bond impact crushing work index test

  • Bond Impact Crushing Work Index -Procedure and Table of

    Apr 19, 2018· The test determines the Bond Impact Work Index which is used with Bond’s Third Theory of Comminution to calculate net power requirements when sizing crushers*. It is also used to determine the required open-side settings (jaw crushers and gyratory crushers) or closed-side settings (cone crushersBond Impact Crushing Work Index Testing Machine Pendulum,Crusher Performance Characterization Test Procedure The Bond Impact Work Index method has been an industry standard for the determination of crusher power requirements but was originally developed to ensure, that sufficient power was

  • Testwork: Bond crushing work index SAGMILLING.COM

    The Bond low-energy impact crushing work index (more informally, the Bond crushing work index) is not as common as the Bond ball mill work index, and it is a notoriously noisy test. The test is a 'per-specimen' test where individual specimens of prepared rock are hand-picked by Bond Work Index an overview ScienceDirect Topics,Bond impact crushability work index (CWi) (Bond, 1963) results reported for iron ores vary from hard iron ore (17.7 kWh/t) to medium hardness iron ore (11.3 kWh/t) and friable iron ore (6.3 kWh/t) (Table 2.11; Clout et al., 2007).

  • Bond Impact Crushing Work Index Tester YouTube

    Mar 21, 2017· https://911metallurgist/equipment/laboratory/bond/impact-crushing-work-index/Testwork: Bond crushing work index SAGMILLING.COM,The Bond low-energy impact crushing work index (more informally, the Bond crushing work index) is not as common as the Bond ball mill work index, and it is a notoriously noisy test.. The test is a 'per-specimen' test where individual specimens of prepared rock are hand-picked by the test operator and placed into the apparatus.

  • Compare and Understand Rod/Ball/Impact-Crushing/Abrasion

    Mar 17, 2017· The Bond rod mill work index (Wi RM, or RWi) conducted from a feed size of approximately 10 mm to a product size on the order of 1 mm. The Bond crushing (impact) work index (Wi C, CWi, LEIT or IWi) conducted on specimens of a nominal dimension between 50 mm and 75 mm. The product size is not relevant to this test; it is a determination of theBond Work Index Tests Grinding Solutions Ltd,The Bond Low-Energy Impact test can be used to determine the Crusher Work index (CWi), also known as the Impact Work Index. The test determines the impact energy at which a specimen fails and allows approximation of net power requirements for sizing crushers. The open and closed sized settings for given product sizes can also be determined. The

  • Bond Work Index Formula-Equation

    Apr 18, 2018· The work index Wi can be determined from plant operations and from laboratory ball mill grindability, rod mill grindability, and impact crushing tests. The laboratory test results are used to check the efficiency of commercial operations and to compute the proper machine sizes for new installations.(PDF) A quick method for bond work index approximate value,The Bond work index is a measure of ore resistance to crushing and grinding and is determined using the Bond grindability test. Its value constitutes ore characteristic and is used for industrial

  • Comparison between bond crushing energy and fracture

    the Bond index. There is considerable difference between Bond crushing energy and work done by the jaw crusher for rocks. It appears that the Bond approach is not a suitable method for using a standard impact crushability test that was applied to 15 cubic specimens of height 50 mm. The dry density of theGMSG GUIDELINE: DETERMINING THE BOND EFFICIENCY ,Bond Work Index Testing Equipment and Procedures See Annexes A, B and C for Bond crushing, rod mill and ball mill test equipment and procedures. Accuracy of Comparative Circuit Work Index Efficiency Determinations This will follow in an addendum to this guideline Sub-topics will . include the following.

  • Comparison of UCS to Bond Work Indices

    FIGURE 1: BOND CRUSHING WORK INDEX v. UNCONFINED COMPRESSIVE STRENGTH 0 100 200 300 400 UCS, MPa 10 20 30 40 50 WiC (metric) The scatter of the points in Figure 1 indicates no correlation between crushing work index and UCS.USING THE SMC TEST® TO PREDICT COMMINUTION ,= Coarse ore work index and is provided directly by SMC Test ® For fine particle grinding equation 1 is written as: f x f x 3. 2 b ib. 4 3 W M x x. 2 (5) where . x. 2 = 750 microns . x 3 = P 80 of final grind in microns . M. ib = Provided by data from the standard Bond ball work index test using the following equation (Morrell, 2006): ( ) M 80

  • CRUSHER WEAR PARTS Terex

    BOND WORK INDEX The amount of energy required by plant to crush material LOS ANGELES VALUE The Los Angeles test is commonly used to evaluate the hardness of aggregates to find the suitability of aggregates for use in road construction. Therefore, the road aggregates should be hard enough to resist abrasion. UCS (UNIAXIAL COMPRESSIVE STRENGTH)CORRELATION BETWEEN BOND WORK INDEX AND ,The Bond work index is regarded as one of the crushing modeling is given by studied rock failure under tensile stress conditions under impact forces. The Bond grindability test has been widely used for predictions of ball and rod The Bond work index is defined as the kilowatt-hours per short ton required

  • Bond Tests SGS USA

    * Bond F. C., “Crushing Tests by Pressure and Impact”, Trans AIME, Vol 169, 1947, pp 58-66. Bond Rod Mill Grindability Test. The test determines the Bond Rod Mill Work Index which is used with Bond’s Third Theory of Comminution to calculate net power requirements when sizing ball mills*. Various correction factors may have to be applied.Geometallurgy Wikipedia,The Bond ball mill work index test is thought to be additive because of its units of energy; nevertheless, experimental blending results show a non-additive behavior. [18] The SPI(R) value is known not to be an additive parameter, however errors introduced by block kriging are not thought to be significant .

  • Size Reduction and Energy Requirement ScienceDirect

    Jan 01, 2016· Thus, the test work index value multiplied by the product of the correction factors will provide an estimate of the true (plant) work index value. (3.42) W i = W i TEST × F 1 × F 2 × ⋯ × F 7 × F 8. Factors for condition not applicable should be taken as 1. The Bond work index value changes with the sieve size chosen during a particular test.Bond Work Index Tests Grinding Solutions Ltd,The Bond Low-Energy Impact test can be used to determine the Crusher Work index (CWi), also known as the Impact Work Index. The test determines the impact energy at which a specimen fails and allows approximation of net power requirements for sizing crushers. The open and closed sized settings for given product sizes can also be determined. The

  • (PDF) A quick method for bond work index approximate value

    The Bond work index is a measure of ore resistance to crushing and grinding and is determined using the Bond grindability test. Its value constitutes ore characteristic and is used for industrialComparison between bond crushing energy and fracture,the Bond index. There is considerable difference between Bond crushing energy and work done by the jaw crusher for rocks. It appears that the Bond approach is not a suitable method for using a standard impact crushability test that was applied to 15 cubic specimens of height 50 mm. The dry density of the

  • QUICK METHOD FOR BOND WORK INDEXAPPROXIMATE

    Abstract: The Bond work index is a measure of ore resistance to crushing and grinding and is determined using the Bond grindability test. Its value constitutes ore characteristic and is used for industrial comminution plants designing. Determining the Bond work index GMSG GUIDELINE: DETERMINING THE BOND EFFICIENCY ,Bond Work Index Testing Equipment and Procedures See Annexes A, B and C for Bond crushing, rod mill and ball mill test equipment and procedures. Accuracy of Comparative Circuit Work Index Efficiency Determinations This will follow in an addendum to this guideline Sub-topics will . include the following.

  • Comparison of UCS to Bond Work Indices

    FIGURE 1: BOND CRUSHING WORK INDEX v. UNCONFINED COMPRESSIVE STRENGTH 0 100 200 300 400 UCS, MPa 10 20 30 40 50 WiC (metric) The scatter of the points in Figure 1 indicates no correlation between crushing work index and UCS.Size Reduction and Energy Requirement ScienceDirect,Jan 01, 2016· Thus, the test work index value multiplied by the product of the correction factors will provide an estimate of the true (plant) work index value. (3.42) W i = W i TEST × F 1 × F 2 × ⋯ × F 7 × F 8. Factors for condition not applicable should be taken as 1. The Bond work index value changes with the sieve size chosen during a particular test.

  • USING THE SMC TEST® TO PREDICT COMMINUTION

    = Coarse ore work index and is provided directly by SMC Test ® For fine particle grinding equation 1 is written as: f x f x 3. 2 b ib. 4 3 W M x x. 2 (5) where . x. 2 = 750 microns . x 3 = P 80 of final grind in microns . M. ib = Provided by data from the standard Bond ball work index test using the following equation (Morrell, 2006): ( ) M 80CRUSHER WEAR PARTS Terex,BOND WORK INDEX The amount of energy required by plant to crush material LOS ANGELES VALUE The Los Angeles test is commonly used to evaluate the hardness of aggregates to find the suitability of aggregates for use in road construction. Therefore, the road aggregates should be hard enough to resist abrasion. UCS (UNIAXIAL COMPRESSIVE STRENGTH)

  • Mineral Processing Crushing Plant design, construction

    Feb 26, 2014· GRINDABILITY TESTS Bond Rod mill work Index • The rod mill work Index is also normally distributed with and average and median of 14.8kWh/t • It is common to observe difference between the ball and rod mill caused by variation in ore hardness • The test has been mainly used for the design of rod mill or primary ball mills. httpOrway Mineral Consultants Canada Ltd. Mississauga, ON,Drop Weight Index (DWi) and the coarse ore grinding index (M ia). Test data from the Bond ball mill work index test is used to calculate the fine grinding index (M ib). The M ia and M ib indices are used to calculate specific energy for the coarse (W a) and fine (W b) components of the total grinding specific energy at the pinion (W

  • Energy considerations in compressive and impact crushing

    Aug 01, 2008· Crushing tests were made in a test plant located in Dalby in Southern Sweden. Tests were made with a Sandvik H3800 cone crusher equipped with a set of F-liners, which is a fine crushing chamber. For comparison, tests were made in the same plant, with a Sandvik Merlin RP-106 VSI (vertical shaft impact crusher).Abrasion Test SGS,SGS's team of experienced engineers will conduct the Abrasion Test in combination with other bench-scale tests and circuit simulation. The use of many methodologies provides you with a bankable solution that is unmatched in its rigor. * Bond F. C., “Metal Wear in Crushing and Grinding”, Allis-Chalmers Publication 07P1701, Dec 1963. contact us

  • Metcom Expertise Metcom Technologies

    Another bulletin will describe how Bond used it to prescribe mill power requirements for new projects by measuring the Work Index of the ore, and subsequently how to use it to calculate and compare circuit efficiencies. Reference: F.C. Bond, "Crushing and Grinding Calculations", British Chemical Engineering, June, 1961, pp.378-385.,