Using the breakage matrix approach to define the optimal particle size distribution of the input material in a milling operation

Fistes A.; Raki? D.; Taka?i A.; Brdar M.

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Using the breakage matrix approach to define the optimal particle size distribution of the input material in a milling operation

机译：使用破损矩阵方法来定义铣削操作中输入物料的最佳粒度分布

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The breakage matrix approach proved to be a useful tool in describing the milling processes. Having determined the breakage matrix for any particle size distribution (PSD) of input material, the PSD of output can be predicted. In this paper, the reversibility of the aforementioned approach is examined. Perceived limitations of the breakage matrix approach are considered within the mathematical calculation. It is established that the procedure is determined by the dimension of the breakage matrix (relation between the number of input and output size fractions). The paper shows that the breakage matrix approach can be used to define the PSD of the input material to a milling operation which would give the desired PSD of the output material.

机译：损坏矩阵方法被证明是描述铣削过程的有用工具。确定了输入材料的任何粒径分布（PSD）的破损矩阵后，就可以预测输出的PSD。本文研究了上述方法的可逆性。在数学计算中考虑了破损矩阵方法的感知限制。可以确定的是，该过程由破损矩阵的尺寸（输入和输出尺寸分数的数量之间的关系）确定。本文表明，可以使用破损矩阵方法来定义输入材料的PSD，以进行铣削操作，从而获得所需的输出材料PSD。

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《Chemical Engineering Science》 |2013年第null期|共8页
作者
Fistes A.; Raki? D.; Taka?i A.; Brdar M.;
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正文语种 eng
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Breakage matrix approach; Linear programming; Particle size distribution; Reverse problem; Singular value decomposition;

机译：破损矩阵法;线性规划;颗粒尺寸分布;反问题;奇异值分解;

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1. Using the breakage matrix approach to define the optimal particle size distribution of the input material in a milling operation [J] . Fistes A., Raki? D., Taka?i A., Chemical Engineering Science . 2013,第Null期

机译：使用破损矩阵方法来定义铣削操作中输入物料的最佳粒度分布
2. New Mikro MAK Classifier Mill: Defined Particle Size Distribution of Fibrous Materials and Natural Products: "Changing of the Guard" on the Fine Grinding Sector [J] . Wolfgang Geisler Powder Handling & Processing . 2005,第2期

机译：新的Mikro MAK分级机：纤维材料和天然产品的确定粒度分布：精细研磨领域的“改变警卫队”
3. Evaluation of material properties using planetary ball milling for modeling the change of particle size distribution in a gas-solid fluidized bed using a hybrid artificial neural network-genetic algorithm approach [J] . Farizhandi Amir Abbas Kazemzadeh, Zhao Han, Chen Theodore, Chemical Engineering Science . 2020,第1期

机译：利用混合人工神经网络 - 遗传算法方法，使用行星球铣削来评价使用行星球铣削来模拟粒度流化床中粒度分布的变化
4. Effect of Ball Size Classification on Specific Breakage Rates of Particles in Full-scale Cement Grinding Tube Mills [C] . ZHANG Huimin, ZHOU Bin International Mineral Processing Congress . 2008

机译：球磨分级对全尺寸水泥磨管机颗粒比破损率的影响
5. Predicting the Product Particle Size Distribution from a Vertical Stirred Mill [D] . Campos Rocha, Danielle. 2019

机译：预测垂直搅拌磨机的产品粒度分布
6. Enhanced Strength and Ductility in Magnesium Matrix Composites Reinforced by a High Volume Fraction of Nano- and Submicron-Sized SiC Particles Produced by Mechanical Milling and Hot Extrusion [O] . Sepideh Kamrani, Daniela Hübler, Alireza Ghasemi, 2019

机译：机械研磨和热挤压生产的纳米级和亚微米级SiC颗粒的高体积分数增强了镁基复合材料的强度和延展性
7. Control of the size and compositional distributions in a milling process by using a reverse breakage matrix approach [O] . Nemanja Bojanic, Aleksandar Fistes, Tatjana Dosenovic, 2021

机译：通过使用反向破坏矩阵方法来控制铣削过程中的尺寸和组成分布
8. Effect of a Material Flow Model in Prediction of Particle Size Distributions in Open and Closed Circuit Mills, [R] . randolph,alan d. ranjan, r. 1977

机译：物流模型在开闭式电路板料粒度分布预测中的作用，

Using the breakage matrix approach to define the optimal particle size distribution of the input material in a milling operation

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