Evolution of microstructure and texture of AZ80 magnesium alloy under hot torsion with constant decreasing temperature rate

Hot torsion tests for AZ80 magnesium alloy were carried out in the temperature range of 380℃-260℃,with a constant decreasing temperature rate of 10℃/s in order to weaken the basal texture and refine the grains.The results indicated that the average grain sizes were refined forming gradient structure with increasing specimen radial position from center(12.2-5.4μm),and that the initial basal texture intensity of the extruded magnesium alloy was weakened from 46.2 to 8.3.Furthermore,the extension twins(ETs)could be disintegrated from the twins forming separated twins with smaller sizes.Interestingly,ETs with the same twin variant intersecting with each other could be coalesced forming grains with similar orientation,while ETs with different twin variants were separated by twins boundaries contributing to grain refinement.Moreover,in addition to the conventional continuous dynamic recrystallized(CDRX)grains with 30˚orientation rotated around C-axis of the parent grains,CDRXed grains with 30˚rotation around a-axis and random rotation axis were also discerned.Besides,the CDRX evolution induced twins were also elaborated,exhibiting the complex competition between CDRX and twining.Hot torsion deformation with constant decreasing temperatures rate is an effective way of grain refinement and texture modification.

Retardation of an IGG gas flow along a mine drift due to condensation and temperature decrease

The progress of the GAG gas flow in a conveyor drift is investigated.The output of a calculation model is evaluated and compared with experimental results from full-scale inertisation experiments.Expressions presenting the fastest and most extensive condensation of water resulted in well fitted arrival times of the GAG gas front.A common denominator for the two sets of expressions is that the type of flow is considered and thus better fitted to the actual flow situation.The model was further refined to include the surface roughness factor in the condensation calculations,which resulted in time lengths even closer to the measured time length.The measured rapid temperature increase at certain positions along the conveyor drift was found to fit well with the calculated GAG gas front arrival at the corresponding positions.The magnitude of the GAG flow was found to have a large impact on the arrival time of the GAG gas front.Knowing and understanding the GAG gas behaviour would increase the likelihood of successful inertisation of all or part of a mine.

Regional Summer Temperature Decrease against Global Warming in China, Landform Effect?

The data of 16o national meteorological observatory （NMO） stations with long-term monthly temperature data for China were analyzed in this study to show the basin-centered summer temperature decrease against global warming in the past half century. The summer and winter isotherm structures of 1950s and 1990s worked out by interpolation show the isotherm structure variations： the isotherm structure generally moves northward in winter, but in summer it is characterized with separate high-temperature and low-temperature centers and the isotherm structure moves inward the centers with global warming, indicating that the temperature in the highland areas increases but that in the lowland areas decreases in the summer of the duration. The possible mechanism of the basin-centered temperature decrease in summer is discussed in this paper.

Long Term Temperature Trends at Major, Medium, Small Cities and Hill Stations in India during the Period 1901-2013

Industrialization and urbanization are the most dominant causal factors for long-term changes in surface air temperatures. To examine this fact, the long term changes in the surface-air temperatures have been evaluated by the linear trend for the different periods, i.e. 1901-2013, 1901-1970 and recent period 1971-2013 as rapid industrialization was observed during the recent four decades. In the present study, seasonal and annual mean, maximum and minimum temperature data of 36 stations for the period 1901-2013 have been used. These stations are classified into 4 groups, namely major, medium, small cities and hill stations. During the period 1901-1970, less than 50% stations from each group showed a significant increasing trend in annual mean temperature, whereas in the recent period 1971-2013, more than 80% stations from all the groups except small city group showed a significant increasing trend. The minimum temperature increased faster than that of the maximum temperature over major and medium cities, while maximum temperature increased faster than the minimum temperature over the small cities and hill stations. The annual mean temperature of all the coastal stations showed a significant increasing trend and positive correlation with Precipitable Water Vapour (PWV). The effect of PWV is more pronounced on minimum temperature than that of the maximum.

Mg-9Gd-4Y-2Zn-0.5Zr合金连续降温压缩扭转组织演变

采用Gleeble-3500热力拟试验机对Mg-9Gd-4Y-2Zn-0.5Zr合金棒材进行了热压缩扭转实验,变形过程中采用连续降温,温度范围为420~480℃,降温速率为10℃·s^(-1)。分析了变形后试样微观组织的演化规律。结果表明,形成了梯度组织;随棒状试样半径的增加,晶粒尺寸、LPSO相尺寸及ED//<0001>织构强度均减小。晶内LPSO相发生了机械破碎和扭折;块状LPSO相发生溶解,形成条纹状结构,部分条纹状结构在外力条件下发生扭折。变形过程中主要发生了连续动态再结晶及LPSO相激发的再结晶。连续降温有利于再结晶形核,产生大量细小的动态再结晶晶粒,抑制了再结晶晶粒长大和ED//<0001>织构强度增加。

卫星太阳电池阵峰值温度控制方法与在轨验证

针对体装式太阳电池阵在轨工作温度过高会引起焊点和电池串互连片失效,导致部分太阳电池串开路的问题,提出了一种闭环调节主动负载来控制卫星太阳电池阵峰值温度的方法.通过闭环调节增加或减少负载功率的方式,避免出现太阳电池阵分流或开路,让太阳电池阵尽可能多发电,使得太阳电池阵吸收的能量以电能的方式尽可能多地转移出去,达到降低太阳电池阵在轨峰值温度的目的.给出了太阳电池阵峰值温度控制方法及澳门科学一号A卫星在轨验证情况,太阳电池阵在轨峰值温度下降16℃左右,验证了该方法可行.

不同强度衬砌混凝土通水冷却水温优化控制

埋管通水冷却,可以有效降低内部温度和温度应力、降低裂缝风险。但通水冷却水温过低,温降速率过快,可能导致早期裂缝;水温过高,由于结构厚度小,降温效果差。论文对不同强度和不同厚度衬砌结构混凝土采取不同水温(即水温差)通水冷却,采用有限元法仿真计算,进行温度、温度应力、控裂效果深入分析,认识到优化控制水温差ΔTwy和优化控制温降速率Vy随强度近似线性增长,范围在C9025~C9040,ΔTwy为17~30℃,Vy可以达到1.5~3.0℃/d,显著高于分层浇筑大坝等大体积混凝土。

广西大明山地区六梨钨矿流体包裹体特征与成矿机制

广西大明山地区六梨钨矿找矿潜力大,本文通过矿体、矿石特征和流体包裹体分析,探究其成矿机制。钨矿体受断裂控制,矿石类型主要为石英网脉状钨矿石,偶见云英岩型钨矿石。成矿期可大致分为两个阶段:早阶段为辉钼矿—云英岩阶段,晚阶段为白钨矿—石英阶段。石英中流体包裹体以水溶液流体包裹体(W型)为主,偶见CO_(2)-H_(2)O流体包裹体(C型)和纯气相流体包裹体(PC型);流体均一温度为140~382℃,平均263℃;盐度0.18wt%~12.68wt%NaCl,平均4.83wt%NaCl;密度为0.62~0.98 g/cm^(3)。包裹体气相主要成分为CO_(2)、H_(2)O,均为低峰值,结合闪锌矿-黄铜矿固溶体分离温度,成矿流体为低盐度、中高温、低CO_(2)流体,属于H_(2)O-CO_(2)-NaCl体系。白钨矿—石英阶段(晚阶段)是本矿床的主成矿阶段,六梨钨矿从成矿早阶段到晚阶段的平均均一温度具有降低的趋势,均一温度降低是成矿的主要机制。

Improved Plasticity and Cold-rolling Workability of Fe–6.5wt%Si Alloy by Warm-rolling with Gradually Decreasing Temperature

The effects of warm-rolling process on the microstructure, ordering, mechanical properties and cold- rolling workability of Fe-6.Swt%Si alloy were investigated, where three processes of warm-rolling with the same total reduction of 93% were used, including （1） 500 ℃/12 passes/total reduction of 93%, （2） 500 ℃13 passes/total reduction of 50% ＋ 400 ℃19 passes/total reduction of 86%, and （3） 500 ℃13 passes/total reduction of 50% ＋ 400 ℃15 passes/total reduction of 60% ＋ 300 ℃14 passes/total reduction of 64%. The results show that compared with process （1） warm-rolling with constant temperature of 500 ℃, process （2） and process （3） warm-rolling with gradually decreasing temperature can significantly improve the room temperature plasticity and cold-rolling workability of the Fe-6.5wt%Si alloy. For example, the three point bending fracture deflections are increased by 54.5% and 81.8% for processes （2） and （3）, respectively, and the maximum reductions of single pass cold-rolling without edge crack are increased from 50% of process （1） to 55% of process （2） and 62% of process （3）, respectively. The plasticity improvement of the Fe- 6.5wt%Si alloy can be attributed to both reductions of surface oxidation degree and order degree of the alloy by warm-rolling with gradually decreasing temperature.

Natural gas releasing simulation experiment of coal in process of temperature decreasing and decompression and preliminary application in Ordos Basin

Natural gas releasing simulation experiments were carried out in laboratory for researching the gas storage capacity in state of high temperature and high pressure and its gas releasing potential in process of temperature decreasing and decompression. The exiting phase state was studied through measuring gas adsorption of coal and PVT phase calculating of natural gas. Gas volume, gas molecular and isotope compositions in process of temperature decreasing and decompression were measured, natural-gas yields released from the Upper Paleozoic coal strata after later Cretaceous (K3) were calculated and the formation of the reservoir was studied combining with the geological background. The results indicate that natural gas stored in coal has still bigger releasing potential after the uplift of Upper Paleozoic strata. There exists a weak gas supply-effluent equilibrium in the reservoir of Ordos Basin, which is another possible evidence that the Upper Paleozoic gas reservoir may be a deep basin gas reservoir.

温度垂直递减率对飞机尾涡影响的数值模拟

为了更深入精确地研究航空器尾涡演变规律,保障航空器安全运行,本文采用数值模拟方法对不同温度垂直递减率下A330-300飞机尾流的耗散规律进行了研究。数值模拟选择SST(Shear stress transport)k-ω湍流模型,通过构建5种不同温度垂直递减率下的温度场,并在温度场内编译A330-300飞机尾流场实现不同温度垂直递减率下的演化。通过数值模拟结果与雷达探测数据的对比验证了数值模拟方法可靠性。计算结果表明,一般湍流强度下,不同的温度垂直递减率主要作用于尾涡衰减阶段,通过改变尾涡内外温度影响尾涡演化。温度垂直递减率越小,尾涡衰减区环量减小得越快;温度垂直递减率越大,尾涡下沉的速率越大,快速耗散后的涡核间距越大。

水化热抑制剂与管冷对混凝土温控的影响

以尺寸1.6 m的C40混凝土正方体为试验对象,通过单用或联用水化热抑制剂、管冷两种温控措施,对混凝土温度实时监测;根据水化热测试、现场资料收集得到各项计算参数,采用MIDAS软件计算混凝土温度,对比实测值与计算值。结果表明:单用水化热抑制剂降低混凝土中心温度12.9℃,峰时延迟45 h;单用管冷可降低管周边温度,对降低混凝土中心温度不明显;联用水化热抑制剂、管冷降低混凝土中心温度18.3℃,峰时延迟44 h;混凝土中心温度实测值与MIDAS计算值吻合较好。说明混凝土温控关键是调控胶凝材料水化放热速率,管冷在较低放热速率下,进一步降低中心温度,且不影响温峰时间。

全尺寸进气道射流预冷数值研究与性能评估

针对高马赫数高温条件下飞机进气道射流预冷问题,本文建立了真实飞机全尺寸进气道-射流预冷装置一体化数值计算模型,通过控制变量法分析了进气流量、进气温度及射流流量对射流预冷装置性能的影响规律,发现进气流量与降温量呈负相关,与蒸发效率和温场均匀性呈正相关;进气温度与降温量、蒸发效率及温场均匀性均呈正相关;射流流量与降温量呈正相关,与蒸发效率及温场均匀性呈负相关。研究结果表明,在相同进气状态下,此飞机进气道的特殊构型会导致降温量和蒸发效率曲线在蒸发距离为2500mm处存在拐点。在此基础上,进一步提出了一种基于试验设计法(Design of experiment,DOE)评估进气道出口总温的评估方法,与试验结果对比发现该方法可将误差控制在5%以内。因此,采用该方法进行进气道出口总温预估是有效的。

13种常用室内绿墙植物生态效益研究

[目的]了解绿墙植物对室内环境的改善能力。[方法]对银边吊兰、豆瓣绿、密叶朱蕉、黑金刚印度榕、白掌、如意粗勒草、绿萝、绿钻、金钻、黄金葛、鸟巢蕨、鸭脚木、花叶鸭脚木13种常用室内植物的绿墙应用进行固碳释氧和降温增湿效益效果计算与评价。[结果]绿墙植物对室内环境有明显的改善效果,不同植物之间存在差异。植物单位面积固碳释氧和降温增湿效益最佳的为鸭脚木,单位面积日固碳量为7.77 g/(m^(2)·d),日释氧量为5.65 g/(m^(2)·d),日增湿量为1 380.93 g/(m^(2)·d),日降温量为3 363.25 kJ/(m^(2)·d),最差为鸟巢蕨。[结论]室内植物产生生态效益的能力与室内环境相关,可以通过合理选择植物种类、增加补光、加强养护管理等措施提高室内绿墙植物的生态效益值。

大红山铜矿降低通风系统进风风源温度的研究与应用

矿井通风作为矿井安全生产的基本保证,降低井下空气温度,改善生产作业环境,是保障地下矿山井下作业人员正常作业及生命安全健康的重要手段。针对玉溪矿业有限公司大红山铜矿井下高温问题,在500水平B104线中部进风竖井进风联道内安装组合喷淋降温设施,实现自动喷淋降温作业,矿区进风风源空气温度由36.7℃降到26.3℃,降低10.4℃,空气温度明显下降,具有一定的推广作用。

PETG热收缩膜幅宽减小的影响因素及改善措施

本文主要从仓储温湿度、薄膜添加剂、时效处理、分切设备、运输过程进行分析探究,找出部分膜卷幅宽不足的影响因素,从多方面考虑,并提出相关的改善措施。总的来说,热收缩聚酯薄膜仓储要注意环境的温湿度;考虑添加剂自身性能及对薄膜的影响;半成品母卷的时效处理至少要超过6个小时;分切设备定期校正维护;质检人员进行检验复核;运输过程防雨防晒。

大连市常见绿化树种蒸腾降温的效应分析

选择大连市10种常见绿化树木,测试其叶片的蒸腾作用速率,据此计算出绿地的降温和增湿效能。结果表明:8月份是10种树种的日蒸腾释水量和日蒸腾吸热量差异最明显的月份,榆树、白桦、榆叶梅是较好的降温增湿树种。且乔木之间、灌木之间的单位叶面积光合蒸腾速率有很大的差别。

上海地区常见园林植物蒸腾降温增湿能力的研究

对上海138种园林植物进行了蒸腾速率的测定,以此计算出其降温增湿能力。结果表明:气孔导度、叶片温度和空气相对湿度为影响蒸腾速率的主要因子;垂柳、悬铃木和泡桐等大乔木由于有较大的总叶面积,因而调节小气候的能力较强。

影响食品冷冻干燥过程的因素分析

以苹果的冷冻干燥实验为例 ,对影响食品冷冻干燥过程的因素进行了分析 :降温速率越快 ,干燥时间越长 ,冻干品质量越好 ;保持冻干室高的真空度不仅能缩短冻干时间 ,而且能提高冻干品的质量 ;加热板温度高能缩短干燥时间 ,但过高的加热温度又会影响冻干品的质量 ,因此应选择合适的加热温度 ;降低冷阱温度能缩短冻干时间和提高冻干品质量 。

长沙市立体绿化降温节能效益分析

立体绿化是提高城市绿化率的一种最佳途径之一。以长沙城市校园内不同的绿化方式的楼房为研究对象,比较了屋顶草坪绿化、屋顶灌木绿化、墙体立体绿化的楼房与裸屋顶的普通楼房室内温度的变化。并以空调降温耗电量为标准,根据计算出不同绿化间的温度差,估算出不同的绿化方式降温节能效果。结果表明:降温节能效果立体绿化(屋顶灌木绿化(屋顶草坪绿化(裸屋顶,3种绿化方式比裸屋顶降温节能分别为40.4%、34.4%和31.4%。根据我国供电标准煤耗CO2、SO2和氮氧化物排放指标,计算出中南林业科技大学每年夏季可以节约空调用电692 400 kW.h,实现CO2减排372.9 t,SO2减排12.42 t,氮氧化物排放10.5 t。