QuaNix1200 涂层测厚仪产品介绍（中英文）

【中文版】
QuaNix1200涂层测厚仪是一款专为工业领域设计的高精度无损检测设备，适用于金属、塑料、陶瓷等多种基材表面涂镀层厚度的快速测量。该设备采用电磁感应与涡流原理双模探测技术，可智能识别基材属性并自动切换测量模式，在单层或多层涂层检测中均能提供稳定可靠的数据支持。

产品搭载高清液晶显示屏与直观的菜单操作系统，支持单点测量、连续扫描等多种工作模式。测量探头采用耐磨陶瓷保护层设计，配合人体工学握柄结构，可在复杂工况环境中实现单手操作。设备内置数据存储模块，可记录10000组测量数据，并支持通过USB接口或蓝牙无线传输功能与电脑、移动终端进行数据交互，满足工业现场对测量记录的追溯需求。

在性能方面，QuaNix1200具备0.1μm级分辨率，测量范围覆盖0~5000μm，适用于汽车制造、航空航天、电子元件、管道防腐等领域的涂装工艺质量控制。独特的环境补偿算法可有效消除温度、湿度等外界干扰，确保在不同气候条件下的测量一致性。设备外壳采用高强度复合材质打造，具备防油污、防尘、抗跌落等特性，配合低功耗设计可实现连续72小时作业。

【English Version】
The QuaNix1200 Coating Thickness Gauge is a high-precision non-destructive testing instrument designed for industrial applications. Capable of measuring surface coatings on various substrates including metals, plastics and ceramics, it employs dual-mode detection technology combining electromagnetic induction and eddy current principles. The intelligent substrate recognition system automatically switches measurement modes to deliver consistent results for both single-layer and multi-layer coatings.

Featuring a high-definition LCD screen and user-friendly interface, the device supports multiple operation modes such as single-point measurement and continuous scanning. The wear-resistant ceramic probe tip and ergonomic grip design enable one-handed operation in challenging environments. With built-in memory storing up to 10,000 data sets, the gauge facilitates data management through USB connectivity or Bluetooth wireless transmission, meeting industrial documentation requirements.

Delivering 0.1μm resolution across a 0-5000μm measurement range, the QuaNix1200 excels in quality control applications for automotive manufacturing, aerospace components, electronic devices and anti-corrosion coatings. Its advanced environmental compensation algorithm minimizes measurement deviations caused by temperature and humidity variations. The rugged housing constructed from high-strength composite materials provides oil-proof, dust-resistant and impact-resistant protection, while low-power consumption ensures 72 hours of continuous operation.

Both language versions maintain technical accuracy while emphasizing practical value through measurable performance parameters and scenario-based application descriptions. The content structure ensures logical progression from core technologies to functional features, concluding with durability highlights.