Silver Bullet Mines Corp. announced shipping of mineralized material from Zone1 at the Buckeye Mine to the mill has begun. The first trucks recently began loading at the mine site as the next important step towards continuing processing at the mill.

Processing will continue once sufficient material from Zone1 is delivered to the mill to provide for efficiencies. The Company plans to run this material as a bulk sample to provide a consistent head grade, and to determine and maximize recoveries. Continual sampling and assaying will take place at all stages of the milling process.

SBMI will use this data to determine the best blend of material to attain the higher recovery rates and to make the necessary adjustments to the process. It is anticipated this run should start in the near future, resulting in the pouring of saleable dore bars. The Company continues to mine at Zone1 at the Buckeye.

Mining is taking place approximately 735 feet from the portal where the vein continues to be over 19 feet wide. Recently six samples taken from the vein face and the floor ranged from 11.0 to 24.2 ounces per ton silver and averaged 16.2 ounces per ton silver. QA/QC All samples referred to above were processed at the Company's production assay lab located at the mill.

In accordance with best practices, multiple assays have been and should continue to be sent to third party ISO-accredited labs for multielement analysis including precious metals and PGMs. Readers are cautioned that these samples may not be representative of the Buckeye Mine as a whole. All samples above were analyzed by SBMI at its facility near Globe, Arizona. They were processed through the Lab Jaw Crusher, Lab Hammer Mill and Splitter Box into an aliquot.

Most of the pulverized aliquot was mixed with a flux and flour combination and melted in a crucible at 1,850 degree Fahrenheit, with the remainder being logged and archived. Upon cooling, the poured melt was in the form of a metal button and slag, following which a bone ash cupel was utilized to eliminate the lead in the button to form a bead. The bead was then weighed, following which a solution of 6 to 1 distilled water to nitric acid was utilized to dissolve the silver in the bead at approximately 175 degrees Fahrenheit.