BrazMin Completes Água Branca Phase One Drill Program: Gold Mineralization Intersected in All Holes Drilled

Feb 13, 2007

Road Town, Tortola, British Virgin Islands (Feb 13, 2007) - BrazMin Corp. (“BrazMin” or the “Company”) (TSX: BZM) is pleased to announce results from the final six diamond drill holes of a 2,416 metre, thirteen-hole Phase I Program on the Company's 100%-owned Água Branca Gold Project (“Água Branca” or the “Project”), located within the TapajÓs Gold District, ParÁ State, Brazil.

All holes drilled by BrazMin in the current program intersected gold mineralization. Results of the first seven holes were reported in a BrazMin news release dated January 9, 2007; highlights from the final six holes include:

  • 35.62 g/t Au over 0.90 metres and 34.67 g/t Au over 0.60 metres in hole ABD-013;
  • 1.89 g/t Au over 12.47 metres (including 12.74 g/t Au over 1.00 metres), 2.15 g/t Au over 9.80 metres, 14.20 g/t Au over 1.25 metres, and 8.05 g/t Au over 1.50 metres in hole ABD-011;
  • 5.51 g/t Au over 1.04 metres and 5.36 g/t Au over 0.95 metres in hole ABD-007 and;
  • 2.70 g/t Au over 3.50 metres (including 13.95 g/t Au over 0.50 metres) in hole ABD-010.

The Phase I Program focused on drill testing gold mineralized structures along the Camarão Hill target at Água Branca. Camarão Hill is characterized by a 750 by 300 metre area of historic “garimpos” (artisanal workings). Twelve of the thirteen holes were drilled to the southeast or northwest to test northeast trending mineralized structures for an initial 550 metre strike extent of the 750 metre extent of the garimpos; one hole (ABD-012) was drilled to the northeast to test potential cross-cutting structures (see attached map).

Mineralization at Camarão Hill is associated primarily with zones of strong hydrothermal alteration and widespread quartz veins and veinlets. Mineralization is hosted mainly by a coarse-grained magnetite-bearing monzogranite body that intruded an older granodiorite intrusion and was subsequently intruded by a syenogranite plug. The vein system typically exhibits a grayish color, reflecting the presence of pyrite, galena, chalcopyrite and local pyrrhotite. The center of the hydrothermal zones is normally associated with sericite or sericite/quartz (phyllic) alteration surrounded by a more dominant black chlorite/sericite/carbonate assemblage. Gold mineralization, as well as zones of hydrothermal alteration, appears to be structurally controlled along a northeast trending system (040-060 degrees).

Tony Ransom, President and CEO of BrazMin, states “The balance of drill holes from the Phase I Program on the Camarão Hill target intersected gold mineralization with bonanza grades. The Company will continue to conduct surface exploration over our expanded landholdings at Água Branca to prepare targets for possible future drilling.”

Drill Holes ABD-007, ABD-008 and ABD-010 to ABD-013 - Significant Results

ABD-007 (inclination: -55°, azimuth: 140°, length: 244.10 metres)

From
(metres)

To
(metres)

Width*
(metres)

Au **
(g/t)

59.35

60.30

0.95

5.36

78.06

79.10

1.04

5.51

145.88

146.53

0.65

2.37

ABD-008 (inclination: -55°, azimuth: 140°, length: 175.10 metres)

From
(metres)

To
(metres)

Width*
(metres)

Au **
(g/t)

105.00

106.00

1.00

3.29

140.00

143.50

3.50

1.41

ABD-010 (inclination: -55°, azimuth: 140°, length: 175.10 metres)

From
(metres)

To
(metres)

Width*
(metres)

Au **
(g/t)

71.00

72.70

1.70

1.60

83.60

84.10

0.50

3.30

97.00

100.50

3.50

2.70

Incl.

98.50

99.00

0.50

13.95

114.00

115.00

1.00

2.56

ABD-011 (inclination: -55°, azimuth: 140°, length: 175.10 metres)

From
(metres)

To
(metres)

Width*
(metres)

Au **
(g/t)

3.00

3.70

0.70

2.24

6.90

7.60

0.70

2.91

14.60

17.80

3.20

2.65

23.40

24.90

1.50

8.05

Incl.

24.40

24.90

0.50

12.31

47.35

57.15

9.80

2.15

65.95

78.42

12.47

1.89

Incl.

76.42

77.42

1.00

12.74

117.55

118.80

1.25

14.20

ABD-012 (inclination: -50°, azimuth: 050°, length: 200.60 metres)

From
(metres)

To
(metres)

Width*
(metres)

Au **
(g/t)

59.11

59.96

0.85

3.03

66.04

66.64

0.60

2.58

71.93

75.13

3.20

2.90

87.75

89.02

1.27

3.55

117.79

118.64

0.85

3.00

181.04

182.86

1.82

1.55

ABD-013 (inclination: -55°, azimuth: 140°, length: 160.70 metres)

From
(metres)

To
(metres)

Width*
(metres)

Au **
(g/t)

104.00

104.90

0.90

35.62

127.75

128.35

0.60

34.67

134.20

135.40

1.20

2.64

138.40

139.45

1.05

2.67

154.90

155.61

0.71

2.76

* widths are drill intersected and do not represent true widths
** Gold (“Au”) grades are uncut

Quality Assurance/Quality Control and Qualified Person

The drill holes reported in this release were collared using HQ (63.5mm)-sized core in the oxidized saprolite zone and NQ (47.6mm)-sized core in the fresh (sulphide) bedrock. The core is logged and photographed by BrazMin staff and then split using a diamond saw. Half the core is stored on-site in a secure core shed and the other half is sampled, bagged, secured, and stored on-site until several holes are ready for transporting by road to SGS-Lakefield-Geosol Laboratorio Ltda's (“Lakefield”) sample-preparation laboratory in Itaituba, Brazil. The entire half-core is crushed and two kilograms is pulverized and homogenized. 150 Gram pulps are then air-freighted by Lakefield to their main assay laboratory in Belo Horizonte, Minas Gerais State, Brazil. Lakefield is ISO14001 and ISO 9001:2000 accredited and is independent of BrazMin.

Gold is determined by fire assay/atomic absorption with a detection limit of 5ppb Au using 50 gram aliquots. Lead fire assays use silver as a co-collector to facilitate easier handling of prills as well as to minimize losses during the cupellation process. Selected samples will later be analyzed for other elements such as silver, copper, lead, zinc, etc. by ICP spectrometry/multi-acid digestion. The laboratory is instructed to automatically reanalyze abnormally high gold values. Specific gravity determinations are done using a gas picnometer. QA/QC procedures include the submission by BrazMin of systematic duplicate and blank samples within the sample batches submitted to Lakefield. In addition, Lakefield inserts its own blanks and standards into each sample batch. The results from these control samples indicate acceptable consistency of analysis. Selected representative pulverized sample duplicates are submitted for referee analyses to ALS Chemex's laboratory in Vancouver, an ISO 9001:2000 and ISO 17025 accredited laboratory which is independent of BrazMin.

BrazMin's exploration programs are being managed by BrazMin's President and CEO, Mr. Tony Ransom (Pr.Sci.Nat.), and, on-site, by BrazMin's VP Exploration, Mr. Paulo Ilidio de Brito (Member: AusIMM), both of whom are qualified persons within the meaning of National Instrument 43-101. Mr. Ilidio de Brito, who is responsible for the technical material in this release, has verified the data disclosed in this release, including the sampling, analytical and test data underlying the information. Geological logging, sampling and core handling procedures were carried out under the supervision of Mr. Ilidio de Brito.

About BrazMin

BrazMin is a TSX-listed company focused on the acquisition, exploration and advancement of high quality resource projects. The Company currently has a portfolio of precious metal properties in Brazil. BrazMin has a well-qualified exploration and management team with extensive experience in exploration and project management, both within Brazil and worldwide.

BrazMin has a treasury of approximately CDN$10.7M and holds 13,150,000 common shares of Brazauro Resources Corporation, (TSX-V:BZO). The Company has 27,054,222 shares outstanding and 32,006,722 shares fully diluted. For additional information on BrazMin please visit the Company's website at www.brazmin.com or contact:

Fiona Childe, Ph.D., P.Geo.
VP Corporate Communications
Tau Capital Corp.
Tel: (416) 361-9636 x 227
Email: This email address is being protected from spambots. You need JavaScript enabled to view it.

Forward-Looking Information


This press release contains certain "forward-looking statements". All statements, other than statements of historical fact, that address activities, events or developments that the Company believes, expects or anticipates will or may occur in the future (including, without limitation, statements regarding the Company's exploration plans and objectives with respect to the Água Branca Gold Project, exploration results, and potential mineralization) are forward-looking statements. These forward-looking statements reflect the current expectations or beliefs of the Company based on information currently available to the Company. Forward-looking statements are subject to a number of risks and uncertainties that may cause the actual results of the Company to differ materially from those discussed in the forward-looking statements, and even if such actual results are realized or substantially realized, there can be no assurance that they will have the expected consequences to, or effects on the Company. Factors that could cause actual results or events to differ materially from current expectations include, among other things, changes in gold prices, changes in equity markets, political developments in Brazil, changes to the regulations affecting the Company's activities, delays in obtaining or failure to obtain required regulatory approvals, uncertainties relating to the availability and costs of financing needed in the future, the uncertainties involved in interpreting drilling results and other geological data, and the other risks involved in the gold exploration and development industry. Any forward-looking statement speaks only as of the date on which it is made and, except as may be required by applicable securities laws, the Company disclaims any intent or obligation to update any forward-looking statement, whether as a result of buy . Although the Company believes that the assumptions inherent in the forward-looking statements are reasonable, forward-looking statements are not guarantees of future performance and accordingly undue reliance should not be put on such statements due to the inherent uncertainty therein.