水对石英砂岩微波辐射升温损伤的影响规律研究

金属矿山 ›› 2023, Vol. 52 ›› Issue (05): 155-164.

• “矿业青年科学家”专题 • 上一篇下一篇

水对石英砂岩微波辐射升温损伤的影响规律研究

陈登红¹ 汪朝家¹ 王智鹏¹ 鲁德沛¹ 汤允迎² 杨波³

1. 安徽理工大学矿业工程学院,安徽淮南 232001;2. 合肥综合性国家科学中心能源研究院,安徽合肥 230031;3. 淮南职业技术学院能源工程学院,安徽淮南 232001

出版日期:2023-05-15 发布日期:2023-06-15
基金资助:
国家自然科学基金项目(编号:51974008);安徽省高校协同创新基金项目(编号:GXXT-2020-008);安徽省高校自然科学研究重点项目(编号:KJ2020A1161);安徽理工大学研究生创新基金项目(编号:2022CX2029)。

Study on the Effect of Water on the Damage and Temperature Rise of Quartz Sandstone by Microwave Radiation

CHEN Denghong¹ WANG Chaojia¹ WANG Zhipeng¹ LU Depei¹ TANG Yunying²YANG Bo³ #br#

1. School of Mining Engineering,Anhui University of Science and Technology,Huainan 232001,China;2. Institute of Energy,Hefei Comprehensive National Science Center,Hefei 230031,China;3. School of Energy Engineering,Huainan Vocational & Technical College,Huainan 232001,China

Online:2023-05-15 Published:2023-06-15

摘要/Abstract

摘要： 相较于钻爆法与机械破岩方法,微波辅助破岩因其具有选择性加热、效率高、可控性强等诸多优点,被认为是硬岩开掘的一种极具前景的新方法。为探寻水对较低吸波能力的石英砂岩微波辐射辅助破岩效果的影响,采用功率 1. 4 kW 微波对不同含水率石英砂岩辐射 0~ 300 s 探究其升温、损伤与含水率之间的关系,通过波速表征的损伤因子 Dm、微波辐射后表面温差 FT 和巴西劈裂抗拉强度 σt 综合分析了其升温损伤影响规律。研究结果表明:微波辐射干燥状态下石英砂岩呈现前期快速升温、后期趋缓趋稳且温差先增加后减小的变化趋势;除了饱和水外,不同含水率试件辐射 90 s 时升温速率由快趋缓且在吸水 6 h 处(平均含水率 1. 88%)拉开差距;FT、Dm 及 σt 的变化幅度并不随浸水时长的升高而梯度变化,其中浸水 4~ 6 h(含水率 1. 69% ~ 1. 88%)为波速及其表征的损伤因子 Dm 出现下降与升高的“拐点”,前者平均降幅增加了 5. 18%,后者增加了 0. 092,σt 下降了 25. 9%;岩石微波场内的升温损伤过程是水—岩耦合影响下的多尺度、多介质综合响应结果,特定的含水率(1. 69% ~ 1. 88%)和辐射时长(90 s 以上)能够促进石英砂岩吸收微波后热应力梯度的产生,从而造成孔隙损伤、极限抗拉强度降低,使其更易破坏。分析结果可为类似条件下水对硬岩微波辐射升温损伤的研究分析提供可靠的借鉴。

关键词: 微波辐射, 石英砂岩, 含水率, 升温损伤, 抗拉强度

Abstract: Compared with drilling and blasting and mechanical rock breaking,microwave assisted rock breaking is considered as a promising new method for hard rock excavation because of its advantages such as selective heating,high efficiency and strong controllability. In order to explore the influence of water on the assisted rock-breaking effect of microwave radiation on quartz sandstone with low wave-absorbing capacity,1. 4 kW microwave radiation was applied to quartz sandstone with different water content for 0~ 300 s to explore the relationship between temperature rise,damage and water content. According to the damage factors represented by wave velocity,such as damage factor Dm,surface temperature difference FT after microwave irradiation and Brazilian splitting tensile strength σt,the influence rule of temperature rise damage was comprehensively analyzed. The results show that the quartz sandstone in microwave radiation drying state presents a rapid temperature rise in the early stage,a slow and stable trend in the later stage,and the temperature difference increases first and then decreases. In addition to saturated water,the temperature rise rate of specimens with different moisture content in 90 s radiation increased from fast to slow down and opened a gap at 6 h after absorbing water (average moisture content 1. 88%). The change amplitude of FT,Dm and σ t does not change gradients with the increase of immersion time. The wave velocity and the damage factor Dm represented by the immersion time (water content 1. 69% ~ 1. 88%) show an " inflection point" of decrease and increase. The average decrease in the former increased by 5. 18%,while the latter increased by 0. 092,σt has increased by 25. 9%. The temperature rise damage process in rock microwave field is the result of multi-scale and multi-medium comprehensive response under the influence of water-rock coupling. Specific water content (1. 69% ~ 1. 88%) and radiation duration (more than 90 s) can promote the generation of thermal stress gradient after microwave absorption of quartz sandstone,thus causing pore damage and reducing ultimate tensile strength,making it more vulnerable to destruction. The analysis results can provide a reliable reference for the study and analysis of microwave radiation heating damage to hard rock under similar conditions.

Key words: microwave radiation,quartz sandstone,moisture content,heating and damaging,tensile strength

陈登红, 汪朝家, 王智鹏, 鲁德沛, 汤允迎, 杨波. 水对石英砂岩微波辐射升温损伤的影响规律研究[J]. 金属矿山, 2023, 52(05): 155-164.

CHEN Denghong, WANG Chaojia, WANG Zhipeng, LU Depei, TANG Yunying, YANG Bo. Study on the Effect of Water on the Damage and Temperature Rise of Quartz Sandstone by Microwave Radiation[J]. Metal Mine, 2023, 52(05): 155-164.

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水对石英砂岩微波辐射升温损伤的影响规律研究

Study on the Effect of Water on the Damage and Temperature Rise of Quartz Sandstone by Microwave Radiation

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