diy homemade parabolic mirror with mercury mold and cnc glass
Dear AgX , Thank you for your message and interest to my ideas.
First of all , lets start the first mail about rotating mercury. This technology is a promising way for the astronomy schools who has not money to build 6 meters diameter mirror. The weak side of the liquid mirror is thay you can not move the mirror and you have to move the ccd camera on the parabola.
I saw somewhere , the real problem is the dust. You are building a liquid mirror at a mountain , you are opening it to nature and all things flying is dirting the mirror.
For to protect the mirror , researchers coat the mercury with thin layer of epoxy. I thought this layer could be used as a mold .
You have a 6 meters wide mirror , hard and ready to be aluminized.
I think this is the most basic form of creating giant telescope. Well even making 80 cms mirror is a giant experience for the amateur and the wallet
Well I am one who has limited money to do expensive things and i have a hunger eye for them also. So I am developing cheap solutions.
One can quickly produce with a rotating mercury mirror , a lots of plastic mirrors . All you have to have a low shrinking , less heat producing , fastcuring , hard plastic. This can be acrylic formulas with UV curing forms.
diy homemade parabolic big wide diameter telescope mirror centrifugal rotating moving mercury quicksilver mold
I think magnetic fluidss are so interesting , they can be used to change a form . Nowadays I am thinking to cover the americas boat critical surfaces with biomimic or laboratory generated surfaces , may be at the future , ferrofluids will be used to change the form of a formula car at high speed or at curves. I think to look at this magic material as a new tool is a more satisfactory way. I mean open your mind .
I think , if it is possible to grind a lens at a cnc lathe , it could be very cheap , i worked a company which produce aluminum parts and i saw many cnc generated parts at there . They had have to polished by hand because cnc lathe was not producing excellent clean parts. But i know some cnc lathe parts are excellent at the industry magazines.
I think you have to find few cnc shops telephones and call them.If I am not wrong you are at germany and germany produces best cnc lathes in the world. For to make your research easier , i think you have to find a cnc shop near to wetzlar leica factory . i think they will have a answer.
This is a good question But there is also one thing , if you want to produce precision parts with a cnc lathe , you have to calculate the heat and vibration of the toolings. This is more important at the glass also and if you want to use high refractive index glasses , they are very soft and very hard to cnc if i m not wrong. What about the tolerances ? How will you produce exact curve - from your lens design software results - with the cnc lathe.
You have to know what cnc can do and what lens design software can advise.
I had been found a web site from usa which produces plastic lens prototypes with cnc but they were aplying a special polishing after all , if i am not wrong a flame !
If you can find a glass lens cnc shop , please write here.
And now I thinked , may be rotating molds can be made by molten tin or molten pb !
Best ,
Mustafa Umut Sarac
Mustafa,
this ferromagnetic grinding is new to me. From what I understand from your post it is used to make grinding more effective than with a standard paste. I do not see any form of electrical shape steering involved.
However your idea of electrical controlling the shape of ferromagnetic fluid/viscous molds seems very interesting. At first sight It gives you the chance of deliberately and immediately controlling the shape. In contrast to cutting a mold on a lathe. However, on a lathe you will know in advance what form you will get. With this electrical mold, I guess, one would either have to employ a delicate coil system with known algorithms to predict the form of the resulting mold or steering the coils by trial and error, using a scanning technique to measure the mold or just molding lenses and see how they look.
It might seem to you that I am spoiling your ideas, but to me, for amateur use, the lathe used to make a mold would be more economical.
But, and it is a pity that you dont react on my replies to your postings, what about grinding a lens on a lathe, as asked before?
For the projects, I guess you have in mind, one would rather need single lens elements not multiples of them and thus not necessarily a mold. You stated that you have access to a CNC lathe. If you could get hold on a piece of raw optical glass of the needed composition and size, what could form a problem, you could mill it to size, put it on the lathe and start grinding. More convinient (and economical?) would be to use a lens from a supplier of optical elements of the right composition and a bit oversized. Put it on the lathe and grind and polish it there.
I admit I have NO experience in optical grinding whatsoever and thus do not know whether this lathe-grinding is really workable. If so, there should be companies around which offer custom grinding of single lenses. This of course will take us off the DIY way
