap with a slightly higher coefficient of expansion and have not seen them offered anywhere, but it seems like a reasonable feature for a male jointed cap.

I have not used it for oleum yet, but I am pretty sure it will work just fine for that.

files.php.jpg - 13kB

Quote: Originally posted by Chemetix  
proposed use of a 55/50 quartz joint is expensive as hell and large joints are prone to freezing. Quartz is quite brittle, the force you can use to unstick a borosilicate joint can often destroy a quartz piece.



That is very interesting. I was thinking about using a large quartz joint also. I have noticed that very large quartz pieces often interface using planar surfaces held together with clamps.

Looking at materials, and trying to understand their physical properties? Also the terminology.

Bert - 12-2-2018 at 11:17

Glass and Glass Ceramics- physical properties from MakeItFrom.com

Anyone got hands on experience with Vycor or Chinese Vycor knock offs as far as robustness in handling vs. quartz glass?

Vycor was a Corning copyrighted name for a modified glass, 96% silicon dioxide, 3-4% Boron oxide after chemical leaching of a starting material similar to borosilicate glass. After fusing the porous, acid leached substance, I find a number of sources calling this material FUSED QUARTZ. Which was confusing me... A lot of the Chinese product is billed as "fused quartz (vycor)" in particular. Is the name out of copyright? Are the Chinese just using a word that gets them more Google hits, regardless of manufacturing technique and chemical makeup... I've run into THAT before.

Young's modulus listed for Vycor as 6.62x1010 Pa. Poisson's ratio .19, but that probably varies with WHICH Vycor.

Quartz glass, either from natural quartz or synthetic is advertised as 98%+ Silicon dioxide. Good thermal expansion coefficient, good chemical resistance, high melting- and a pain in the ass to work due to brittleness, as noted by some here.
There are at least 4 different types available, largely based on SiO2 source and processing.

Young's modulus for quartz glass (type not specified) listed as 71.7x1010, Poisson's ratio given as .17

Good old borosilicate glass (from Schott)- Young's modulus listed as 63GPa, Poisson's ratio .20

Going off of these, brittleness of Vycor would seem to be between boro and quartz, but closer to boro.


[Edited on 12-2-2018 by Bert]

MrHomeScientist - 12-2-2018 at 11:46

It sounds like you might already have your apparatus, but in case you need more quartz I wanted to recommend Technical Glass Products www.technicalglass.com/
Most suppliers I found had minimum order quantities of way more than I'd ever need, but TGP was willing to work with me and let me buy just one stick of tubing. Very accommodating and friendly. They also sell all sorts of quartzware besides tubing, and do custom jobs. Bert, shoot me a U2U if interested and I'll send you the contact info for the guy I talked to there.

JJay - 12-2-2018 at 12:32

Donghai Yukang Quartz Material is about half as expensive as TGP and has a much shorter turnaround time on custom jobs. They are also flexible and have considerable expertise.

Bert - 12-2-2018 at 12:48

No, I have not ordered anything yet. I am too busy overthinking this, as is my wont.

Here's a thought experiment-

So, fuse one of these:

http://www.technicalglass.com/95cc-fused-quartz-test-tubes-w...

20180212_141238.png - 252kB

Onto the male version of one of THESE:

http://www.technicalglass.com/stj24-40m.html

20180212_141324.png - 325kB


And you end up with pretty much the basic Large-test tubeube-with-a-male-joint described by Magpie, interior dimensions about 13" x 1", capacity of perhaps 135ml exclusive of ground joint.. For under $60.00 US in parts.

Let's say you fit about 100ml powdered Sodium bisulfite in there, at an apparent bulk density of 1.442 g/cc. for a charge weight of about 144 grams, let's be lazy and round THAT down to 1mol (1mol anhydrous NaHSO4 = 142.04g)

http://www.sciencemadness.org/talk/viewthread.php?tid=10332




[Edited on 12-2-2018 by Bert]

JJay - 12-2-2018 at 13:08

You might want to check out TGP's boro to quartz transition tubes.

zed - 12-2-2018 at 16:19

Umm. My experience with Crystalline Quartz, is that it is very strong, tough, and durable. A ringstone cut from it, may show no signs of wear or chipping, after decades of wearing. Though crystals vary, somewhat in hardness, depending on origin.

I don't know what qualities crystalline quartz might exhibit if ground into labglass. But, I'm gonna go browse for it.

OK. I went, I looked, I gave up.

[Edited on 13-2-2018 by zed]