PFTL101A 2.0KN 3BSE004172R1  横向测量压磁式压头

PFTL101 横向测量压磁式压头

ABB 水平型枕式张力计压头非常适用于张力小、轧辊重和运行速度高的应用，冶金行业往往有很多这类应用。ABB 水平型枕式张力计压头有三个规格：标准型PFTL 101A/B，通常被用于常规的金属处理线。该压头适用于轧辊重、张力范围宽和运行速度高的应用。

PFTL101对于冷轧机、退火和镀锌生产线中有乳化液的带材张力测量应用，推荐使用轧机型的PFTL 101AE/BE。PFTL 101AE/BE 压头使用固定的连接线缆，防护等级达到IP 66 ，可长期精确可靠运行在有乳化液的应用环境中。所有的ABB 张力计压头交货时均进行了标定。

防酸型PFTL 101AER/BER 压头是专为酸洗生产线而设计，达到防护等级IP 66/67。

PFTL101 横向测量压磁式压头通常用于测量材料在受到压力时的磁性质变化。这种技术常用于材料科学、工程学和物理学等领域，以了解材料在应力作用下的磁性能和机械性能之间的关系。

PFTL101压磁式压头的工作原理基于压磁效应，即某些磁性材料在受到机械应力时，其磁性质会发生变化。通过测量这些变化，可以间接获得材料所受应力的大小和分布情况。

在横向测量中，压磁式压头通常与磁通量计或磁电阻等磁测量设备配合使用。测量过程中，压头施加一定的压力于被测材料表面，同时磁测量设备记录材料磁性质的变化。通过分析这些变化数据，可以得到材料在压力作用下的磁性能参数，如磁导率、磁阻等。

PFTL101横向测量压磁式压头的优点包括非接触性、高精度和实时性等。然而，它也有一些局限性，如对材料表面平整度和清洁度的要求较高，以及可能受到环境磁场干扰等。

在实际应用中，PFTL101横向测量压磁式压头可用于研究材料的力学行为、磁弹性、磁致伸缩等性质，以及评估材料的性能和可靠性。这对于材料设计、工艺优化和产品质量控制等方面具有重要意义。

PFTL101A 2.0KN 3BSE004172R1  横向测量压磁式压头

PFTL101 Transverse measuring piezomagnetic indenter

ABB horizontal pillow tensiometer indenters are ideal for applications with low tension, heavy rolls and high running speeds, which are often found in the metallurgical industry.

ABB horizontal pillow tensiometer heads are available in three sizes: Standard PFTL 101A/B, which is commonly used in conventional metal handling lines. The indenter is suitable for applications with heavy rolls, wide tension ranges and high operating speeds.

PFTL101 PFTL 101AE/BE is recommended for strip tension measurement applications with emulsion in cold rolling, annealing and galvanized lines. The PFTL 101AE/BE indenter uses a fixed connection cable and is protected to IP 66 for accurate and reliable long-term operation in emulsion applications. All ABB tensiometer indenters are calibrated at delivery.

The acid proof PFTL 101AER/BER indenter is designed for pickling lines and is rated IP 66/67.

PFTL101 Transverse measurement Piezomagnetic indenters are commonly used to measure changes in the magnetic properties of materials when subjected to pressure. This technique is often used in fields such as materials science, engineering and physics to understand the relationship between the magnetic and mechanical properties of materials under stress.

The operating principle of the PFTL101 piezomagnetic indenter is based on the piezomagnetic effect, that is, the magnetic properties of certain magnetic materials change when subjected to mechanical stress. By measuring these changes, the magnitude and distribution of the stress on the material can be obtained indirectly.

In transverse measurements, piezomagnetic indenters are usually used in conjunction with magnetic measuring devices such as flux meters or magnetoresistors. During the measurement process, the indenter exerts a certain pressure on the surface of the material to be measured, while the magnetic measuring device records the changes in the magnetic properties of the material. By analyzing these change data, the magnetic properties of the material under pressure can be obtained, such as permeability, reluctance and so on.

The advantages of PFTL101 transversal piezomagnetic indenter include non-contact, high precision and real-time performance. However, it also has some limitations, such as higher requirements for the surface smoothness and cleanliness of the material, as well as possible environmental magnetic field interference.

In practical applications, the PFTL101 transverse piezomagnetic indenter can be used to study the mechanical behavior, magnetoelastic, magnetostrictive and other properties of materials, as well as to evaluate the properties and reliability of materials. This is of great significance for material design, process optimization and product quality control.