高超声速飞行器异型气膜孔无喷流热增量研究

目的获取高超声速飞行器气膜孔不喷流时的热负荷增量。方法通过计算流体力学(CFD)方法针对典型高超声速飞行器50km、飞行马赫数为15条件下的无开孔、有开孔气膜冷、有开孔无喷流3种工况开展壁面热流分布研究。结果无开孔的最大热流分布在头部滞止点附近,约为2.2 MW/m~2,有气膜冷却的工况热流最高值在侧面气膜孔没有覆盖到的部位,约为1.4 MW/m~2,有异型孔但是不喷流的工况,热流密度最大值主要分布在开孔附近,最大值大于3.3 MW/m~2。结论对于在高超声速飞行器表面开孔采用气膜冷却方式冷却时,如果由于某种原因气膜孔不喷流,那么在孔的附近乃至整个滞止区域附近的热流负荷将会大幅度升高。     

Excimer Pulsed Laser Ablation of Polymers in Air and Liquids for Micromachining Applications

Micromachining of polymers is an important field that has both immediate and future applications in diverse fields such as medicine, microelectromechanical systems, and photonics. In this work, ultraviolet pulsed laser ablation of polymethyl methacrylate (PMMA), polypropylene (PP), and polyethylene, (PE) was performed using a KrF (krypton-fluoride) excimer laser in air, methanol, and ethyl alcohol. The size of the hole and etch depth were marginally increased in PMMA but were markedly reduced in PP and PE by the organics. There are other beneficial and detrimental effects of the organics in regard to the taper of the hole, contamination, thermal damage, and cracking that are explained based on laser-liquid-polymer interactions, which include self-focusing, chemical reactions, pressure-wave generation, and thermal quenching. Existing polymer ablation models were used to describe the observed etch depth versus incident laser energy fluence.     

Influence of displacement constraints in thermomechanical analysis of laser micro-spot welding process

The evolution of mechanical components into smaller size generating a need for microwelding of these components using laser which offers better control as compared to arc and plasma processing. The present article describes the numerical simulation of laser micro-spot welding using finite element method. A two dimensional Gaussian distributed surface heat flux as a function of time is used to perform a sequentially coupled thermal and mechanical analysis. The model is used for simulating laser micro-spot welding of stainless steel sheet under different power conditions and configurations of mechanical constraints. The temperature dependent physical properties of SS304 have been considered for the simulation and an isotropic strain hardening model has been used. The simulated weld bead dimensions have been compared with experimental results and temperature profiles have been calculated. The maximum deformation of 0.02 mm is obtained with maximum laser power of 75 W. The thermal stress is more inducing factor to temperature induced residual stresses and plastic strain as compared to mechanical constraints. The plastic strain changes significantly by displacement constraints as compared to residual stress.     

Femtosecond time-resolved spectroscopy of elementary molecular dynamics

Femtosecond time-resolved coherent anti-Stokes Raman spectroscopy (CARS) is applied in order to prepare and monitor laser-induced vibrational coherences (wave packets) of different samples mainly in its electronic ground state but also in excited states. The time evolution of these wave packets gives information on the dynamics of molecular vibrations. In a first example the femtosecond (fs) CARS transients of iodine are investigated. By changing the relative delay between the applied laser pulses of this non-degenerated four-wave mixing technique, both the wavepacket motion on the electronically excited and the ground states can be detected as oscillations in the coherent anti-Stokes signal. Second we report on selective excitation of the vibrational modes in the electronic ground state of polymers of diacetylene by means of a femtosecond time-resolved CARS scheme. This selectivity is achieved by varying the phase shape (chirp) and the relative delay between the exciting laser pulses.     

高超声速飞行器翼前缘射流降热研究

目的获得高超声速飞行器翼前缘射流降热机理。方法通过计算流体力学(CFD)方法,针对典型高超声速带翼飞行器开展飞行马赫数为15条件下的射流干扰热环境规律研究,分析无射流翼前缘气动加热特性,确定热流严酷射流开孔区域,分别在翼前缘激波干扰及翼后段布置射流孔,并设计射流流动参数,开展射流总压与来流总压比率在0.002～0.02范围内的流场仿真计算,获得局部流动及表面热流分布特性,针对计算结果进行对比分析。结果随着总压比率逐渐增大,激波干扰以及机翼后段射流孔区域热流均显著降低,降幅达76%～99%。翼中段无射流典型位置总压比率为0.002时热流增高,增幅为11%～24%,随着射流总压增大热流降低,降幅达68%～86%。高射流总压比率局部射流孔前热流增大2倍以上。结论射流影响下降热机理是射流将高温气体推离壁面,局部表面热流显著降低。低射流总压比率亚音速射流作用区域向下游延伸距离短,不会引起局部再附热流增大。高射流总压比率音速射流降热影响向下游明显延伸,增强射流强度可以增加延伸区长度,同时会诱导局部射流孔前再附热流显著增大。     

中国地区人为热分布特征研究

利用中国统计年鉴中全国各省份的非再生能源消费资料和2.5min×2.5min分辨率的人口格点数据,对中国地区人为热排放的时空分布进行研究,讨论了其分布特征和影响因素.结果表明,中国地区人为热通量随时间持续增长,特别是在2000年后增长加速,1985年到2000年从0.09W/m2增长到0.16W/m2,而到2013年已经增长到0.38W/m2.中国地区的人为热排放具有显著的地域特征,在华北、华东和华南,由于人口密度大、经济发达,人为热的污染很严重;在华中地区,人为热污染较严重的区域主要分布在以武汉为中心的经济圈;在东北地区,以大连、沈阳、长春和哈尔滨为中心的城市区域人为热污染也较为严重;而在西北和西南的大部分地区,人为热排放量很小,仅在以成都、重庆为中心的区域较大.历年来全国年均人为热的最大值都出现在上海,其中2010年最大,为113.5W/m2,上海人为热排放的年均值增长明显,可达到0.6W/m2/a.随着城市化进程的加快,人为热的排放愈来愈强,热污染对城市和区域的气候以及空气污染的影响也会越来越重要.     

Numerical and experimental investigations on laser melting of stainless steel 316L metal powders

This paper presents numerical and experimental investigations on laser melting of SS grade 316L powder on top of AISI 316L substrate using a pulsed Nd:YAG laser. The objectives of the present study are to understand the effect of process parameters such as laser power, scanning speed and beam size on geometry characteristics of the melt zone and ball formation. We formulated a moving heat source problem and obtained transient temperature solutions using commercial finite element solver. The geometry characteristics of the melt zone are evaluated from the temperature solutions and compared with experimental results. The effect of laser parameters on the geometry, morphology and homogeneity of single track realization was methodically analyzed by utilizing characterization tools such as laser particle size analyzer, macro and microscopic inspection, Scanning Electron Microscope (SEM), X-Ray Diffraction (XRD) and Fourier Transform Infrared Spectroscopy (FTIR). The results presented in this paper are beneficial to realize homogenous layer formation in additive manufacturing processes involving powder melting by laser beam.     

Analysis of a laser process for permanently degrading a photo-activated adhesive joint

A pulsed, laser process has been developed to reduce the permanent strength of photo-activated adhesive joints prior to work-piece de-bonding. The objective of this investigation was to gain insight into the relationships between carbon black content of the adhesive, laser delivery mode, heat transfer, and adhesive degradation. To do so, a variety of experiments were performed to characterize process sensitivity, radiation absorption within the adhesive joint, and thermal decomposition of the adhesive. In addition, heat transfer analysis was conducted to predict adhesive temperatures during the process.The results of this investigation indicate that the strength diminishment of an adhesive joint occurs after it has absorbed a train of high power pulses in rapid succession. The vast majority of strength diminishment occurs over a very narrow time window and is highly correlated to the rapid emission of gray smoke/vapor from the adhesive joint. For this to occur, the adhesive must contain carbon black. It is also highly correlated to a rapid increase in temperatures throughout the adhesive matrix. Laser pulse parameters that do not lead to this rapid increase, will not initiate adhesive degradation.The inclusion of carbon black into the adhesive promotes heat absorption and increased temperatures in the adhesive joint. These temperatures are large enough to enable adhesive decomposition. But the time span over which this happens is too small for significant damage to occur. It is currently hypothesized that high temperatures local to the carbon black particles may be the source of adhesive degradation.     

An objective urban heat storage model and its comparison with other schemes

An objective hydteresis model to predict the storage heat flux in urban areas is presented. A review of observational and theoretical work reveals this approach to be more approproate than the linear relation between soil heat flux and net all-wave radiation. A scheme to implement the model in any urban area is developed. In essence the model only requires land cover and net all-wave radiation as input, but it can be further refined to include anthropogenic heat release, the three-dimensional form of the surface, and can allow for changes in source area. Tests against energy balance data from a site in Vancouver, BC indicate the model simulates most aspects of measured storage heat flux values for a suburban site in both winter and summer. Comparison with the results of a study in Bonn, Germany involving the use of heat flux plates and detailed heat content change calculations gives good agreement except for a phase difference of about 1 h. There is evidence to suggest that the spatial variation of intra-urban heat storage may be relatively conservative.     

城市垃圾焚烧飞灰熔融DSC-DTA实验研究

利用高温DSC-DTA热分析仪对国内外2种城市垃圾焚烧飞灰在惰性气氛(N2)和氧化气氛(O₂)下的熔融特性进行了研究.在20℃～1450℃的温度范围内采用3种温升速率进行实验.飞灰熔融过程包含多晶转变和熔融相变2种反应,多晶转变发生在480℃～670℃范围内,吸热量20kJ/kg;熔融约发生在1136℃～1231℃,在1174℃达到峰值,熔融相变潜热约700 KJ/kg,整个过程总吸热量约1800 kJ/kg.研究了CaO添加剂对飞灰熔融的影响.最后提出飞灰熔融吸热量的预测模型,模型     

积融雪控制下土壤大气间汞交换通量特征

位于松花江上游流域的夹皮沟金矿曾是我国采金量最大的矿区,广泛使用的混汞法提金工艺导致了严重的区域环境介质汞污染.为研究稳定性季节积雪及融雪控制过程土壤(雪)大气间汞交换通量特征,选择区域内典型"山-谷"地形结构单元,沿坡面等距进行布点,使用动态通量箱法测定了各采样点土壤(雪)大气间汞交换通量,使用塞曼效应汞分析仪(LUMEX Zeeman RA915+)测定了各采样点近地面(0～150 cm)垂直方向上大气汞浓度分布,分析了同步气象因子、积融雪控制下地表性质和近地面大气汞的垂直分布各因素对土壤(雪)大气间汞交换通量特征的影响.结果表明,冬季积雪和融雪期间,大气中汞均有沿山坡向谷底汇集的趋势,在积雪冷源性下垫面所致逆温层结控制下,汞交换通量表现为明显的由大气向土壤(雪)的沉降过程.融雪期间雪融后地表土壤大气间汞交换通量表现为释放与沉降过程交替,仍然积雪地表大气间汞交换通量沉降水平明显弱于积雪期.分析土壤(雪)大气间汞交换通量与其影响因素间关系发现,积雪期土壤(雪)大气间汞交换通量与大气汞浓度和大气温度间均具有显著的负线性相关关系;融雪期土壤(雪)大气间汞交换通量与大气汞浓度间具有明显的负线性相关关系,与大气温度间具有正线性相关关系;雪融后裸露土壤大气间汞交换通量与地温间呈现一定的正线性相关关系.     

夏季太湖水体势能异常的空间分异特征及其机制

基于2013年6月7日~8月28日在大浦口、梅梁湾、避风港、平台山及小雷山附近湖体中获取的气象数据及水温廓线,探讨了太湖水体势能异常的空间特征及其可能机制.结果表明:太湖水体势能异常不仅存在日变化,而且呈现明显的空间差异:湾区附近的梅梁湾和避风港,较易形成相对稳定的水体层化,且可能维持多天;而位于西岸的大浦口、湖心区的平台山及湖南部的小雷山区域的水体势能异常呈典型的日分层现象,即白天可能形成层化,晚间基本消失.水体获得的热量存在空间差异,但差异度较小,而动力混合作用的空间差异明显.动力混合作用的空间差异是造成水体势能异常或层化空间分异的主要成因.     

Thermo-physical modeling of die-sinking EDM process

This paper reports the development of a thermo-physical model for die-sinking electric discharge machining (EDM) process using finite element method (FEM). Numerical analysis of the single spark operation of EDM process has been carried out considering the two-dimensional axi-symmetric process continuum. The analysis is based on more realistic assumptions such as Gaussian distribution of heat flux, spark radius equation based on discharge current and discharge duration, latent heat of melting, etc., to predict the shape of crater cavity and the material removal rate (MRR). Using the developed model, parametric studies were carried out to study the effect of EDM process parameters such as discharge current, discharge duration, discharge voltage and duty cycle on the process performance. Experimental studies were carried out to study the MRR and crater shapes produced during actual machining. When compared with the reported analytical models, our model was found to predict results closer to the experimental results. The thermo-physical model developed can further be used to carry out exhaustive studies on the EDM process to obtain optimal process conditions.     

C/YAG复合材料的抗烧蚀性能研究

目的对C/YAG复合材料的烧蚀性能和烧蚀机理进行研究。方法以高固相含量Y_2O_3-Al_2O_3溶胶为原料,低成本的碳纤维针刺毡为增强体,通过浸渍-干燥-热处理工艺制备C/YAG复合材料,利用SEM和XRD对烧蚀后材料的微观结构和物相组成进行分析。结果复合材料的质量烧蚀率和线烧蚀率分别为0.05g/s和0.12 mm/s。结论 C/YAG复合材料高的质量烧蚀率和线烧蚀率主要归因于氧乙炔焰高热流和强剪切力作用。烧蚀后材料的微观形貌可以分为中心区、过渡区和边缘区三个区域。其中烧蚀中心区主要受到热化学腐蚀和机械剥蚀的作用,而过渡区和边缘区主要受到热化学腐蚀和热物理侵蚀的作用。     

等离子在卷烟厂除异味系统中的应用研究

卷烟厂中存在很多醛,酮有害气体,会大大降低工作环境的质量。针对此问题,提出了在高压直流上叠加高频电压交流脉冲的基础上调节可变电容改变电路阻抗的方法改进等离子体除异味装置。在高频高压脉冲电源下,利用可变电容与交直流叠加技术,产生高频高压快速上升沿的交流脉冲,改变负载回路上的阻抗,比较品质因数不同情况下产生的等离子,满足产生更佳低温等离子体的需求。经仿真实验结果和烟厂异味气体的成分分析表明,利用该方法可以达到除异味的理想效果,使工作环境得到更大更好的改善。     

香溪河初冬降温过程中垂向混合结构特征分析

基于2018年11月29日~12月15日三峡水库支流香溪河峡口站点的水文气象等实测数据,讨论了香溪河初冬一次典型降温过程中水体的垂向混合结构动力过程,以及水-气界面的热通量和风应力在其中的贡献机制.结果表明,该时段香溪河表层约8m水深范围的垂向混合结构呈显著的日间弱分层,夜间强混合模式,且日间分层时段较短,仅发生在正午前后的约4h内（最大浮力频率约2×10^-4s^-1）.水-气界面的能量输入或耗散过程对水体分层混合过程的贡献显著大于风应力对水体的机械扰动作用.太阳短波辐射是表层水体日间吸热从而分层的主要驱动力,长波辐射在夜间放热过程中处于主导地位,潜热和感热过程在水体放热过程中作用相当.风应力以机械扰动的方式对水体混合模式的影响极小（湍能通量最大值2×10^-7m³/s³）,主要集中在表层水体约0.5m内,但其可通过影响潜热和感热的方式显著增强中层水体混合特征.由于研究时段香溪河水温较低,蒸发放热较小,而水-气温差相对较大,风应力通过感热驱动的湍能通量（8×10^-7m³/s³）略大于潜热（7×10^-7m³/s³）.     

YSZ-W复合涂层的制备及抗烧蚀性能研究

目的 在TC4表面制备均匀致密的YSZ-20％(体积分数)W(ZW2)复合涂层,以提高其抗烧蚀性能,并对其在超音速燃流中的烧蚀响应机制进行初步探究.方法 以8YSZ和W粉为原料,采用喷雾干燥-真空烧结工艺制备喷涂用ZW2复合粉末,利用大气等离子喷涂技术(APS)制备ZW2复合涂层,采用超音速火焰冲刷法(SCF)测试涂层...     

Striation Formation and Melt Removal in the Laser Cutting Process

The mechanisms of melt ejection and striation formation in continuous wave laser cutting of mild steel are discussed. Melt ejection from the cutting front is shown to be a cyclic phenomenon. Striation formation is strongly affected by the oscillatory characteristic of the thin liquid film on the cutting front during melt ejection, together with the oxidation and heat transfer process. Cutting speed determines whether the liquid film will rupture or generate waves on the cutting front. Theoretical explanations are given according to the instability theory of a thin liquid film in a high-velocity gas jet and the diffusion-controlled oxidation theory. Striation frequency and depth are predicted according to the above theories. Experimental investigations were carried out and the results are consistent with the calculations. The better understanding has shed light on further investigations and optimal process development.     

Remote sensing of the urban heat island and its changes in Xiamen City of SE China

World-wide urbanization has significantly modified the landscape, which has important climatic implications across all scales due to the simultaneous removal of natural land cover and introduction of urban materials. This resulted in a phenomenon known as an urban heat island(UHI). A study on the UHI in Xiamen of China was carried out using remote sensing technology. Satellite thermal infrared images were used to determine surface radiant temperatures. Thermal remote sensing data were obtained from band 6 of two Landsat TM/ETM^ images of 1989 and 2000 to observe the UHI changes over l l-year period. The thermal infrared bands were processed through several image enhancement technologies. This generated two 3-dimension-perspective images of Xiamen‘s urban heat island in 1989 and 2000, respectively, and revealed heat characteristics and spatial distribution features of the UHI. To find out the change of the UHI between 1989 and 2000, the two thermal images were first normalized and scaled to seven grades to reduce seasonal difference and then overlaid to produce a difference image by subtracting corresponding pixels. The difference image showed an evident development of the urban heat island in the 11 years. This change was due largely to the urban expansion with a consequent alteration in the ratio of sensible heat flux to latent heat flux. To quantitatively compare UHI, an index called Urban-Heat-Island Ratio Index(URI) was created. It can reveal the intensity of the UHI within the urban area. The calculation of the index was based on the ratio of UHI area to urban area. The greater the index, the more intense the UHI was. The calculation of the index for the Xiamen City indicated that the ratio of UHI area to urban area in 2000 was less than that in 1989. High temperatures in several areas in 1989 were reduced or just disappeared, such as those in old downtown area and Gulangyu lsland. For the potential mitigation of the UHI in Xiamen, a long-term heat island reduction strategy of planting shade trees and using light-colored, highly reflective roof and paving materials should be included in the plans of the city planers, environmental managers and other decision-makers to improve the overall urban environment in the future.