Different materials are used as media, including ceramic balls, flint pebbles and stainless steel balls.The objective of Bond ball mill test is carried out to determine the standard work index which is defined as the specific power required to reduce a material from a notional infinite size to a P80 size of 150μm.
Kinetic grinding test approach to estimate the ball mill work index 343 The W i parameter is obtained from Bond's ball mill grindability test (Bond, 1961). This test is performed according to the standard Bond procedure which proposed model is presented in Eq. 1. This standard grindability test …
Jul 30, 2020· An improved method using less mass compared to the Bond Ball Mill Work Index test. The JK Bond Ball Mill (JKBBM) test, is a locked cycle grindability test conducted using a standard laboratory Bond Ball Mill with the same steel ball charge and material feed size ( passing 3.35 mm) as the Bond Ball Mill Work Index test.
2.4. Bond Ball Work Index Test A grinding mill (F305 mm 305 mm) was used for the Bond ball mill work index test [18–21]. This ball mill was filled with 285 steel balls (total weight of 20.125 kg) at an operation speed of 70 rpm. The feed sample was prepared via crushing and sieving, giving rise to a size smaller than 3.35 mm.
The Bond Ball Mill Grindability Test is a locked-cycle laboratory grinding test. It provides the Bond Ball Mill Work Index which expresses the resistance of a material to ball milling. This Index is widely used in the mineral industry for comparing the resistance of different materials to ball milling, for estimating the energy required for grinding, and for ball mill scale-up.
Bond Ball Mill Work Index test laboratory procedure. Allis-Chalmers Form 7669-3, revised May 17, 1983, provided to McGill University. Bond, F. C. (1946, January).
Aug 01, 2005· The Bond work index is one of the most useful and interesting parameters used in designing grinding equipment. However, it must be obtained under restrained conditions, especially in regards to the Bond standard lab mill. The main objective of this study is to show how this index can be obtained using a Denver ball mill, which is present in most mineral processing laboratories.
The Bond work index determination according to the standard Bond's test is done on all these samples with compara-tive sieve size of 74, 105 and 150 microns. The Bond Work Index is calculated using the formula (Bond, 1961): (√ √) (1) where: W i – Bond work index (kWh/t); P c – test …
Measurements of the Bond work index in ball mills have been conducted using the standard Bond mill (Table 1) operating in the standard conditions recommended by Bond.(1) The feed to the test was prepared by stage crushing so that of the material passed the 3.35 mm (6#) opening sieve. The closing sieve (Am) used in all the tests was 150 µm.
Oct 15, 2015· Standard grindability tests have been developed for coal, with the Hardgrove Grindability Index (HGI) being the standard test for vertical spindle mills,, and the Bond Work Index (BWI) for tube and ball mills, .
of the Bond ball mill work index test was needed if the industry was to improve upon current practice. John, an experienced pilot plant manager and feasibility engineer, experimented with a bench scale SAG test protocol. He brought his findings to the attention of MinnovEX Technologies Inc. in 1994 and the Starkey SAG test evolved
Jun 06, 2015· This Grindability Test or Bond Ball Mill Work Index Procedure is used to determine the Bond Work Index of minus six mesh or finer feed ore samples. These equation application methods are used to process <1/2″ ore samples in a Ball Mill using a standard ball charge.. Below describes in general terms the Bond Work Index Procedure used by a Professional Metallurgical Testing Laboratory.
Test name: Bond Rod Mill Work Index Abbreviation Alternate Forms Wi RM: RWI Typical F 80 size Typical P 80 size 11 000 µm 900 µm Models: Bond models The Bond rod mill work index is not as common as the Bond ball mill work index, and there are two different variations on the mill apparatus. The SAGMILLING.COM models expect a mill with a "wave ...
This paper investigates grinding of mineral mixtures with different grindabilities in the Bond ball mill. Understanding the ore mixture grinding is of great importance in mineral processing. The energy required for crushing and grinding is presented by the Bond work index and is determined by means of Bond grindability test. This paper presents the experimental results of the Bond work index ...
ization data generated from the SMC Test® (see Annex A) and the Bond Ball Mill Test Work Index (WiBM; GMG, 2016a), and the Morrell equations and their application (see Annex B). A worked example is provided in Annex C. 5. SCOPE The Morrell method can be used to predict the specific energy of comminution circuits, where such circuits include
can be determined using the data generated by a conventional Bond ball mill work index test (M. ib. is NOT the Bond ball work index). M. ic. and M. ih. values are also provided as a standard output from a SMC Test ® (Morrell, 2009). The general size reduction equation is as follows (Morrell, 2004. b): f x f x 2. 1 i i. 4 2 W M x x. 1 (1) where ...
Alternative Approaches for Determination of Bond Work Index ... The Bond's grindability test can be used to determine the work index of any type of ore or material. But the process is tedious and long time consumption. ... These studies were carried out in a standard ball mill 300 mm X …
Ball Mill Wio, BWio 8.6 Circuit Wio, OWio 14.6 Bond Ball Mill Work Index, BWi, kWh/t 13.4 Bond Rod Mill Work Index, RWi, kWh/t 18.1 Table 1. Example of AG/SAG 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 ...
Sep 08, 2013· 1.)energy index in the laboratory test and by using the "C" factor we can establised the Bond work index which is appalicable for the inductrial mill. 2.) I experience in many inductries people use different type of lab ball mill for testing (totally different with the details what you give in attachement link). what is the the impact of this ...
2005), the SMC Test® drop weight test index (DWI) (Morrell, 2004), the SAG power index (SPI®) (Starkey & Dobby, 1996) and Bond ball mill work index (BWI) (Bond, 1961), provide unquestionable margin of design safety in the plant (David, 2013).
test using ball-race test mill was performed. Knowing the Hardgrove indices, the Bond work indices of some samples were estimated using the Aplan's formula. The approximate work indices were determined by running a batch dry-grinding test using a laboratory ball mill. Finally, the work indices obtained from both methods were compared.
A quick procedure with two grinding cycles for the determination of the Bond. work index approximate value is exactly the same as in the first two grinding cycles of. the standard Bond test and ...
Jan 31, 2019· Bond Work Index. A standard 12″ × 12″ laboratory Bond ball mill was used to conduct the work-index experiments. About 50 kg of each of the BHQ and BHJ samples was prepared in −3.35 mm size by a jaw crusher followed by a roll crusher. Size analysis results for the crushed products of the BHQ and BHJ samples are shown in Fig. 1.
The Bond Index conforming rod charge consists of: 6 rods of 1.25" diameter and 21" length. 2 rods of 1.75" diameter and 21" length. The grinding jar for the Bond Index Rod Mill is 12″ x 24″ in size and has a wave-shaped design. At least 15 to 20 kg sample material is required to simulate a closed grinding circuit in a ball or rod mill.
Dec 07, 2018· The test work program was carried out on those five ore samples obtained from the copper-porphyry orebodies. Total of 38 Bond work index tests, including duplicates, were done. Standard Bond ball mill test procedure were carried out on crushed (-3.35 mm / …
The Bond rod mill grindability test is performed similarly to the ball mill test. The feed sample is stage-crushed to ½" (12.5mm) and the test is run under a circulating load. The test can also be closed with various sieve sizes, but for AG/SAG mill analyses the standard 14-mesh (1.18mm) sieve is typically used. The rod mill work index is
The Bond Ball Mill Work index (BBWi) is the industry standard procedure for assessing the grindability of ores. The test involves conducting a locked-cycle grinding test using ond's standard mill design. The locked-cycle test enables a batch process to emulate the grinding behaviour of a continuous mill with a 250% recirculating load.
Bond devised several methods for predicting ball-mill and rod-mill energy requirements and provided an accurate measure of ore grindability (Gupta and Yan, 2006). The standard Bond test requires constant screening out of undersized material in a closed circuit operation. The