I recently had the chance to examine fragments of Ancient Egyptian hard stone vases under a Scanning Electron Microscope. For those of you supporting UnchartedX via Patreon or YouTube Channel memberships you would have seen my live updates while I was in Florida doing this work.
Many thanks to Dr Max Zamilov who volunteered his time, expertise, and equipment to make this happen. The results were certainly interesting! I did a YouTube livestream yesterday to go over the preliminary results. I am working on a more produced and researched video on the results, but check this out if you’re interested. It’s a livestream, and I started the roll in 8 minutes before it was scheduled to start, so if you don’t like cool images set to good music then skip forward 8 minutes to the start.
I also made a youtube short, if you want the TLDR:
Lets break foundings down
Titanium: Known for its strength and resistance to corrosion.
Iron: Adds durability and hardness.
Zircon: Extremely hard and resistant to heat.
Ferrisfluoride: Likely a typo or misinterpretation; could be referring to a fluoride compound which can be used in abrasives.
Tin: Often used in alloys to improve strength and durability.
Chlorine: Typically not used in solid form for drilling but could be part of a chemical process.
Zinc: Adds corrosion resistance and can be used in alloys.
Potential Alloy:
An alloy combining titanium, iron, zircon, and tin could be created. This alloy would be strong, durable, and resistant to heat and corrosion.
Adding a fluoride compound could enhance the abrasive properties, making the drilling process more effective.
Practical Application:
The alloy could be used to create drill bits or cutting tools.
When used with ultrasonic drilling, the combination of mechanical vibrations and the strength of the alloy could result in a very efficient drilling process for hard stones like granite.
This approach would leverage both the physical properties of the materials and the advanced technology of ultrasonic drilling to achieve the desired outcome.
great comment and breakdown, thanks.
thanks, it would be awesome to get a atlas copco or baker hughes or any of the leading drill bit manufacturers to test these results in practise.
Hey Ben,
This comment is in reference to your electron microscope youtube post.
Please pause your video at 1:34:34 and tell me if you see what appear to be extremely fine linear tool marks right in the middle of the image? These marks are only discernible for a couple seconds and it’s for this reason I thought it might be easy to overlook them. If the scale line represents 200 microns these tool marks are maybe 2 to 5 microns wide. My guess is they are spiraled just like the tube cores.
Hello Ben,
I just wanted to say great work on your channel, I know there is a significant effort involved in exploring and deciphering this information. If you are not aware of it already, some ET friends have shared relevant information about this subject at zetatalk.com, perhaps you would be interested.
You have indeed uncovered many mysteries, but could possibly be explained by ETs travelling to Earth in the past and building these structures, due to pole shifts that occur on Earth. The massive cover-up over the alien presence and idea of pole shifts would explain the clear prohibition of academia to explore the topics brought up on your page. I think you might be intrigued.
https://www.zetatalk.com/index/blog0926.htm
https://www.zetatalk.com/ning/24ma2014.htm
Best of luck!
Titanium is really a completely modern invention, right? Even a quick lookup describes multiple processes that have to happen in reactors at high heat (molybdenum-clad at 1000 degrees?!), etc., to arrive at a particular version of a particular ore that is a product of modern large-scale industry… so when you find it embedded in the vase that was an ancient relic before Dynastic Egypt even began…? No wonder Ben said this is worth losing sleep over. What is really going on? It’s the most troubling technically-grounded refutation of human history that has ever been.. Time Travel is as good an explanation as any.. What do YOU think is going on?
Hi, great channel. You probably get a load of crazies making contact, hopefully I am not one. I have a background in the diamond manufacturing industry, from mining to finished stones, and have an idea for you to ponder.
Most engineered holes are bored undersize, then honed to a finish. Could it be that the holes drilled in granite for example were bored first with a smaller bit, made up from say a ceramic cylinder embedded with diamond, or something harder than granite, drilled , then honed to the spiral by a diamond tipped bit to give tve visible spiral finish, due to the fact the rate of bore could be quite high on the 2nd fine cut? In the diamond trade for example we polish diamonds with a steel disc, softer than diamond, but using a paste which has diamond dust incorporated, and we also saw diamonds with a bronze alloy disk, softer than diamond but using a paste infused with diamond dust? Same idea could have been used with the ancients. We when polishing diamonds also fix them into a recessed brass holder for the facetting , with a fish based glue, this same idea would work for a diamond tipped drill head.
We see the spiral groove on the drill core, which is discarded as scrap, and I doubt anyone would be honing it for any reason. Once it’s cut it’s snapped off and outta there, they wanted the holes, not the cores. That said there is what appears to be similar grooves in many holes.