Investigation of high power laser coatings

High laser-induced damage threshold and large aperture were focuses on the studies of high power laser coatings. This paper reports the research activities at our center. Several measures were developed for evaluating characters of laser damage, including determination of laser induced damage threshold and detection of absorption based on surface thermal lensing technique. Defect was deemed to be the initial source of laser damage, and was the main factor restricting the laser damage resistance of optical coatings. The contribution of several kinds of typical defects to laser damage was analyzed, and some deposition measures were adopted to control and eliminate the origin of defect. Furthermore, some post-treatment methods were also employed to alleviate the influence of the defect and to improve the laser damage resistance. Correction mask was introduced to improve the thickness uniformity, and the thickness uniformity can be amended to less than 1% in the range of Φ650 mm. Preliminary investigation related to surface deformation was also conducted.

Interface characteristics of Al_2O_3－13%TiO_2 ceramic coatings prepared by laser cladding

Al2O3-13%TiO2 （mass fraction） coatings, prepared by laser cladding on nickel-based alloy, were heated using high frequency induction sources. The coating microstructure and the interface between bond coating and ceramic coating were characterized by SEM, XRD and EDS. The results show that two-layer substructure exists in the ceramic coating： one layer evolving from fully melted region where the sintered grains grow fully; another layer resembling the liquid-phase-sintered structure consisting of three-dimensional net where the melted Al2O3 particles are embedded in the TiO2-rich matrix. The mechanism of the two-layer substructure formation is also explained in terms of the melting and flattening behavior of the powders during laser cladding processing. The spinel compounds NiAl2O4 and acicular compounds Cr2O3 are discovered in the interface between bond coating and ceramic coating. It proves that the chemical reactions in the laser cladding process will significantly enhance the coating adhesion.

Correlation between Coating Adhesion and Damage Threshold: Simple Method of Reliability Assessment for Optoelectronic Applications

It is demonstrated that inherent coating adhesion and damage threshold are correlated for Ta2O5 and HfO2 coatings widely used in optoelectronic devices. By utilizing a newly proposed 1-h boiling water test combined with the optical aging under high-power laser irradiation, we show that an optical coating that survives the 1-h boiling water test withstands the damage threshold, ensuring the field service life even in harsh environments. Besides the standard evaluation methods, which may have limitations for applications required in harsh environments, the 1-h boiling water test can serve as an alternative method of reliability assessment for optical coatings. A heuristics herein can be used as a gating item for qualification of optical coatings for various applications.

激光熔覆层在生物质电站环境下的高温腐蚀行为研究

与煤炭、天然气等燃料相比,生物质发热值低,含有更多种类且浓度更高的腐蚀性介质,燃烧后产生大量含氯、硫腐蚀气氛及其金属熔盐,导致生物质焚烧余热锅炉受热面高温腐蚀问题严重。现有在管材表面堆焊镍基耐腐蚀合金的技术尽管可显著提高管道服役寿命,但存在工作效率低、不适合现场施工、管道热变形等诸多问题。对此,采用常规激光熔覆、高速激光熔覆2种工艺在TP347H耐热钢表面制备了Inconel 625耐高温腐蚀涂层,对比研究了TP347H耐热钢熔覆Inconel 625合金涂层前后的长期高温腐蚀特性。采用扫描电镜(SEM)表征了制备态和500 h高温含氯腐蚀后的覆层显微组织;采用增重法定量评价了覆层前后TP347H耐热钢的耐腐蚀性能。结果表明:优化工艺参数条件下常规激光熔覆、高速激光熔覆制备覆层组织致密,2种覆层与基材结合强度分别为362.4 MPa和217.3 MPa,覆层稀释率分别为5.4%和0.9%。腐蚀增重结果表明,550℃模拟腐蚀条件下,激光熔覆、高速激光熔覆Inconel 625合金覆层的腐蚀速率分别约为TP347H耐热钢基材的17%和8%。650℃模拟腐蚀条件下,激光熔覆、高速激光熔覆Inconel 625合金覆层的腐蚀速率分别约为TP347H耐热钢基材的11%和7%。

M2高速钢表面激光熔覆WC-12Co梯度涂层的制备工艺与实验研究

文章采用COMSOL数值模拟软件,对M2高速钢表面熔覆WC-12Co涂层和添加Ni60过渡层熔覆WC-12Co梯度涂层进行数值模拟与分析。探究温度梯度随时间的变化规律,并结合梯度实验及涂层的宏观形貌与微观组织分析,总结梯度熔覆的热量耦合控制方法。模拟及实验结果表明:添加Ni60过渡层制备WC-12Co梯度涂层的温度梯度远远小于直接熔覆制备WC-12Co涂层的温度梯度;添加Ni60过渡层制备WC-12Co涂层可以利用直接熔覆制备WC-12Co涂层的激光功率,也可以扩大熔覆制备WC-12Co涂层的功率区间,有利于提高熔覆制备效率;添加Ni60过渡层能够改善涂层内部缺陷,细化组织晶粒;Ni60过渡层中的Ni元素扩散导致WC-12Co涂层的硬度降低,但仍高于基体的硬度性能。

单道激光熔覆高熵合金工艺优化及复合涂层耐冲蚀性能研究

采用激光熔覆技术在0Cr13Ni5Mo水电用不锈钢表面制备了陶瓷增强高熵合金涂层。以显微硬度和稀释率作为指标,设计了三因素三水平正交实验,确定了单道最佳熔覆工艺为激光功率2500 W、扫描速度200 mm/min、送粉速度9.5 g/min。采用上述最佳工艺参数,并选择50%搭接率,制备了AlCoCrFeNi-1%Ni(质量分数,下同)包Al_(2)O_(3)复合涂层,采用X射线衍射仪、扫描电镜、显微硬度仪等分析表征复合涂层的微观组织、物相和显微硬度。通过射流式冲蚀试验装置研究850℃、保温2 h热处理对复合涂层耐冲蚀性能的影响。结果表明,热处理后复合涂层微观组织未发生相变,复合涂层依然由体心立方结构(BCC)的单相固溶体相所组成,但晶粒尺寸显著细化。高熵合金-1%Ni包Al_(2)O_(3)复合涂层的显微硬度从热处理前的504HV 0.3提高到545HV 0.3。当冲蚀时间为30 min时,热处理前后涂层的质量损失分别为63.5 mg和50.5 mg,当冲蚀时间为120 min时,热处理前后涂层的质量损失分别为178.5 mg和146.9 mg,热处理后的复合涂层表现出更好的耐冲蚀性。热处理后,涂层在低冲蚀角度下由液、固双相流微切削作用的“犁沟”形貌为主,随着冲蚀角度的提高,涂层表面从单一“犁沟”形貌渐变为微切削和冲击破碎协同作用的“犁沟”“唇片”“凹坑”的复合形貌。

Effect of Ni content on high power laser ablation behavior of coatings sprayed by Ni covering graphite/SiO2 powders

Faced with the challenge of high energy ablation problems, especially for laser ablation, effective energy dissipation protective materials fabricate by efficient preparation method is a feasible solution. The Ni-graphite/Si O2 coatings with different Ni content were prepared by plasma spraying method with optimized plasma spraying parameters. All coatings are pure without oxidation and dense. Their ablation behaviors were investigated by high power continuous wave laser. The results indicate that the Ni-graphite/Si O2 coating with appropriate Ni content could realize the purpose of energy consumption by endothermal reaction of graphite/Si O2 and reflection improvement. High Ni content will block the occurrence of endothermal reaction of graphite/Si O2 and increase the heat diffusion to interior part of coating, which can make the ablation situation of coating more serious.

靶电流对高功率脉冲磁控溅射WS_(2)-Ti固体润滑涂层微观组织及力学性能的影响研究

过渡金属硫化物涂层的耐磨性能与其微观结构、力学性能有关,而其结构与溅射能量有关。高能脉冲磁控溅射(HiPIMS)具有离化率高和沉积能量高的特性,其沉积能量受控于靶电流。采用HiPIMS技术,通过改变Ti靶电流制备了WS_(2)-Ti涂层,并利用扫描电镜、能谱仪、X射线衍射仪和纳米压痕仪表征涂层的微观组织结构和力学性能。分析结果表明,采用HiPIMS制备WS_(2)-Ti涂层可以有效细化晶粒并抑制其柱状生长,所制备的涂层结构致密且以非晶态为主;随着靶电流的增加,可进一步细化WS_(2)-Ti涂层晶粒,提高其致密度;涂层硬度随靶电流的增大呈先上升再下降的趋势,而其约化弹性模量先下降再上升;相应塑性因子H/E_(r)和H_(3)/E_(r)^(2)先变大后变小,在靶电流为50A时达到最高。

High-power double-clad large-mode-area photonic crystal fiber laser

A high power double-clad ytterbium-doped large-mode-area photonic crystal fiber（LMA PCF）laser was demonstrated using a unique Fabry-Perot （F-P） continnous wave （CW） output power of 50 W at～L04μm with a slope efficiency of 76.3% is obtained, Single transverse mode operation is achieved without any thermal-optical problems, This laser has the potential for scaling to much higher output power.

68.5 W连续输出1 060 nm波段半导体激光列阵模块

利用InGaAs/InGaAsP应变量子阱外延层材料制作出高功率半导体激光列阵模块。激光芯片宽1 cm,腔长1 200μm,条宽200μm,填充密度为50%,前后腔面光学膜分别为单层Al2O3和Al2O3/5(HfO2/SiO2)/HfO2,室温连续输出功率达到68.5 W,器件光谱中心波长为1 059 nm,光谱宽度(FWHM)为9 nm。

国内大功率半导体激光器研究及应用现状

近年来,国内外在大功率半导体激光器方面的研究均取得了很大的进展。其中,大功率半导体激光器列阵的研究和应用成为最大的亮点,如超高电光转换效率、高亮度和高可靠性等主要光电特性均实现了巨大的突破。针对国内大功率半导体激光器主要研究内容和关键技术进行了总结,在外延片结构中广泛采用应变量子阱结构、无铝有源区宽波导大光腔结构及非对称波导结构来提高端面光学灾变损伤光功率密度,还从腔面光学膜、器件封装、器件可靠性、光束整形与耦合以及器件应用等几个方面给予介绍。

激光预处理技术及其应用

回顾了国内在激光预处理技术研究方面取得的进展。综述了基于激光预处理技术提升基频介质膜、磷酸二氢钾/高掺氘磷酸二氢钾(KDP/DKDP)晶体等光学元件抗激光损伤性能的机理、效果和关键技术。针对高功率激光驱动器中关键光学元件激光负载能力的提高,建立了大口径光学元件激光预处理平台,实现了基频介质膜元件的激光预处理工程化作业。比较了纳秒和亚纳秒脉冲宽度激光对DKDP晶体损伤性能的影响。基于亚纳秒激光预处理后,纳秒激光辐照至14.4J/cm2(5ns)尚未出现"本征"损伤的实验结果,提出了用于DKDP晶体的亚纳秒激光预处理方案,并指出亚纳秒激光预处理技术将成为高功率激光三倍频晶体抗激光损伤性能达标的关键技术。

高功率CO_2激光器高反膜红外耦合窗热形变的半解析方法的研究

为了有效地解决高功率CO2 激光器高反膜红外耦合窗吸收谐振腔内激光能量产生热效应问题 ,通过对红外耦合窗镀膜参数和工作特性分析 ,建立了红外耦合窗热模型。基于热传导方程和边界条件 ,利用半解析热分析方法得出当CO2 激光器具有理想的TEMoo模式输出时红外耦合窗的温度场和热形变的计算表达式 ,同时对影响红外耦合窗温度场分布的各种因素进行了讨论。研究结果与以往将谐振腔内振荡激光做均匀光强处理作了对比 ,不仅热模型更符合激光器系统 ,而且计算出温度场分布也更加准确。研究方法和结论还可以应用到其它具有轴对称性激光束模式产生的温度场。

大口径传输反射镜的研究进展

针对我国惯性约束聚变装置(ICF)对高性能传输反射镜元件的性能要求,探索了大口径传输反射镜制备涉及的关键技术与工艺。深入开展了K9玻璃坯片研制、光学冷加工、传输反射镜镀膜和激光预处理等方面的研究工作。提出了400mm口径K9反射类坯片精密退火工艺,形成了高精度平面加工技术路线;制备了低缺陷薄膜,并且建立了大口径光学元件预处理装置。最后,综述了大口径高性能传输反射镜研制方面的主要成果。研制的400mm口径传输反射镜在1053nm处以45°入射时,其表面粗糙度优于99.8%,面形PV值小于λ/3(λ=1 053nm),损伤阈值大于30J/cm2(5ns)。基于提出的技术研制的大口径传输反射镜已成功应用于我国神光系列高功率激光装置,有力支撑了我国大型激光装置的稳定运行。

46.2W连续输出808nm高功率无铝半导体激光线阵模块

利用InGaAs/InGaAsP应变量子阱外延材料制作出高功率半导体激光器线阵模块,前腔面镀制了单层Al2O3,后腔面镀制了Al2O3/5(HfO2/SiO2)/HfO2,采用无氧铜热沉和高效率的液体冷却器散热。在室温下,驱动电流50A时输出功率高达46.2W,最高电光转换效率41.3%,斜率效率1.15W/A。器件中心激射波长810nm,波长温度系数为0.28nm/℃,光谱半峰全宽(FWHM)3nm,寿命突破11732h。

光束横截面能量分布的变化对激光焊接的影响

大功率CO2 混合模激光束在传输过程中 ,其光束横截面能量不再是高斯分布 ,是受附加相移的影响 ,在不同的传输距离 ,横截面能量分布呈规则变化。对于聚焦激光束 ,在焦点附近 ,由于横截面能量分布的不相同 ,传统的关于负离焦的焊接质量比正离焦好的观点将不再适用。而且在不同的加工位置 ,聚焦激光束的横截面能量分布也不相同 ,必然其加工质量也不相同 ,这样对于同一激光束 ,虽然其光束质量是一定的 ,但并不能获得相同的加工质量 ,因此采用光束质量来衡量激光焊接能力还不够充分 ,还应看光束横截面能量分布的精细结构。对于本文所研究的一种激光束 ,其模式含量TEM0 0约为 2 0 % ,TEM0 2约为 80 % ,在不同加工位置的聚焦光束的横截面能量分布将呈现“凹”形和“山”形两类 ,这两种横截面能量分布的焦斑对焊缝成形的影响是不相同的。试验研究表明 ,“凹”形焦斑焊接质量较差 ,而“山”形的焊接质量较好。

980nm大光腔单发光条大功率LD失效分析

采用大光腔结构、真空解理镀膜、腔面非注入区技术制备了980 nm单发光条大功率半导体激光器,其连续输出功率达到12 W。封装后测试,对于同一批量的180只器件进行可靠性测试,经过64 h电老化测试分析,功率基本未发生变化72只,综合成品率达到40%。对失效器件进行综合分析可得,此次试验中,镀膜后分离时产生的膜撕裂是激光器失效的主要原因。

聚乙二醇对溶胶-凝胶SiO_2增透膜激光损伤行为的影响

采用溶胶凝胶工艺制备了聚乙二醇(PEG)改性SiO2单层增透膜,用输出波长1.06μm,脉宽3ns的调Q激光系统产生的强激光进行辐照实验。观察了添加PEG前后的膜层的微结构、表面形貌以及激光损伤行为的变化,讨论了PEG对薄膜激光损伤行为产生影响的机制。结果表明添加的PEG可以修饰、导向溶胶簇团的生长和交联,并使之有序,由此制备的薄膜结构规整,微缺陷减少,这就提高了膜层的激光损伤阈值;在激光辐照过程中,膜料吸收激光能量,膜层温度升高,膜层的PEG分子受热逐步分解挥发,膜层产生损伤。

微小型高功率CO_2气体激光器的新进展

简要介绍了 CO2 气体激光器、波导 CO2 激光器件微小型化的现状 ,着重介绍了自己研制的全金属环状波导管 CO2 激光器件 .该器件按增益体积整体缩放 ,扩散冷却型新技术、新概念 .并指出 ,该新技术、新概念将是今后气体 CO2 激光器微小型高功率化的最有效途径之一 .

高功率激光宽光谱减反膜的溶胶-凝胶旋转法制备工艺

采用溶胶 凝胶法用旋转镀膜工艺在K9玻璃基片上制备出了SiO2和有机硅单层减反膜以及有机硅 SiO2双层减反膜。考察了旋转速度对SiO2和有机硅单层膜的中心透射波长、膜层折射率等基本光学性质的影响,实验确定了双层膜的涂敷工艺。透射光谱测量表明,采用本文工艺条件制备的有机硅 SiO2双层膜在430～800nm范围内透射率达99%以上。