摘要
以黄铁矿矿石为研究对象建模,利用ANSYS软件对模型进行有限元分析,得到矿石颗粒在微波作用下的温度、应力分布及作用规律,探究微波作用下矿石强度弱化的细观力学损伤机理。分别建立矿物单质立体模型、方解石基质包裹的单颗粒黄铁矿平面模型以及多黄铁矿颗粒平面模型,仿真结果表明:黄铁矿为微波吸收型,温度呈线性增长;方解石性质影响应力峰值以及初始裂纹的产生;黄铁矿颗粒粒度大,矿石以剪切屈服为主,反之,以拉伸屈服为主。
Based on pyrite ore as the research object, the finite element analysis of the model was carried out by means of ANSYS software. The temperature, the stress distribution and the action law of the ore particles under the microwave irradiation were studied. The mechanism of micromechanical damage of ore weakening under microwave irradiation was explored. The single substance model, single-particle pyrite plane model wrapped by calcite and multi-particle plane model were established respectively. The simulation results show that the pyrite is a microwave absorption type and the temperature increases linearly. The calcite properties affect the peak stress and the initial crack generation. If the particle granularity of pyrite is large, shear yield is the main form of damage. On the contrary, tensile yield is the main form.
作者
朱路路
夏晓鸥
张峰
陈帮
刘方明
ZHU Lulu;XIA Xiaoou;ZHANG Feng;CHEN Bang;LIU Fangming(Belting General Institute of Mining and Metallurgy, Beijing 100160, China)
出处
《有色金属(选矿部分)》
CAS
北大核心
2018年第1期70-77,共8页
Nonferrous Metals(Mineral Processing Section)
关键词
微波加热
数值模拟
黄铁矿
热力耦合
microwave heating
numerical simulation
pyrite
thermal-mechanical coupled
