The FC Bond Work Index Test Ball Mill was designed by F C Bond for use in determining the Bond Index a measure of grindability and power required for grinding applications The FC Bond Mills are used in laboratories throughout the world A copy of Fred C Bond’s Method of Crushing and Grinding for determination of the Bond Index is included with each mill
Diamond reserves and production of South Africa are in the front rank of the world. Large-scale development and utilization of diamonds result in production of a large number of diamond wastes. Resource utilization of diamond waste can turn waste into tre...
Processing capacity: 30-50 t/hApplied material: diamond waste
This customer is from a construction company in Bamako, Mali. According to our customer's high demand of production capacity and granularity of finished production, our engineer assembled 2 mobile crushing stations of FTM1142E710 model and FTM3S186PYF13 m...
Processing capacity: 150 t/hApplied material: granite
Related Equipments: vibrating feeder, jaw crusher, cone crusher, sand maker and vibrating screen....
Raw Material: granite
Crushing Capacity: 240t/h
Size of Finished case: 31.5mm-50mm
Manganese Ore Crushing Project in South Africa is composed of coarse mobile crushing station including GZD1300×4900 vibrating feeder and PEW860 euro jaw crusher, medium and fine mobile crushing and screening station including HP300 cone crusher and 3YK186...
Processing capacity: 200-250MTPHApplied material: manganese ore (40% grade)
The FC Bond Work Index Test Ball Mill was designed by F C Bond for use in determining the Bond Index a measure of grindability and power required for grinding applications The FC Bond Mills are used in laboratories throughout the world A copy of Fred C Bond’s Method of Crushing and Grinding for determination of the Bond Index is included with each mill
The Bond ball mill work index is one of the most commonly used grindability tests in mining and is often referred to as the Bond work index The test is a lockedcycle test where ground product is removed from test cycles and replaced by fresh feed The test much achieve a steadystate before completion Sample Requirements
The ability to simulate the Bond work index test also allows examination of truncated ball mill feed size distributions on the work index For grinding circuits where the feed to a ball mill is sent directly to the classifier and the cyclone underflow feeds the ball mill see Figure 310 a question arises as to whether this practice will alter the ball mill work index BW i of the material
ball mill grindability The test mesh used was 100 mesh P 1416 The Bond work index W i was calculated from Equation 2 W i 445P 1 023 X Gbp 082 10P 80 05 05± 10F 80 2 Where F 80 is the size in µm at which 80 percent of the new feed to ball mill passes
The test work program was carried out on those five ore samples obtained from the copperporphyry orebodies Total of 38 Bond work index tests including duplicates were done Standard Bond ball mill test procedure were carried out on crushed 335 mm 6 mesh material at different
The Bond Ball Mill Work Index BBWi test is carried out in a standardised ball mill with a predefined media and ore charge The Work Index calculated from the testing can be used in the design and analysis of ball mill circuits The test requires a minimum of 10kg of sample that has been stagecrushed to 100 passing size of 335 mm
The corrected ball mill operating work index using this method is 133kWht which is close to the Bond ball mill work index of the ore 134kWht The measured transfer size of 726μm produced by the AGSAG mill corresponds to an equivalent 237μm T’ 80
Ball mill was employed to conduct the grinding test of seven different samples Among all seven samples collected from the different faces of quarry Bond work index of limestone Face4A results less than 20kwht remaining 6 samples are marked as hard rock because of
This study aims to develop a new approach toward estimating the Bond ball mill work index BBWI by applying a series of kinetic grinding tests with Bond standard mill The Bond work index Wi
micrometers in size According to the Bond standard procedure the work index is determined by simulating a dry grinding in a closed circuit in the Bond ball mill to achieve 250 circulating load Bond 1949 1952 1961 The test is performed on a raw material approximately weighing 10 kg which coarseness is 100 3327 mm
The grinding jar for the Bond Index Rod Mill is 12″ x 24″ in size and has a waveshaped design At least 15 to 20 kg sample material is required to simulate a closed grinding circuit in a ball or rod mill The Rod Mill Work Index RWI is used for particle size determination in a size range from 25 mm down to 21 mm whereas Ball Mill Work
The test work program was carried out on those five ore samples obtained from the copperporphyry orebodies Total of 38 Bond work index tests including duplicates were done Standard Bond ball mill test procedure were carried out on crushed 335 mm 6 mesh material at different
The Bonds standard ball mill is used to determine the work index value of differ ent samples The Bond work index is defined as the kilowatthours per short ton required to break from infinite size to a product size of 80 passing 100 µm If the breakage
Ball Mill Wio BWio 86 Circuit Wio OWio 146 Bond Ball Mill Work Index BWi kWht 134 Bond Rod Mill Work Index RWi kWht 181 Table 1 Example of AGSAG Ball Mill Circuit Wio Calculations 1 2 ABstrAct Optimum use of power in grinding both in terms of grinding efficiency and use of installed capital can have a large effect on
Similar to a Comparative Work Index this test is an open circuit dry batch grindability test run in the standard Bond Ball Mill for a set time It can be used at mesh sizes from 65 to 200 mesh normally 100 mesh The test requires calibration against the standard Bond Ball Mill Work Index test to estimate the Work Index
This study aims to develop a new approach toward estimating the Bond ball mill work index BBWI by applying a series of kinetic grinding tests with Bond standard mill The Bond work index Wi
In this regard calculation of work index of limestone made by standard Bond grindability test Ball mill was employed to conduct the grinding test of seven different samples Among all seven samples collected from the different faces of quarry Bond work index of limestone Face4A results less than 20kwht remaining 6 samples are marked as hard
First a Jar Mill grindability test requires a 5 lb 2 kg sample and produces a direct measured specific energy net Hphrt to grind from the design feed size to the required product size The second test a Bond Work Index determination results in a specific energy value
Correction of Bond Ball Mill Work Index Test for Closing Mesh Sizes It is commonly known that one must run the Bond ball mill work index test such you pick
standard Bond crushing and rod mill work indices abrasion indices and by Dawson for Bond Ball Mill Work Index tests using crushed feed and Standard Autogenous Grinding Design SAGDesign Tests patented by Outokumpu See reference 8 below The comparison of these results gives context to how the various measurements relate to each
Jul 30 2020 · A Bond Ball Mill Work Index may also be used in the simulation and optimisation of existing mills and the associated grinding circuits Sample requirements A minimum of 8 kg of material crushed to nominally minus 10 mm is preferred JKTech would stage crush the sample to minus 335 mm as required for the Bond Ball Mill Work Index test feed
Bond Test WI’s kWht Rod Mill Ball Mill 95 kWht8 9 kWht Bond Standard Circuit Work Index Assume the rod mill Work Index of 95 applies from the actual rod mill feed sizeof 19300 mµ although some of this work might ideally be done by crushers to achieve a rod mill F80 of 16000 m to a rod µ
Where WioACTis the Actual Operating Bond Work Index kWht W is the specific energy input kWht P80 is the 80 passing size of product µm and F80 is the 80 passing size of circuit feed µm 2 Calculate the Standard Circuit Bond Work Index WiSTD for