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土木工程中的无损检测技术应用
土木工程中的无损检测技术应用
DOI:10.11973/wsjc240205
火山石混凝土强度的超声回弹综合法检测
王 震 ,钟梦霞 ,黄文君 ,李昕成 ,毛雯婷 ,赵 勇 2
1
2
1,2
1
1
(1. 云南省建筑科学研究院有限公司 云南省建筑结构与新材料企业重点实验室,昆明 650223;
2. 云南建筑工程质量检验站有限公司,昆明 650223)
摘 要:为解决传统标准中的超声回弹综合法测强曲线推定火山石混凝土抗压强度时存在较
大误差的问题,研究了火山石混凝土与石灰石混凝土回弹值和超声波速的差异,进一步建立腾冲火
山石混凝土超声回弹综合法测强曲线,并与现行超声回弹综合法测强曲线对比分析。研究结果表明:
火山石存在较多的孔洞,超声波在火山石混凝土中的传播速度小于石灰石混凝土中的,导致现行超
声回弹综合法测强曲线推定火山石混凝土抗压强度的误差较大。依据火山石混凝土试验数据建立
的超声回弹综合法测强曲线平均相对误差和相对标准差分别为8. 40%、10. 74%,满足规范要求,
且精度比现行行业标准提高约2. 5倍,比地方标准提高约2倍,更适用于腾冲火山石混凝土。
关键词:无损检测;超声回弹综合法;测强曲线;火山石混凝土;抗压强度
中图分类号:TG115.28 文献标志码:A 文章编号:1000-6656(2025)04-0044-06
Volcanic concrete strength testing based on ultrasonic rebound synthesis method
WANG Zhen , ZHONG Mengxia , HUANG Wenjun , LI Xincheng , MAO Wenting , ZHAO Yong 2
1
2
1
1
1,2
(1. Yunnan Key Laboratory of Building Structure Safety and New Materials, Yunnan Institute of Building Research Co., Ltd.,
Kunming 650223, China; 2. Yunnan Quality Inspection Station of Construction Engineering Co., Ltd.,
Kunming 650223, China)
Abstract: In order to solve the problem that there is alarge error in estimating the compressive strengh measurement
curve of the ultrasonic rebound comprehensive method in the traditional standard,the difference of rebound value
and ultrasonic wave velocity between volcanic stone concrete and limestone concrete was studied, and the strength
measurement curve of Tengchong volcanic stone concrete with ultrasonic rebound synthesis method was further
established and compared with the current strength measurement curve. The results showed that the ultrasonic wave
propagation speed in volcanic concrete was lower than that of limestone concrete due to the existence of many holes
in volcanic rock. As a result, there was a large error in estimating compressive strength of volcanic concrete based on
the strength measurement curve of ultrasonic rebound comprehensive method. Based on the experimental data of
volcanic stone concrete, the average relative error and relative standard deviation of the strength measurement curve of
ultrasonic rebound comprehensive method established in this paper were 8.40% and 10.74%, respectively, which met the
requirements of the specification, and the accuracy was about 2.5 times higher than the current industry standard and about
2 times higher than the local standard, which was more suitable for effusion of volcanic concrete.
Key words: nondestructive testing; ultrasonic rebound synthesis method; strength measurement curve; volcanic stone
concrete; compressive strength
火山石是一种多孔、轻质的玻璃质火山喷出
[1]
收稿日期:2024-05-08 岩 。云南腾冲地区火山石资源非常丰富。尽管腾
基金项目:云南 省 科 技 厅 社 会 发 展 专 项(202303AC100005;
冲当地使用火山石制备混凝土的历史由来已久,但在
202303AC100015) 2013年,云南省颁布的《云南省建筑工程结构实体检
作者简介:王 震(1998—),男,硕士,助理工程师,主要研究方向为
测技术规程》中要求建筑工程实体验收时须用超声回
轻骨料混凝土
[2]
通信作者:毛雯婷,maowenting@outlook.com 弹综合法进行评价 ,但在实际工程验收中发现,无
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2025 年 第 47 卷 第 4 期
无损检测
