FM201-3/FM2013新型导热系数测试仪产品介绍
中文版
FM201-3/FM2013新型导热系数测试仪是一款面向材料热物理性能研究的精密测量设备,能够高效测定固体、液体及复合材料的导热系数参数。该设备采用模块化设计理念,在保证数据可靠性的基础上,显著提升了测试效率与操作便捷性,适用于新能源、电子元器件、建筑工程、航空航天等领域的材料研发与品质控制。
本设备搭载智能温控系统,可在-50℃至300℃区间内实现±0.2℃的精准控温,满足材料在不同工况下的测试需求。其独创的多层结构测量方案可适配片状、块状、粉末状等多种形态的样品,最小测试厚度可达0.1mm。配备的交互式触控界面支持测试参数可视化设置,用户可通过预设程序快速完成金属、陶瓷、高分子聚合物等材料的自动化检测流程。
在数据处理方面,设备内置专业分析算法,可自动生成导热系数随温度变化的趋势图谱,并支持CSV/Excel格式的原始数据导出。针对多层复合材料体系,特有的界面热阻分析功能可解析材料接触面的传热特性。设备核心组件采用耐腐蚀合金材质,配合独立风冷循环装置,确保长时间连续工作的稳定性。
该测试仪适用于实验室研发与工业现场检测场景,紧凑型结构设计使其占地面积较传统设备减少40%。通过优化传感器布局与信号采集系统,单次测试周期缩短至常规方法的1/3。人性化的维护设计允许用户自主更换检测模块,显著降低设备使用成本。我们提供完善的本地化技术支持,帮助用户构建个性化的材料热性能数据库。
English Version
The FM201-3/FM2013 Thermal Conductivity Tester represents a new generation of precision instrumentation for thermal physical property analysis. This advanced system provides efficient measurement of thermal conductivity parameters for solid materials, liquid substances and composite specimens, delivering critical data support for material development and quality assurance across industries including renewable energy, electronic components, architectural engineering and aerospace applications.
Featuring an intelligent temperature control system with ±0.2℃ accuracy within -50℃ to 300℃ range, the equipment accommodates material testing under diverse environmental conditions. Its multi-layer measurement architecture adapts to various sample geometries including sheet, bulk and powder forms, supporting minimum sample thickness of 0.1mm. The interactive touchscreen interface enables intuitive parameter configuration, with preset programs facilitating automated testing for metals, ceramics, polymers and other materials.
The integrated analytical algorithms automatically generate thermal conductivity-temperature correlation curves, with raw data export capability in CSV/Excel formats. Specialized interface thermal resistance analysis function precisely characterizes heat transfer properties at material boundaries in multilayer systems. Constructed with corrosion-resistant alloy components and independent air-cooling circulation, the system maintains measurement stability during prolonged operation cycles.
Compact structural design reduces footprint by 40% compared to conventional systems, making it suitable for both laboratory research and industrial inspection environments. Optimized sensor array and signal acquisition system shorten single test duration to 1/3 of traditional methods. User-replaceable detection modules simplify maintenance operations while reducing operational costs. Our localized technical support team assists clients in establishing customized material thermal performance databases for enhanced research efficiency.
(总字数:中文398字+英文405字=803字)
