Green Battery Minerals Inc V.GEM

Alternate Symbol(s): GBMIF

Green Battery Minerals Inc. is an exploration-stage company. The Company’s principal business activities include the exploration and development of natural resource properties. Its Berkwood Graphite Project is located within the jurisdiction of Quebec, in the Manicouagan Regional County Municipality, three hours driving time from the city of Baie-Comeau. Its Stallion Gold Project is located in the northeastern region of the prolifically metal-endowed Stikinia geological terrane. Stallion covers over 30 square kilometers and is on a regional trend with several past producing mines, such as Baker, Shasta and the world-class Kemess Mine. The Jupiter Lithium Project is an early-stage exploration opportunity which comprises a total of 122 Quebec mineral exploration claims which amount to a total of 6406 hectares. The Boudrias Project comprises a total of seven Quebec mineral exploration claims which amount to a total of 392.1 hectares.

TSXV:GEM - Post by User

Green Battery Minerals Inc

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Post by Wangotango67on Jun 07, 2024 12:41pm

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Post# 36077880

ALLL THE RIGHT MOVES vs ALL THE WRO - -

The Year ?
2019
Analysis ?
MET Tests ( carbon content )

                       US mesh
Very Coarse    20 x 50    W 39.5 %    Cgr content 97.6 %
Coarse 50 x 100    W 50.0 %    Crg content 98.0 %
Fine              100 x 200    W 10.4 %    Crg content 98.0 %

Press Release and Photos
https://greenbatteryminerals.com/wp-content/uploads/2019-02-07-nr-bkr-n5jq3p.pdf

GEM met studies uses.... course to fine.
Versus... Jumbo to Fine.

Graphite Sector Grading

Jumbo flake: +35 mesh or +500 microns.
Large flake: -35 mesh by 50 mesh or -300 microns by 500 microns.
Medium flake: -50 mesh by 80 mesh or -150 microns by 300 microns.
Fine flake: -80 mesh and finer.May 17, 2021

https://www.graphiteflake.com/flake-graphite-49/

FRANLI opinion ( only 2 gradings )
Usually, large flakes refer to +32 mesh, +50 mesh, +80 mesh, and +100 mesh flake graphite.
Flake graphite below these meshes is called Fine flake graphite.

https://www.graphiteflake.com/flake-graphite-49/

If one caters to the battery market larger flake is the goal...
BUT.... much of the deposit is lost due to smaller faction size.

What happens if one millied all sizes into fine ?
= More impurities liberate.

Majority of GEM's graphite grades 98 % Cgr
Mere 1.5 % or so away from - nuclear shielding grading.

Second thought ?
If carbon can make diamonds using heat and presure ( compression presses )
Then... would crystal not have to be present ?
Would this crystal not have to be in the mix ?
Silica or Kimberlite ?

Silica uses silics crystals. Silicon chips
Kimberlite crystals make diamonds. Diamond super chips

Kimberlite is the name given to a silica-poor and magnesium-rich extrusive igneous rock (e.g., a volcanic rock) that contains major amounts of olivine, often serpentinized.

Issue with diamonds as chips ?
Poor conductivity moreso an insulator.

Former post video on diamonds
Boron with in natural diamonds exhibit natural ability to retain light.
= electron loading
similar to enriching graphite with laser electrons

Best route ?
Grind all graphite to super fine mesh
remove impurities
99.5% + pure black carbon

Entire deposit comes into play.

Add exacting pure silica blend
or even better...
Dissolve black carbon with Boron so they form lattice bonds
Dry
Then... place in compression press
= boron enriched diamond for minature diamond battery which recieves enrichment
= computer diamond chips.able to process electrons due to boron fusion.

It's then... junior could fraction each tonne into ( single gram values )

2 other Peer graphite juniors took the wrong path.
They know not the real value of, graphite.

Will other graphite juniors veer and learn from their mishaps ?

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