排序方式: 共有13条查询结果,搜索用时 0 毫秒
1.
2.
3.
Lead poisoning is a serious environmental concern, which is a health threat. Existing technologies always have some drawbacks, which restrict their application ranges, such as real time monitoring. To solve this problem, glutathione was functionalized on the Au-coated gate area of the pseudomorphic high electron mobility transistor (pHEMT) to detect trace amounts of Pb2+. The positive charge of lead ions will cause a positive potential on the Au gate of the pHEMT sensor, which will increase the current between the source and the drain. The response range for Pb2+ detection has been determined in the concentrations from 0.1 pmol/L to 10 pmol/L. To our knowledge, this is currently the best result for detecting lead ions. 相似文献
4.
5.
介绍了制氢装置PSA氢气提纯单中吸附塔塔壁保温支撑圈垫板焊缝处裂纹概况,裂纹成因是筒壁保温支撑圈垫板处焊缝存在残余应力,在长期交变载荷下焊缝处形成表面裂纹,进而延伸至筒体本体形成贯穿裂纹。裂纹消除后进行了补焊处理,并对该保温结构形式进行了更改,消除了设备隐患,保证安全生产。 相似文献
6.
7.
针对液化气球罐检验中发现的表面裂纹,分析了裂纹成因是湿硫化氢应力腐蚀,由湿硫化氢引起腐蚀开裂的形式包括氢鼓泡(HB)、氢致开裂(HIC)、硫化物应力腐蚀开裂(SSCC)和应力导向氢致开裂(SOHIC),论证了氢致裂纹较易于硫化物应力腐蚀裂纹发生,氢致裂纹产生后,在随后的高应力作用下,转化为硫化物应力腐蚀裂纹。裂纹打磨消除后通过安全评定避免对球罐进行补焊处理,在球罐内表面喷涂稀土合金防腐层,有效地解决了湿硫化氢应力腐蚀问题。 相似文献
8.
9.
根据《压力容器安全技术监察规程》和《压力容器定期检验规则》的规定,对加氢装置214台压力容器进行了首次全面检验。通过检验,发现了压力容器存在的缺陷。对检验发现的缺陷分析处理后,保证了装置的安全运行。 相似文献
10.