MOD RESOURCES LIMITED ASX RELEASE 27 MAY 2015
OUTSTANDING METALLURGICAL TEST WORK RESULTS AT MAHUMO HIGHLIGHTS Optimisation test work program for Mahumo scoping study now largely complete
Copper recoveries and concentrate grades exceed MOD's scoping study targets
Copper/silver concentrate grades at 106 microns grind size, range from:
40.1% Cu at 92.9% recovery, and 1,102g/t Ag at 87.5% recovery 47.6% Cu at 91.0% recovery, and 1,303g/t Ag at 85.5% recovery Initial results using a finer grind indicate silver recoveries >90% are achievable
Concentrate grades (40-45% Cu) approximately double global average (20-25% Cu)
Excellent progress on Stage One scoping study with results expected in June
Assuming scoping study is positive it is expected to be followed by a pre-feasibility study
Figure 1: High-grade copper/silver concentrate produced during test work program
The Board of MOD Resources Ltd (ASX: MOD) is pleased to announce outstanding results from the metallurgical optimisation test work program at the Mahumo Copper/Silver Project in Botswana (Table 1). Results confirm high recoveries, exceptional grades and quality of the Mahumo concentrate and exceed MOD's assumptions used in the Stage One scoping study, which is now largely complete.
Using 106 microns grind size, all copper recoveries exceed the 90% target for concentrate grades between
40.1% and 47.6% Cu. Work is now targeting higher silver recoveries using 75 microns grind. Initial results suggest silver recoveries of >90% are achievable with minimal impact on copper recoveries or concentrate
grades. Copper recoveries of >90% have a significant positive impact on conceptual financial models that
are being generated as part of the scoping study.
MOD Resources Limited ABN 78 003 103 544 | First Floor, 1304 Hay Street, West Perth WA 6005 | PO Box 1927, West Perth WA 6872
ASX code: MOD | T +61 (8) 9322 8233 | F +61 (8) 9322 8077 | E administrator@modresources.com.au | www.modresources.com.au
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FLOTATION TEST PRODUCT | MASS PULL | COPPER IN CONCENTRATE | SILVER IN CONCENTRATE | ||
FLOTATION TEST PRODUCT | Assay | Recovery | Assay | Recovery | |
FLOTATION TEST PRODUCT | (%) | (%) | (%) | (ppm) | (%) |
Cleaner Concentrate Cleaner Concentrate Cleaner Concentrate Cleaner Concentrate | 3.9 4.1 4.3 4.8 | 47.57 45.59 43.71 40.14 | 91.0 91.7 92.3 92.9 | 1303.0 1249.1 1198.6 1102.3 | 85.5 86.2 86.8 87.5 |
Table 1: Cleaner flotation test work results; > 40% Cu and >1,100 ppm Ag concentrate grades at >80% passing 106 microns
The metallurgical test work program is being undertaken and managed by Independent Metallurgical Operations in Perth. The program comprises rougher and cleaner flotation tests on composite drill core samples utilising different reagents at varying grind sizes (106 and 75 microns).
Figure 2: Grade/recovery curves for copper and silver using 106 microns grind size
Metallurgical samples were sourced from drill core from the 500m long West Zone deposit at Mahumo which forms part of the Stage One Mineral Resource (Figure 3). High grade Cu sulphides (chalcocite and bornite) extend from shallow depth (~15-20m) to the deepest intersection at ~500m depth in the West Zone deposit.
The Stage One Mineral Resource comprises 2.67Mt @ 2.0% Cu and 50g/t Ag (Table 2) (announced 25 March
2015 and 15 April 2015). It has a copper equivalent grade of approximately 2.5% CuEq which MOD
understands is the highest announced for any copper/silver deposit in Botswana. The silver grade (50g/t) is approximately 3 times the average silver grade of other announced resources in the Kalahari Copper Belt.
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Figure 3: Interpreted long section of West Zone showing drill hole intersections (>1.5% cutoff) (Note: intersections shown as down hole widths and reported as copper equivalents CuEq)
Scoping StudyThe scoping study is evaluating underground mine design, production rates, mining costs, processing and financial modeling. The scoping study team is made up of South African consultants lead by Mr Nikolas Rhodes from Ridgeback Mining Services. The consultants are all experienced in mining and processing operations in Botswana and South Africa.
Assuming the scoping study is positive, it is expected to be followed by a pre-feasibility study and an extensional drilling program (Stage Two) subject to funding. The objective of the Stage Two drilling program is to test for significant extensions below the limit of current drilling along the 2.4km strike length at Mahumo.
As previously announced, the Company has held a number of positive discussions with third parties regarding funding options relating to the Company's Botswana Copper Project and the Mahumo Copper/Silver deposit. Discussions with third parties are incomplete and ongoing and have yet to reach a stage where they are sufficiently advanced to warrant disclosure. The Company will provide an update to shareholders if, or when that occurs.
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DiscussionManaging Director, Julian Hanna said: "We are very encouraged by the rapid progress of the scoping study on the Mahumo Copper/Silver Project and the high quality of test work results. Mahumo is shaping up to be a very continuous, high grade deposit with outstanding metallurgy. This provides MOD with an opportunity to progress toward early production in a highly rated country where capital and operating costs are substantially lower than in Australia."
Mr Hanna added: "We note the Botswana Minister of Minerals, Energy and Water Resources, Mr Kitso Mokaila's recent announcement regarding the deferral of the 3% copper royalty tax for 12 months. We see this as a strong indication of support for copper producers to build a competitive, long-term copper industry in Botswana."
For further information, please contact: Julian Hanna Mark ClementsManaging Director Executive Chairman and Company Secretary
MOD Resources Limited MOD Resources Limited
Ph: (61 8) 9322 8233 Ph: (61 8) 9322 8233 jhanna@modresources.com.au mclements@modresources.com.au
Competent Persons' Statements
The Competent Person responsible for the interpretation of the metallurgical test work results from the Mahumo
Copper/Silver Project is Mr Daryl Evans, who is a full-time employee of Independent Metallurgical Operations and a fellow of AusIMM. Mr Evans has sufficient experience that is relevant to the style of mineralisation and type of deposit under consideration and to the activity being undertaken to qualify as a Competent Person as defined in the 2012 Edition of the 'Australasian Code for Reporting of Exploration Results, Mineral Resources and Ore Reserves'. Mr Evans consents to the inclusion in this announcement of the matters based on his information in the form and context in which it appears.
The Competent Person responsible for the geological interpretation, Mineral Resource estimation and classification of the Mahumo Copper/Silver Project is Mr A.I. Pretorius, who is a full-time employee of Sphynx Consulting CC and registered with SACNASP (400060/91). Mr Pretorius has sufficient experience that is relevant to the style of mineralisation and type of deposit under consideration and to the activity being undertaken to qualify as a Competent Person as defined in the 2012 Edition of the 'Australasian Code for Reporting of Exploration Results, Mineral Resources and Ore Reserves'. Mr Pretorius consents to the inclusion in this announcement of the matters based on his information in the form and context in which it appears.
The information in this announcement that relates to Geological Data and Exploration Results as it relates to Mineral Resource estimation and classification at the Botswana Copper Project is reviewed and approved by Mr Jacques Janse van Rensburg, BSc (Hons), General Manager Exploration (Africa) for MOD Resources Limited. He is registered as a Professional Natural Scientist with the South African Council for Natural Scientific Professions (SACNASP) No.
400101/05 and has reviewed the technical information in this report. Mr Janse van Rensburg has sufficient experience which is relevant to the style of mineralisation and type of deposit under consideration and the activity which it is undertaking to qualify as a Competent Person as defined in the 2012 Edition of the Australasian Code for Reporting Exploration Results, Mineral Resources and Ore Reserves. Mr Janse van Rensburg consents to the inclusion in this announcement of the matters based on information in the form and context in which it appears.
Information in this announcement relates to previously released exploration data disclosed under the JORC Code 2004. It has not been updated to comply with the JORC Code 2012 on the basis that the information has not materially changed since it was last reported and is based on and fairly represents information reviewed and approved by Mr Jacques Janse van Rensburg, BSc (Hons), General Manager Exploration (Africa) for MOD Resources Ltd.
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Forward Looking Statements
This announcement may include forward-looking statements that are only predictions and are subject to risks, uncertainties and assumptions which are outside the control of MOD Resources Limited.
Examples of forward-looking statements used in this announcement include: 'finer grind indicate silver recoveries >90% are achievable', and 'Concentrate grades (40-45% Cu) approximately double global average (20-25% Cu)', and 'Copper recoveries of >90% have a significant positive impact on conceptual financial models that are being generated as part of the scoping study', and 'expected to be followed by a pre-feasibility study and an extensional drilling program (Stage Two) subject to funding. The objective of the Stage Two drilling program is to test for significant extensions below the limit of current drilling along the 2.4km strike length at Mahumo', and 'Mahumo is shaping up to be a very continuous, high grade deposit with outstanding metallurgy' and 'with an opportunity to progress toward early production in a highly rated country where capital and operating costs are substantially lower than in Australia'
Actual values, results, interpretations or events may be materially different to those expressed or implied in this announcement. Given these uncertainties, recipients are cautioned not to place reliance on forward-looking statements in the announcement as they speak only at the date of issue of this announcement. Subject to any continuing obligations under applicable law and ASX Listing Rules, MOD Resources Limited does not undertake any obligation to update or revise any information or any of the forward-looking statements in this announcement or any changes in events, conditions or circumstances on which any such forward-looking statement is based.
This announcement has been prepared by MOD Resources Limited. The document contains background Information about MOD Resources Limited current at the date of this announcement. The announcement is in summary form and does not purport to be all inclusive or complete. Recipients should conduct their own investigations and perform their own analysis in order to satisfy themselves as to the accuracy and completeness of the information, statements and opinions contained in this announcement. The announcement is for information purposes only. Neither this announcement nor the information contained in it constitutes an offer, invitation, solicitation or recommendation in relation to the purchase or sale of shares in any jurisdiction. The announcement may not be distributed in any jurisdiction except in accordance with the legal requirements applicable in such jurisdiction. Recipients should inform themselves of the restrictions that apply to their own jurisdiction as a failure to do so may result in a violation of securities laws in such jurisdiction.
This announcement does not constitute investment advice and has been prepared without taking into account the recipient's investment objectives, financial circumstances or particular needs and the opinions and recommendations in this announcement are not intended to represent recommendations of particular investments to particular persons. Recipients should seek professional advice when deciding if an investment is appropriate. All securities transactions involve risks, which include (among others) the risk of adverse or unanticipated market, financial or political developments.
To the fullest extent of the law, MOD Resources Limited, its officers, employees, agents and advisers do not make any representation or warranty, express or implied, as to the currency, accuracy, reliability or completeness of any information, statements, opinion, estimates, forecasts or other representations contained in this announcement. No responsibility for any errors or omissions from the announcement arising out of negligence or otherwise is accepted.
Total Resources @ 1.0% Cu cut-off | ||||||
JORC Category | Tonnes | Cu% | Ag g/t | CuEq% | Cu Tonnes | Ag Ounces |
Measured | 518,000 | 1.93 | 48.8 | 2.37 | 10,000 | 813,000 |
Indicated | 1,726,000 | 1.87 | 48.0 | 2.30 | 32,280 | 2,660,000 |
Inferred | 433,000 | 2.52 | 57.4 | 3.03 | 10,900 | 800,000 |
Total | 2,677,000 | 2.00 | 50.0 | 2.44 | 53,180 | 4,273,000 |
Table 2: Mahumo Stage One Mineral Resources
Note: CuEq estimate used at 25 March 2015 = Cu% + (Ag g/t * 0.009)
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THE JORC CODE ASSESSMENT CRITERIA
The JORC Code (2012) describes a number of criteria, which must be addressed in the Public Report of Mineral Resource estimates for significant projects. These criteria provide a means of assessing whether or not parts of or the entire data inventory used in the estimate are adequate for that purpose. The resource estimate stated in this document was based on the criteria set out in Table 1 of that Code. These criteria are discussed as follows:
JORC Code Assessment Criteria | Comments |
Sampling Techniques | Drill core is logged, split by sawing and sampled by MOD personnel at site. The saw blade is cleaned after each core box, by cutting an unmineralised clay brick to reduce the chance for contamination. Diamond drill core sampled are assayed at 1 metre lengths from half core, or less, as dictated by lithological contacts, and assayed for Ag and Cu at Set Point laboratories in Isando, Johannesburg. > 10% Standards, blanks and duplicates are inserted into the sample stream for core on site. The remaining half portion of drill core is retained on site at MOD's core logging facility in Ghanzi, Botswana. |
Nature and quality of sampling (e.g. cut channels, random chips, or specific specialised industry standard measurement tools appropriate to the minerals under investigation, such as downhole gamma sondes, or handheld XRF instruments, etc.). These examples should not be taken as limiting the broad meaning of sampling. Include reference to measures taken to ensure sample representivity and the appropriate calibration of any measurement tools or systems used. Aspects of the determination of mineralisation that are Material to the Public Report. In cases where 'industry standard' work has been done this would be relatively simple (e.g. 'reverse circulation drilling was used to obtain 1 m samples from which 3 kg was pulverised to produce a 30 g charge for fire assay'). In other cases more explanation may be required, such as where there is coarse gold that has inherent sampling problems. Unusual commodities or mineralisation types (e.g. submarine nodules) may warrant disclosure of detailed information. | Drill core is logged, split by sawing and sampled by MOD personnel at site. The saw blade is cleaned after each core box, by cutting an unmineralised clay brick to reduce the chance for contamination. Diamond drill core sampled are assayed at 1 metre lengths from half core, or less, as dictated by lithological contacts, and assayed for Ag and Cu at Set Point laboratories in Isando, Johannesburg. > 10% Standards, blanks and duplicates are inserted into the sample stream for core on site. The remaining half portion of drill core is retained on site at MOD's core logging facility in Ghanzi, Botswana. |
Drilling Techniques | The drilling results referred to in this release were drilled by diamond core drilling rigs. HQ3 diameter drill core was drilled for the shallow drill holes and NQ for the deeper drill holes at Mahumo. |
Drill type (e.g. core, reverse circulation, open-hole hammer, rotary air blast, auger, Bangka, sonic, etc.), and details (e.g. core diameter, triple or standard tube, depth of diamond tails, face-sampling bit or other type, whether core is oriented and if so, by what method, etc.). | The drilling results referred to in this release were drilled by diamond core drilling rigs. HQ3 diameter drill core was drilled for the shallow drill holes and NQ for the deeper drill holes at Mahumo. |
Drill Sample Recovery | Diamond drilling recorded recovery. Core recovery was good Triple tube drilling was used for the shallow drill holes to maximise core recovery in oxidized sediments Drill core was sampled in 1m intervals or as appropriate to align with the geological contacts |
Method of recording and assessing core and chip sample recoveries and results assessed. Measures taken to maximise sample recovery and ensure representative nature of the samples. Whether a relationship exists between sample recovery and grade and whether sample bias may have occurred due to preferential loss/gain of fine/coarse material. | Diamond drilling recorded recovery. Core recovery was good Triple tube drilling was used for the shallow drill holes to maximise core recovery in oxidized sediments Drill core was sampled in 1m intervals or as appropriate to align with the geological contacts |
Sub-Sampling Techniques and Sample Preparation | All diamond core samples for the drill hole intersections were taken as half core samples. MOD took photos of all core samples on site. MOD has implemented an industry-standard QA/QC program. Drill core is logged, split by sawing and sampled at site. Samples are bagged, labelled, sealed and shipped to the Set |
If core, whether cut or sawn and whether quarter, half or all core taken. If non-core, whether riffled, tube sampled, rotary split, etc., and whether sampled wet or dry. | All diamond core samples for the drill hole intersections were taken as half core samples. MOD took photos of all core samples on site. MOD has implemented an industry-standard QA/QC program. Drill core is logged, split by sawing and sampled at site. Samples are bagged, labelled, sealed and shipped to the Set |
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JORC Code Assessment Criteria | Comments |
For all sample types, the nature, quality and appropriateness of the sample preparation technique. Quality control procedures adopted for all sub-sampling stages to maximise representivity of samples. Measures taken to ensure that the sampling is representative of the in situ material collected, including for instance results for field duplicate/second-half sampling. Whether sample sizes are appropriate to the grain size of the material being sampled. | Point prep- laboratories in Francistown, Botswana, by the project manager. Samples arriving at the lab are crushed using a jaw crusher or terminator to a particle size less than15 mm. The resulting chips are further crushed in a Rhino crusher to a fineness of 80% less than 2.0 mm. The total mass of sample crushed is screened at 2.0mm to check crushing efficiency. If the sample requires splitting, samples are split using a Jones riffle splitter. The split to be analysed is placed into a new sample bag with a clearly marked label or sample tag. The remainder of the sample (coarse reject) is returned to the original sample bag to be returned to the client. The split for analysis is milled to achieve a fineness of 90% less than 106 µm (or a fineness of 80 % passing 75 µm to comply with certain clients requirements). After milling, the contents of the bowl is emptied onto a brown paper sheet or clean sample dish then transferred into its sample bag. |
Quality of Assay Data and Laboratory Tests | All samples are prepped at the Set Point prep-lab in Francistown, Botswana. From there the pulps are transported by the Prep-Lab Manager, Mr. Willy Mchunu, to the Set Point assay labs in Isando, Johannesburg. Analytical techniques have been chosen to best characterize total and non-sulphide copper and silver mineralization. The following methods are utilized; (i) Analysis for non-sulphide Cu by: M449 - The Determination of Copper by sulphuric acid leach followed by ICP-OES finish: PROCEDURE: One gram of pulp material is digested using a dilute solution of sulphuric acid and sodium sulphite and made up to a volume of 100ml. The resulting solutions are analysed for copper, nickel, cobalt and other base metals by the technique of ICP-OES (Inductively Coupled Plasma - Optical Emission Spectrometry). REPORTING: For the method (M449), a detection limit of 10ppm are reported with no decimals and when the midpoint (5) between rounded off values is reached the number is rounded up. Below the midpoint, the number is rounded down.(ii) Analysis for Cu and Ag by determination of Silver and Copper by 3 acid digest followed by ICP-OES finish: PROCEDURE: One gram of pulp material is digested using a combination of three acids (HNO3, HClO4 and HCl) and made up to a volume of 100ml. The resulting solutions are analysed for metals by the technique of ICP-OES (Inductively Coupled Plasma - Optical Emission Spectrometry). REPORTING: A detection limit of >10ppm are reported with no decimals and when the midpoint (5) between rounded off values is reached the number is rounded up. Below the midpoint, the number is rounded down. Currently all core samples are analyzed for total and acid soluble Cu. All reported results are down hole widths. |
The nature, quality and appropriateness of the assaying and laboratory procedures used and whether the technique is considered partial or total. For geophysical tools, spectrometers, handheld XRF instruments, etc., the parameters used in determining the analysis including instrument make and model, reading times, calibrations factors applied and their derivation, etc. Nature of quality control procedures adopted (e.g. standards, blanks, duplicates, external laboratory checks) and whether acceptable levels of accuracy (i.e. lack of bias) and precision have been established. | All samples are prepped at the Set Point prep-lab in Francistown, Botswana. From there the pulps are transported by the Prep-Lab Manager, Mr. Willy Mchunu, to the Set Point assay labs in Isando, Johannesburg. Analytical techniques have been chosen to best characterize total and non-sulphide copper and silver mineralization. The following methods are utilized; (i) Analysis for non-sulphide Cu by: M449 - The Determination of Copper by sulphuric acid leach followed by ICP-OES finish: PROCEDURE: One gram of pulp material is digested using a dilute solution of sulphuric acid and sodium sulphite and made up to a volume of 100ml. The resulting solutions are analysed for copper, nickel, cobalt and other base metals by the technique of ICP-OES (Inductively Coupled Plasma - Optical Emission Spectrometry). REPORTING: For the method (M449), a detection limit of 10ppm are reported with no decimals and when the midpoint (5) between rounded off values is reached the number is rounded up. Below the midpoint, the number is rounded down.(ii) Analysis for Cu and Ag by determination of Silver and Copper by 3 acid digest followed by ICP-OES finish: PROCEDURE: One gram of pulp material is digested using a combination of three acids (HNO3, HClO4 and HCl) and made up to a volume of 100ml. The resulting solutions are analysed for metals by the technique of ICP-OES (Inductively Coupled Plasma - Optical Emission Spectrometry). REPORTING: A detection limit of >10ppm are reported with no decimals and when the midpoint (5) between rounded off values is reached the number is rounded up. Below the midpoint, the number is rounded down. Currently all core samples are analyzed for total and acid soluble Cu. All reported results are down hole widths. |
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JORC Code Assessment Criteria | Comments |
Verification of Sampling and Assaying | 15-20% QA/QC checks are inserted in the sample stream, as lab standards, blanks and duplicates. Calculation of copper equivalent value (copper plus silver) based on the reported assay data was carried out using a formula consistent with another significant copper producer in the Kalahari Copper Belt: CuEq% = Cu% + (Ag g/t * 0.009) The accuracy and precision for all the QAQC results are considered acceptable. |
The verification of significant intersections by either independent or alternative company personnel. The use of twinned holes. Documentation of primary data, data entry procedures, data verification, data storage (physical and electronic) protocols. Discuss any adjustment to assay data. | 15-20% QA/QC checks are inserted in the sample stream, as lab standards, blanks and duplicates. Calculation of copper equivalent value (copper plus silver) based on the reported assay data was carried out using a formula consistent with another significant copper producer in the Kalahari Copper Belt: CuEq% = Cu% + (Ag g/t * 0.009) The accuracy and precision for all the QAQC results are considered acceptable. |
Location of Data Points | The collar coordinates of the drill holes referred to in this release were announced on 25 March 2015. Surveys were carried out under the supervision of Peter Whitfield, using a Trimble 5800 Dual frequency GPS surveying system. Both survey were carried out using the Gauss Transverse Mercator Projection system on the Botswana datum with central meridian Lo23 degrees. This system uses 2 degree belts on the odd numbers of longitude in degrees. The values were then converted through the Trimble Geomatics Office software to the Universal Transverse Mercator Projection system (UTM) on the WGS84 system used by the client. Down hole surveys are taken by a DeviFlex non-magnetic electronic multishot surveying tool, inside casings and drill strings by using the wireline system. Magnetic disturbances will not influence the tool. |
Accuracy and quality of surveys used to locate drill holes (collar and downhole surveys), trenches, mine workings and other locations used in Mineral Resource estimation. Specification of the grid system used. Quality and adequacy of topographic control. | The collar coordinates of the drill holes referred to in this release were announced on 25 March 2015. Surveys were carried out under the supervision of Peter Whitfield, using a Trimble 5800 Dual frequency GPS surveying system. Both survey were carried out using the Gauss Transverse Mercator Projection system on the Botswana datum with central meridian Lo23 degrees. This system uses 2 degree belts on the odd numbers of longitude in degrees. The values were then converted through the Trimble Geomatics Office software to the Universal Transverse Mercator Projection system (UTM) on the WGS84 system used by the client. Down hole surveys are taken by a DeviFlex non-magnetic electronic multishot surveying tool, inside casings and drill strings by using the wireline system. Magnetic disturbances will not influence the tool. |
Data Spacing and Distribution | Samples of half core for assaying were generally taken at 1m intervals or adjusted to geological contacts as deemed appropriate by on site geologists. Samples of mineralised drill core for metallurgical test work were composited from different intersections from within sulphide domains in the resource |
Data spacing for reporting of Exploration Results. Whether the data spacing and distribution is sufficient to establish the degree of geological and grade continuity appropriate for the Mineral Resource and Ore Reserve estimation procedure(s) and classifications applied. Whether sample compositing has been applied. | Samples of half core for assaying were generally taken at 1m intervals or adjusted to geological contacts as deemed appropriate by on site geologists. Samples of mineralised drill core for metallurgical test work were composited from different intersections from within sulphide domains in the resource |
Orientation of Data in Relation to Geological Structure | All shallow drillholes drilled at -60 degrees inclination with azimuth perpendicular to the interpreted strike of the mineralized contact. As copper and silver mineralization occurs in veins and disseminations approximately parallel to the mineralised contact there is no apparent sampling bias in the orientation of drill holes. Shallow drill holes were HQ3 core to increase the sample volume to reduce any sample bias. |
Whether the orientation of sampling achieves unbiased sampling of possible structures and the extent to which this is known, considering the deposit type. If the relationship between the drilling orientation and the orientation of key mineralised structures is considered to have introduced a sampling bias, this should be assessed and reported if material. | All shallow drillholes drilled at -60 degrees inclination with azimuth perpendicular to the interpreted strike of the mineralized contact. As copper and silver mineralization occurs in veins and disseminations approximately parallel to the mineralised contact there is no apparent sampling bias in the orientation of drill holes. Shallow drill holes were HQ3 core to increase the sample volume to reduce any sample bias. |
Sample Security | Sample bags were tagged, logged and transported to Set Point prep-lab in Francistown, Botswana. From there pulps are transported by the Prep-Lab Manager, to Set Point assay labs in Johannesburg. |
The measures taken to ensure sample security. | Sample bags were tagged, logged and transported to Set Point prep-lab in Francistown, Botswana. From there pulps are transported by the Prep-Lab Manager, to Set Point assay labs in Johannesburg. |
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JORC Code Assessment Criteria | Comments |
Audits and Reviews | MOD's sampling procedure is done according to standard industry practice. |
The results of any audits or reviews of sampling techniques and data. | MOD's sampling procedure is done according to standard industry practice. |
Mineral Tenement and Land Tenure Status | All drilling was carried out on PL686/2009 which is a granted prospecting licence held by 100% by MOD Resources. MOD has been granted a two year extension of term expiring in September 2016 at which time MOD can apply for further extension or apply for a mining licence. |
Type, reference name/number, location and ownership including agreements or material issues with third parties such as joint ventures, partnerships, overriding royalties, native title interests, historical sites, wilderness or national park and environmental settings. The security of the tenure held at the time of reporting along with any known impediments to obtaining a licence to operate in the area. | All drilling was carried out on PL686/2009 which is a granted prospecting licence held by 100% by MOD Resources. MOD has been granted a two year extension of term expiring in September 2016 at which time MOD can apply for further extension or apply for a mining licence. |
Exploration Done by Other Parties | MOD has conducted substantial drilling on the Mahumo deposit on PL686/2009 since the deposit was discovered by MOD Resources in 2011. A maiden Mineral Resource for the surrounding Corner K deposit was announced by MOD in September 2012. |
Acknowledgment and appraisal of exploration by other parties. | MOD has conducted substantial drilling on the Mahumo deposit on PL686/2009 since the deposit was discovered by MOD Resources in 2011. A maiden Mineral Resource for the surrounding Corner K deposit was announced by MOD in September 2012. |
Geology | The visible copper mineralization intersected in drill holes on PL686/2009 is interpreted to be a Proterozoic or early Palaeozoic age vein related sediment hosted occurrence similar to other known deposits and mines in the central Kalahari Copper Belt. |
Deposit type, geological setting and style of mineralisation. | The visible copper mineralization intersected in drill holes on PL686/2009 is interpreted to be a Proterozoic or early Palaeozoic age vein related sediment hosted occurrence similar to other known deposits and mines in the central Kalahari Copper Belt. |
Drill hole information | This information is summarised in Table 4 in an announcement on 25 March 2015. |
Data aggregation methods | Significant copper and silver intersections are reported by MOD as received from the lab. Weighted averages, based on sample lengths are used to calculate the intercepts. Calculation of copper equivalent values (for copper plus silver) is based on the reported assay data was carried out using following formula consistent with a significant copper producer in the Kalahari Copper Belt. |
Relationship between mineralisation widths and intercept lengths | MOD has reported down hole widths of mineralised intersections in this and previous announcements (Figure 3). Once MOD has more drilling information to enable a meaningful interpretation of the geometry of the entire West Zone deposit at Mahumo, MOD expects to be able to report true width intersections. |
Balance reporting | MOD's exploration is focused on defining high grade vein related Cu/Ag mineralization. |
Further work | A diamond drilling program (Stage One) was completed at Mahumo with results announced on 25 March 2015. This provided the drill core samples used for the metallurgical test work program described in this release. Further diamond drilling (Stage Two) is planned to test potential for lateral and depth extensions to mineralization at the West Zone, East Zone and Central Zone to assist with estimating an extended resource. |
Database Integrity | Data is stored in Microsoft Excel by MOD Resources Botswana. An independent database expert was appointed to validate all data, prior to it being imported into Datamine. |
Measures taken to ensure that data has not been corrupted by, for example, transcription or keying errors, between its initial collection and its use for | Data is stored in Microsoft Excel by MOD Resources Botswana. An independent database expert was appointed to validate all data, prior to it being imported into Datamine. |
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JORC Code Assessment Criteria | Comments |
Mineral Resource estimation purposes. Data validation procedures used. | The author of the database and QAQC report has captured the geological and analytical data into an Access-based database. After capturing the database was validated by the software programme Visual GeobaseTM non‐material issues were identified and corrected in consultation with MOD Resources staff. Datamine was used as a secondary validation of all data. |
Confidence in (or conversely, the uncertainty of) the geological interpretation of the mineral deposit. Nature of the data used and of any assumptions made. | The author of the database and QAQC report has captured the geological and analytical data into an Access-based database. After capturing the database was validated by the software programme Visual GeobaseTM non‐material issues were identified and corrected in consultation with MOD Resources staff. Datamine was used as a secondary validation of all data. |
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