Press Release: Piece of Metal Found at the 1947 Roswell Debris Site on 06/03/23, is Aluminum Alloy!
On June 20th, I drove to Aurora, Colorado to, “Colorado Metallurgical Services” company. There I met with General Manager Jason Schmidt and told him I needed to run an initial metal identification analysis on a tiny piece of metal I had found in the middle of the New Mexico desert at the famed, Roswell Debris site.
Note: See previous blog about finding the piece of debris on June 3rd.
https://www.ufonut.com/more-metal-found-at-the-famed-roswell-debris-site-as-recent-as-june-3rd-2023/
After looking at the metal, Jason said I should clean it first and get all the dirt particles off to get a good analysis.
Following the cleaning, Jason took the piece of debris to their, X-Ray Spectrometer.
An X-Ray Spectrometer (XRS) uses a focused beam of charged particles to excite x-rays in a sample, thereby allowing for a qualitative analysis of the material. Basically, it determines what the material is made from and also able to identify the percentages of chemical elements within the material.
The XRS is a non-destructive test which is most preferred when analyzing such an important piece of material like mine.
Using a computer, Jason is able to focus the XRS on different locations of the piece of debris to analyze. By getting results from different areas, he can get a better understanding what the material is made of. Some areas may have slightly higher or lower element results.
Based on the data sheet, the XRS test clearly shows AL (aluminum) is the dominating element. Other elements like, Si (silicon), Mg (Magnesium), Mn (Manganese), Fe (iron), Cu (Copper), Zn (zinc), Cr (Chromium), Ni (Nickel) and Co (cobalt) are present. Some of those elements combined make this piece of debris an Aluminum Alloy.
So how about this?
An Aluminum Alloy was found by metal detecting at the famous Roswell Debris Site under 7-8 inches of dirt! For such a desolate area where cattle and sheep have been grazing for decades, why would high-tech metal be found buried in the ground?
Well, could the stories of the July 1947 incident in which a craft impacted the ground by skipping off the surface and leaving hundreds of yards of debris have anything to do with it?
Upon examination of the piece of debris under a microscope, Jason stated that the piece had experienced extreme trauma, almost explosive in nature. Every side of the debris had ripped and torn edges. Very unusual for such a small piece of metal measuring about 1/4 of an inch.
It appears what ever made this piece of debris was due to a high energy explosive event. The metal was annihilated!
Notice the fold on such a small piece. Notice the cracks and irregular edges.
An enhanced image of the previous picture at about 500-micron scale, shows the damage this piece of alloy has sustained. Look at the metal’s scoring? Notice the detail of the microscopic scratch marks, abrasions, and tearing damage.
Notice how the metal alloy fold is not clean but violently folded tearing edges.
At this scale, you can clearly see the abrasions in the metal alloy, gouges, and even smaller tearing and cracks.
Another close-up image of the alloy shows a multitude of metal scoring and irregularities.
In this image notice the thread-like microscopic structure. This was seen in my 2002 piece of debris.
This image is from my 2002 dig where the piece of debris was analized by an ESM (electron-scanning-microscope). Notice the high level of aluminum on this data sheet, just like the 2023 piece of debris. The two spikes on the left are carbon from humans touching it, and oxygen from the air.
We decided with this new piece of debris to use an X-Ray Spectrometer in stead of the ESM. The XRS just focuses on the metal elements.
At this time there’s more testing that needs to be done like:
- Try to date the alloy.
- Run other types of specific testing looking for other elements like Barium and Tungsten which have been seen in other pieces of debris found at that site. (See Frank Kimbler on that.)
- Presently this aluminum alloy DOES NOT match exactly any other Aluminum alloy, but more researching needs to be done to confirm that.
- If continuous testing still shows an anomalous metal, then it’s time to run an isotope analysis on it to see if it’s from this planet.
This first test was to see if it compared to my previous piece of debris found in 2002 at the debris site, and it does. Next, I will be working with fellow investigator Frank Kimbler who also has a piece of debris that was found on June 3rd. Together we’ll collborate and perform new tests to try and fully understand these small pieces of metal.
Are Frank and I stating that our pieces of metal are from an extraterrestrial craft? No, we can’t determine that, but this is just the beginning of testing, and it’s off to a great start!
Chuck Zukowski
UFOnut.com
Category: The Z-Files
