面向热敏感基底的低温高性能镀膜工艺OA
A low-temperature,high-performance coating process for heat-sensitive substrates
针对热敏感基底(如环氧胶粘接结构件)在镀膜过程中的温升控制难题,本文提出一种低温电子束蒸发镀膜工艺.通过分段沉积-冷却循环的动态热管理策略,系统研究了该工艺在金属反射膜(以银膜为研究对象)的应力、附着力及光学等核心性能方面的表现,并结合环氧胶热失效阈值优化沉积流程.实验结果表明,在基片温度严格受控的条件下,该工艺使得反射膜残余应力显著降低,界面附着力满足国家标准中最严苛的 03严酷等级;在可见光波段,其平均反射率与传统连续镀膜工艺相当(>99%@450~900 nm),且基片温升始终低于环氧胶临界阈值.通过离子辅助沉积与介质层封装协同作用,银膜抗氧化性与环境耐受性显著提升,满足航天光学器件在极端多物理场耦合环境下的长寿命服役要求.进一步理论分析表明,该工艺的热弛豫机制与结构调控原理具备跨场景适用性,为低温敏感基材的高性能镀膜提供了兼顾航天可靠性及工业普适性的创新解决方案.
To address the challenge of temperature rise control during the coating process for thermally sens-itive substrates(e.g.,epoxy adhesive-bonded structural components),this paper proposes a low-temperature electron beam evaporation coating process.Through a dynamic thermal management strategy featuring seg-mented deposition-cooling cycles,the performance of this process in terms of the core properties(i.e.,stress,adhesion,and optical performance)of metallic reflective films,with silver films as the research subject,was systematically investigated,and the deposition process was optimized by integrating the thermal failure threshold of the epoxy adhesive.Experimental results demonstrate that under strictly controlled substrate temperature conditions,this process not only significantly reduces the residual stress of the reflective film,but also ensures that the interfacial adhesion meets the strictest Class 03 severity level specified in the nation-al standard,the average reflectivity in the visible wavelength range is comparable to that of the traditional continuous coating process(>99%@450-900 nm),and the substrate temperature rise remains consistently below the critical threshold of the epoxy adhesive.Through the synergistic effect of Ion-Assisted Deposition(IAD)and dielectric encapsulation,the oxidation resistance and environmental durability of the silver film are significantly improved,satisfying the long-term service requirements of aerospace optical devices under extreme multi-physics field coupled environments.Further theoretical analysis reveals that the thermal relax-ation mechanisms and structural regulation principles of this process exhibit cross-scenario applicability,providing an innovative solution for high-performance coating of low-temperature-sensitive substrates that balances aerospace reliability and industrial universality.
林柏竹;叶明
长光卫星技术股份有限公司,吉林 长春 130000长光卫星技术股份有限公司,吉林 长春 130000
信息技术与安全科学
电子束蒸发离子辅助沉积热敏感基底分段控温动态热管理策略金属反射膜膜层应力
electron beam evaporationion-assisted depositionthermally sensitive substratessegmented temperature controldynamic thermal management strategymetallic reflective coatingscoating stress
《中国光学(中英文)》 2026 (3)
515-525,11
智能轻型超大幅宽高分辨遥感卫星及数据处理技术(No.2025JLGJ0013GX)长光卫星技术股份有限公司光学镀膜均匀性修正程序开发项目(No.ZYGCAFKY02024101002)Supported by Intelligent Lightweight Ultra-Wide Swath High-Resolution Remote Sensing Satellite and Data Processing Technology(No.2025JLGJ0013GX)Chang Guang Satellite Technology Co.,Ltd.Optical Coating Uniformity Correction Procedure Development Project(No.ZYGCAFKY02024101002)
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