Vacuum Sintering
Vacuum Sintering
(OP)
Can someone advise on the Vacuum pressure/levels required to Vacuum Sinter alloy steels, preferably measured in mbar.
Thanks
Thanks
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RE: Vacuum Sintering
The only steel work that I ever did was down less than 50 microns Hg.
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Plymouth Tube
RE: Vacuum Sintering
Sintered density would be in the region of 7.0g/cc
The alloy steels will contain around 15% Cr, 10% Ni, 2% Mo, 2% V, 2% W
Sintering temperature would be approximately 1185C
Time at temp approximately 30mins
Thanks
RE: Vacuum Sintering
The removal of lubricant will be critical since residual C will seriously reduce the corrosion resistance. For good corrosion resistance you really want to be below 0.03% C.
The Nitrogen level is also important. N increases strength and corrosion resistance.
As I recall you delube in hard vacuum and then backfill (usually with Nitrogen) to 50 Pa (0.5 mbar)
It is far more common to sinter in nitrogen with 15-25% hydrogen.
V ? That is an interesting addition.
Theoretical should be 7.8-8.0.
You may need to go hotter to get your density. If ductility is important then higher temps will be needed. I have seen people go as high as 1315C.
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Plymouth Tube
RE: Vacuum Sintering
One observation I'll make is that you need to burn-off / delube your samples outside of your sintering furnace unless it's a newer one with some sort of specialized lube removal system. You don't want the wax coating your heating elements or destroying the internals on your rougher pump. Either a belt burn-off or a specialized vacuum burn-off is fine. For the belt burn-off, run the parts under straight N2 with no air additions to control your oxygen content. If you oxidize the parts, they will react with the carbon and sinter differently. Those are both methods we use.
To Ed's point, you have to make sure the carbon is out of the part. However, you may have to run a slightly higher carbon content in order to react with the oxygen that exists as oxides on the powder particles. That's what will assist in the sintering mechanism under vacuum.
That being said, can I inguire why you're vacuum sintering these? Most of my vacuum sintering of 316L is only done to take the stuff to full density where strict temperature control is required (7.65 g/cc min). 7.00 g/cc is somewhat of a hybrid density. I'm assuming you're molding around a 6.6 g/cc density. Low temp sintering on a mesh belt at 2100°F will put you around a 6.8 g/cc density. If you move to a pusher plate furnace around 2200°F you should be able to hit your density spec. The pusher furnaces are usually more economical to run for production. A ceramic belt may give you similar results if your parts are light.
If you want to discuss pusher conditions, feel free to post and we can go down that route.