电磁感应式钢筋扫描仪在现场检测中的应用

电磁感应检测法是对钢筋混凝土结构中钢筋无损检测的主要方法之一.通过对某高速公路桥梁建设中钢筋保护层现场检测的应用,描述了仪器的检测指标和操作规程,并对检测结果做出分析判断,以期为土木工程质量的检测方法提供一定的指导和借鉴.

谁该为电子脚环无法扫描感应负责？

最近．不断接到北中南鸽友们的电话．电话那头的愤怒声使我们意识到竟有那么多的电子脚环无法扫描感应。其实这个问题存在已久．只是无人去挖掘事实的真相罢了。记者采访了那些因脚环无法感应而损失巨额奖金的鸽友．希望与广大鸽友共同探讨一下到底是电子鸽钟销售者、鸽会负责人还是鸽友应为此问题负责。

差速器壳体内表面感应淬火工艺开发及应用

通过对汽车差速器壳体的使用工况及失效件分析,提出差速器壳体内球面感应淬火强化方案,对比分析不同的感应加热方式,开发出差速器壳体感应淬火强化工艺,各项技术指标均达到和满足设计要求,最终通过台架试验及道路试验验证,彻底解决了差速器壳体使用过程中的磨损问题。

农机花键叉内花键感应淬火的方法改进

农机花键叉是应用于传动轴总成输出端的一个零件,为了增强花键使用部位的表面硬度和耐磨性能,提高其使用寿命,需对内花键进行热处理;采用扫描式感应淬火,淬火有效区域表面硬度以及淬硬层不穗定,整体落差比较大;分析原因主要由喷淋冷却差异、材料性能、加热时间长、设备功率占比调整不准确引起。通过改变扫描式线圈感应淬火为整体式感应器感应淬火,对剖切样块进行连续验证分析,最终表面硬度波动范围穗定在3个硬度以内,淬硬层波动范围稳定在0.5mm以内,解决了表面硬度以及淬硬层深度不稳定的问题。

扫描式葫芦型感应圈的设计与应用

等速传动轴零部件空心轴扫描式感应加热淬火普遍采用圆圈形感应圈,这种感应圈设计制造简单,成本较低,热处理调试编程简单,但加热能耗比较大,加工节拍比较慢,对热处理要求较高的空心轴热处理调试非常困难。本文依照仿型思路设计制作了葫芦型感应圈,有效解决了单纯的圆圈型感应圈在空心轴这种特殊轴类扫描感应加热淬火上的不足。

钢筋保护层厚度检测技术探讨

文章探讨了运用钢筋扫描仪检测钢筋保护层厚度的检测技术,介绍了电磁感应式钢筋扫描仪的工作原理及扫描方法,阐述了钢筋保护层扫描图像分析方法,并通过工程实例中各种典型钢筋保护层厚度扫描图像,分析可能影响检测结果的因素并提出针对性的解决措施,以确保钢筋保护层厚度检测结果真实、准确。

Fabrication of single-walled carbon nanotube-based highly sensitive gas sensors

A highly sensitive single-walled carbon nanotube(SWCNT)-based ammonia(NH3) gas detector is manufactured by orderly assembling SWCNT using the dielectrophoretical(DEP) technology.Atom force microscopy(AFM) and scanning electron microscopy(SEM) images revealed that SWCNTs were assembled between the microelectrodes.SWCNTs were affected by the electrophoretic force which was carried out by the related theoretical analysis in a nonuniform electric field.The SWCNT field effect transistors geometry was obtained.The electrical performance of NH3 gas sensor with the SWCNT field effect transistors geometry was tested before and after the adoption of NH3 at room temperature.Experimental results indicated that the efficient assembly of SWCNT was obtained by the applied alternating current voltage with frequency of 2 MHz and amplitude of 10 V.The SWCNTs-based gas sensor had high sensitivity to NH3,and the electrical conductance of NH3 gas sensor reduced two times after interaction with NH3.The SWCNTs surface gas molecules were removed by means of ultraviolet ray irradiation for 10 min.Hence,the fabricated NH3 gas sensor could be reversible.There is a clear evidence that the adsorption of NH3 on the SWCNT channel is easy to be realized.Our theoretical results are consistent with recent experiments.