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Benchmarking: Bond-Boddington
The Bond (impact) crushing work index is given as 27.7 based on a laboratory determination. Use the circuit survey data to compare the operating work index to this laboratory determination. The reported
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Bond Work Index Tests | GSL
The Bond Ball Mill Work Index (BBWi) test is carried out in a standardised ball mill with a pre-defined 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 stage-crushed to 100% passing size of <3.35 mm.
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: Alex Doll · maka W = 19,5 x 10 x (1/ (500^0,5)-1/ (150.000)^0,5) didapat W = 8,22 kwh/ton. Untuk pabrik berkapasitas 400 ton/ jam, maka kapasitas motor Mill yang harus dipasang adalah. 400 ton/jam x 8,22 kwh/ton = 3288 kW. Operation Work Index. Apa itu Operation Work Index (Wi) ? adalah suatu angka yang menunjukkan karakteristik
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· With the models proposed for α, β, and γ, the Bond Work Index (kWh/t) can be rapidly estimated (less than 2 hours) and show a high accuracy for mills of non-standard dimensions (R<sup>2</sup
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Effect of core diameter on the Bond impact crushing work index
With respect to the crushing work index test, F.C. Bond (1946) specifies that “In the standard method of testing only broken pieces that pass a 3-in. square opening and are retained on a 2-in. square opening are used. Slabby or acicular pieces are discarded” (p
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· Results and discussion. The results of determining the grindability on a sample of zeolites on fine size classes are shown in Table 3. Based on the obtained results, it was determined that the BWI for fine materials can be calculated as follows: W Fm = k ∙ W i F Fm 0.05 where in: W Fm-BWI for fine materials, (kWh/t);
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Comminution Tests Required to Assess the Energy Requirement Prior to Commissioning Crushing
Crushing Work Index (CWI) It is used to calculate actual crusher power requirements. This index describes the competency of the ore at larger particle sizes. In this test representative rock specimens in the size range-76+50mm are to Equation (4
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· Geometallurgical modeling of the production benches is an attempt to estimate the geometallurgical variables of the different ore domains, which leads to a better understanding of the ore and its properties. Having geometallurgical variables results in a more accurate prediction of ore characteristics, an improved drilling and blasting
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· A Bond Ball Mill Work Index test is a standard test for determining the ball mill work index of a sample of ore. It was developed by Fred Bond in 1952 and modified in 1961 (JKMRC CO., 2006). This index is widely used in the mineral industry for comparing the resistance of different materials to ball milling, for estimating the energy required
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· The Bond work index (BWI) is a well-known method used when selecting comminution equipment, to evaluate the grinding efficiency and to calculate the required grinding power. Although considered an industry standard, Bond did not fully define that procedure, and therefore significant discrepancies in test results can sometimes be
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· Bond (1947) defined the impact energy per unit of thickness CB by dividing the impact energy by the thickness of each particle w, so that (1) C B = 117 ( 1-cos ϕ) / w where ϕ is the angle, w is given in mm and CB in J/mm. From this and the material specific gravity ρs (in g/cm 3) Bond proposed to estimate the crushing work index using the
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Testwork: Bond crushing work index-SAGMILLING.COM
Crushing mill work index is used in the SAGMILLING.COM Bond/Barratt specific energy consumption model . The work index is used to calculate the energy requirement to break rocks in the coarse size range, from >100 mm down to about 10 mm-20 mm. Categories: Testwork. Bond work index.
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Correlation of crushing work index and drop-weight
The F80 values used were derived using a methodology that relates the primary crusher, close side setting (CSS) and ore hardness (Drop-Weight Index, DWi) to the primary crusher product P80 (Bailey
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· A linear relationship between grindability index, G, and friability value was found as given in Eq.(2).The correlation coefficient is very high, at 0.99. (2) G = 0. 171 + 0. 021 (S 20) The relationship between friability value (S 20) and Bond work index (W i) also has a high correlation of 0.97 and this relationship is given in Eq.
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BOND'S WORK INDEX: WHAT IT IS AND WHAT IT ISN'T
BOND'S WORK INDEX: WHAT IT IS AND WHAT IT ISN'T *Alex Doll1 and Berge Simonian2 1Alex G Doll Consulting Ltd. PO Box 1236 Logan Lake, BC – V0K 1W0 (*Corresponding author: [email protected]) 2Centerra Gold Inc. – Mount Milligan Mine 299
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: Vladimir Nikolić, Milan Trumić
BOND'S WORK INDEX: WHAT IT IS AND WHAT IT
Bond's work index is one of the mostly widely used metrics of mineral grindability. In spite of its ubiquity, users are often not aware of the nuances of the work
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impact crushing work index
Responsive Multipurpose HTML5 Business Template Impact work index prediction from continuum damage model Dec 01, 2007· An impact pendulum that follows strictly Bond's standard for crushability measurement (Bond, 1947, Bergstrom, 1985, Tavares, 2007
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Crushing Work Index for PQ Core sample-911 Metallurgist
The Bond crushing work index test procedure is not terribly well described, and different laboratories have different procedures that can result in different results (by up to -50% +100%). I am not aware of the calibration of the test being checked in over 50 years, so it is impossible to say which procedure is "correct".
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· This is or was used by Sandvik to acquire the Impact (AKA Crushing) Work Index for sizing crushers. Use this in complement to the Bond Crushing Work Index Procedure. Another Summary Table of various Impact Work Index by Rock or Mineral Type (/metric tonne). Find a referential Rod Mill Work Index Table here.
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Bond Crushing Law and Work Index Calculator (Comminution
Work Index. Work Index (𝑊𝑖 ) is a parameter used to quantify the gross energy required in kilowatt hours per ton of feed needed to reduce a very large feed to such a size that 80% of the crushed product is finer than a 100 microns size. It is derived from Bond’s Law, which relates the energy required for comminution (crushing and
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: Joshua Wright
C.A. Rowland-Springer
Key words: Comminution, Bond work index, Grinding, Crushing, Ball mills, Rod Mills. Theoretical efficiency In their book Process Engineering of Size Reduction-Ball Milling, Austin, Klimpel and Luckie (1984) stated that, "We have tried throughout this book to
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· Impact Work Index Procedure. This is or was used by Sandvik to acquire the Impact (AKA Crushing) Work Index for sizing crushers. Use this in complement to the Bond Crushing Work Index Procedure. Another Summary Table of various Impact Work Index by Rock or Mineral Type (/metric tonne). Find a referential Rod Mill Work Index
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· Work Index. Work index indicates the difficulty of ore crushing or ore grinding in mineral processing operation. The initial definition is the work Wi consumed by crushing the unit mass material with infinite particle size to the product with particle size of 100 microns. The mathematical expression is: $$ {W}_i=\frac {W} {\frac {10} {\sqrt {P
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Bond Impact Crushing Work Index -Procedure and Table of
Sizing a crusher can be done reliably calculated thanks to the Impact/Crushing Work Index and the testwork research done by Fred Chester Bond and his 1952 paper. According to Bond’s Third Theory of Comminution, the work/energy input is proportional to the new crack tip length created during particle breakage and equivalent to the work represented
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· Bond Work Index (BWI) versus Hardgrove Grindability Index (HGI). However it should be noted that this correlation is based on a very limited number of samples and is only applicable for the test equipment and experimental conditions used to obtain the W i and HGI values.
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BOND TESTING EQUIPMENT-Laarmann
Laarmann Group B.V. Op het Schoor 6 6041 AV The Netherlands [email protected] www.laarmann.eu webshop.laarmann.eu +31 6 23 40 00 33 ond crushing work index ( Wi) The ond crushing work index (Wi) describes the competency of the ore at larger particle
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Bond Work Index (Energy equation)-Grinding & Classification Circuits-Metallurgist & Mineral Processing Engineer
BOND WORK INDEX The Bond Work Index is a factor that measures the energy consumed in size reduction operation of the ore. The Bond's Work Index equation is: W=WI* (10/√P80 -10/√F80) where W= the energy
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· The F. Bond Pendulum crusher Carring on with a theme that we’ve already touched in the previous publication, we will consider the methodology of the F. Bond index calculating. As you know, there are
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· El "Indice de trabajo" es, respecto a la medida de la energía usada en la reducción de tamaño de partículas, lo que el metro es a la medida de la distancia. Es una medida estándar que lleva reduce todo circuito de reducción de tamaño de partículas a una base común de comparación.
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· crushability and grindability in the minerals industry. Although not as popular as the Bond ball mill or the Bond rod mill work indices, the impact work index, also called Bond crushability index
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