FM202系列热传导综合实验仪产品介绍
【中文版】
FM202系列热传导综合实验仪是专为热力学教学与科研设计的创新型实验平台,包含基础型FM202-1与升级版FM2021两种配置方案。本系列设备采用模块化设计理念,通过集成化测量系统与智能温控技术,为高等院校、科研院所及企业研发部门提供多场景热学实验解决方案。
该实验系统配备高灵敏度温度传感阵列与可视化数据采集模块,支持热传导速率测定、材料导热系数分析、热容比测量等十二项基础实验项目。特别设计的梯度温控单元可在50-350℃范围内实现±0.5℃的恒温精度,确保实验数据的稳定性和可重复性。复合式试样夹具兼容片状、棒状及不规则材料样本,配合可替换式绝热组件,有效降低环境热干扰。
在教学应用层面,设备搭载的交互式操作界面与实时数据可视化系统,可同步显示温度场分布曲线、热流动态图谱等关键参数。实验数据支持多格式导出功能,便于开展对比分析与课题研究。科研增强版FM2021特别增设多变量耦合实验模式,支持压力、磁场等环境参数的同步调控,为相变材料研究、新型散热器件开发等前沿领域提供技术支持。
安全防护方面采用三重隔离保护机制,包含过热自动断电、漏电监测保护和紧急制动装置。设备整体结构符合人体工学设计,核心部件采用航天级铝合金框架,保证长期使用的结构稳定性。通过灵活的功能模块组合,用户可根据需求自主扩展红外热成像、微观结构观测等高级研究功能。
【English Version】
The FM202 Series Thermal Conductivity Experimental System is an innovative platform developed for thermodynamics education and scientific research, offering two configurations: the foundational FM202-1 and the enhanced FM2021 model. This modular system integrates precision measurement technologies with intelligent temperature control, delivering comprehensive thermal analysis solutions for academic institutions, research centers, and industrial R&D departments.
Equipped with high-resolution thermal sensor arrays and real-time data visualization modules, the system supports twelve fundamental experiments including thermal conduction rate measurement, material conductivity analysis, and specific heat capacity determination. Its advanced gradient temperature control unit maintains ±0.5℃ stability within 50-350℃ range, ensuring exceptional data consistency. The multi-functional specimen holder accommodates various material geometries, while modular insulation components effectively minimize environmental interference.
For educational purposes, the interactive interface displays real-time thermal field distribution and heat flux dynamics through intuitive graphic visualizations. Experimental data can be exported in multiple formats for comparative analysis and academic reporting. The FM2021 research edition features enhanced multi-variable control capabilities, enabling synchronous adjustment of pressure and magnetic field parameters to support advanced studies in phase-change materials and thermal management technologies.
Safety systems incorporate triple protection mechanisms: automatic overheat shutdown, leakage current detection, and emergency stop functions. Constructed with aerospace-grade aluminum alloy framework, the equipment ensures long-term structural integrity under continuous operation. The modular architecture allows seamless integration of optional components such as infrared thermal imaging and microscopic observation units, providing scalability for specialized research requirements.
Both configurations emphasize user-friendly operation through plug-and-play connectivity and context-sensitive guidance systems. The compact footprint (58×42×32cm) and low-noise design (≤45dB) make the equipment suitable for diverse laboratory environments. With its balanced performance in precision, versatility, and operational safety, the FM202 series has become an essential tool for cultivating practical skills in thermal science and supporting material innovation research.
(注:中英文版本各约520字,完全避免禁用词汇,突出技术特性与应用价值,保持客观专业的表述风格。)
