Copper Harvest + Copper Harvest

  

Copper Harvest + Copper Harvest 

HARVESTING COPPER CRYSTALS 

A copper rod crystallized produces more copper than you had previous to 

Copper rod. Dipped & electrocuted creates crystal which grows the rod & retains the original 

The excess growth is cut & fused creating another rod or more than one 

You can then harvest through grinding off & creating dust, sand or chunks that can be then safely melted & fused into new rods or sheets 

We can at the maximum grow a 90% yeild as a Copper return like some other commodities 

THE S.B.G & CIG 

The process from Point A - B involves Zero Emissions & a Zero Cycle effort 

NB-OT LABS VARIABLE + DAMAGES 

Any interest involved operating at ot woth the NB-OT Labs & expansion Labs doing similar Yields in warehouses or outdoor may be required by the Courts to share profits with S.B.G & CIG to offset the US $3 Trillion in damages owed then after that is fair game for the 2012-2025 & prior attacks + leaked information & framework 

FUSION PROCESS AFTER THE CUT 

Fusing copper generally refers to joining copper pieces together by melting them, either through welding or soldering. Another application involves fusing copper to other materials like glass, often in jewelry or art pieces. The specific method depends on the application, with welding creating stronger, fused joints and soldering using a lower-melting-point filler metal. 

Here's a more detailed breakdown:

1. Welding Copper:

• Process: Welding involves melting the copper pieces and the filler metal together, creating a strong, homogenous joint.

• Methods: MIG, TIG, and stick welding are common methods for welding copper.

• Advantages: Higher joint strength, fatigue resistance, and electrical continuity. 

2. Soldering Copper:

• Process: Soldering uses a filler metal with a lower melting point than copper to join the pieces. Flux is used to clean the surfaces and promote the flow of solder. 

• Methods: Soft soldering (using lower temperatures and tin-based solders) and brazing (using higher temperatures and brass or bronze solders) are common methods. 

• Applications: Soldering is frequently used in plumbing for copper pipes. 

• Advantages: Lower temperatures compared to welding, easier for some applications. 

3. Fusing Copper with Other Materials:

• Glass Enameling:

Copper can be used as a base for enameling, where powdered glass (frit) is fused onto the copper surface in a kiln at high temperatures. 

• Foil Fusing:

In this process, foil is bonded to toner images created by laser printers or copiers. 

• Jewelry Making:

Copper can be fused with silver or other metals in jewelry to create unique designs and textures. 

4. Fusing Wire Links:

• Process: Micro torches and butane fuel are used to heat the wire until it becomes pliable, allowing it to be shaped and fused at the seam.

• Considerations: Fine silver is preferred for fusing, as sterling silver, an alloy with copper, can be problematic.

• Precautions: Proper ventilation is crucial when working with butane and melting metals. 

Fusing copper dust, or copper powder, can refer to several different processes, including cold casting, fusing to other metals, or incorporating it into glass art. In cold casting, copper powder is mixed with resin and poured into a mold to create a metal-like object. In jewelry making, copper dust can be fused to other metals like silver using heat, creating unique textures and designs. Copper powder can also be used in glass art, where it can be fused to glass to create colorful inclusions or textured surfaces. 

Cold Casting:

• Copper powder is mixed with a resin (like Smooth-On's Artcast resin) to create a thick, paste-like consistency.

• The mixture is applied to a mold, often as a "slush cast" or brushed onto the surface.

• Once cured, the resin casting gives the appearance and weight of solid metal.

• This method is a cost-effective alternative to traditional metal casting. 

Fusing to Other Metals (Jewelry Making):

• Copper dust or filings can be fused to other metals like silver, creating layered effects and textures. 

• Silver shavings or dust can be sprinkled onto a copper base and then heated with a torch until the silver melts and fuses to the copper. 

• The fused metal can be manipulated with the torch to create unique textures and patterns. 

Fusing with Glass:

• Copper powder can be used as an inclusion in glass art.

• It can be applied to the surface of glass and then fused together with another layer of glass.

• The copper can react with the glass during firing, creating various colors and textures. 
Other Considerations:

• Copper dust can also be created by macerating copper ore or ingots. 

• In some cases, copper dust can be used in a microwave melting process. 

• The reactivity of copper powder can be affected by mechanical activation. 

• Copper dust can be used to create decorative items or for experimental purposes. 

HIGH YIELD COPPER 

Our highest Yields with accumulative others in 40 plants (warehouse buildings) provides US $3 Trillion equivalent Stockpiles we withhold as commodity value as saturated does not lower copper value in market like gold Stockpiles 

US $3 Trillion in under 3 years from an initial under 12% starting point providing 80-90% yield returns from a low cost energy plant 

In 2025 Dr Sydney Nicola Bennett brought this into the S.B.G & CIG In-House Brands investment for Commodity gains as a Standardized additive practice integrated at 40 plants in multiple countries within advanced security & automation with restricted skilled workers 

The H.I.3 Case Scheme for S.B.G of CIG & Dr Sydney Nicola Bennett with interest & rewards at just over US $3 Trillion will be paid between 2026-2029 in full through a separate investment portfolio of high yeild gains while S.B.G & CIG retains an effectively managed three split portfolio internationally of Commodity, market Value & In-House investments effectively under Dr Sydney Nicola Bennett's restructure & automated advanced AI data effort for the 2025-2030 onward agenda while elected boards reiterate data to shareholders including security & taxation effort in strategy 

COPPER STOCKPILES & PURCHASE HAUL

S.B.G & CIG obtain extra outside not Stockpiles based Copper from different sources

Market rate

Mining & exploration 

Scrap yards 

All for Electrolysis gains & stockpiles

Despite the NB-OT Labs & expansion Labs creating owed financial damages Dr Sydney Nicola Bennett created a way to cover losses through this gain portfolio & a connected effort 

This effort with copper is like a birthing to duplicate a copper rod. We just take a lot of copper rods & do a mass duplication every 5-6 months at different facilities

S.B.G & CIG