EFFECT OF TRANSVERSE DEPRESSIONS AND OSCILLATION MARKS ON HEAT TRANSFER IN THE CONTINUOUS C

1.抛出问题：what is depression？Or what kind of feelings do you have when you hear the word—depression？大家可能会想到一些因为患抑郁症而自杀的明星：林黛玉扮演者张晓旭、三毛、张国荣、作家海明威、导演李晓等等。

2.播放视频：I have a black dog.(视频简单明了又生动有趣，可以让观众在短短4分钟左右的时间里快速了解抑郁症)3.结合视频的主要内容，简单介绍抑郁症的主要症状和造成抑郁症的一些主要原因。

4.关于抑郁症的数据分析，不同性别的人、不同年龄段的人之间患抑郁症的几率是不同的。

5.最后来说，在生活中如何预防抑郁症和如何成功治愈抑郁症。

相关材料：1.DepressionWhat is depression? What are the symptoms of depression? What are the depression treatment and medication?What is depression?Depression is characterized by lack of activity, self-worth, and dejection, sad feelings of gloom and inadequacy.When people are in depression then their view of life becomes negative. They often face hopelessness, passivity, indecisiveness, suicidal intentions, loss of appetite, weight loss, and sleep disturbances.What are the signs and symptoms of depressions?Following are the major signs and symptoms of depressions:∙Low mood∙Losing the temperature than usual∙Loss of interest in activities that they enjoy∙Loss of self confidence∙Lack of energy∙Poor concentration∙Difficult to take decision∙Trouble in sleeping∙Lack of sex drive∙ A restless feeling∙Guilty feeling∙Thinking about suicideWhat are the causes of depression?Following are the most common causes of depression:∙Dangerous or unsafe environment in family.∙Being neglected from closed one in early life.∙Traumatic experiences late in life.∙One important cause is that loss of job.∙Death of loved one.∙Because of financial problem extreme stress.∙Poor self-confidence∙Side effects of some other medicine lead to depression.∙Frequently feeling physical illness.∙Feeling homesickness.∙Hormonal changes always affect on mood lead to depression.∙Frequently taking drug or alcohol.Can depression be treated?（以崔永元为例，成功治愈抑郁症）The straight answer is "yes". Depression is highly treatable. First the causes of depression is found out and then with the help of some antidepressants and non medical therapies it is treated. See depression treatments for more details on available treatments.．2.Depression StatisticsThe main purpose of depression statistics is to bring awareness, based on statistics, fact information and observations. People who suffer from depression can begin to understand that they are not alone but many like them are there. Simple fact is seen that depression occurs often at earlier ages than in older age.Depression Information and Fact StatisticsPeople who suffer from depression also suffer from anxietyand vice versa. Although some of these depression statisticsrepresent the frequency of depression among differentpopulation sectors, others represent delicate mind/bodyconnection fact. A study shows that people with depressionare four times as likely to die within six months of a heartattack as well as when depression is high, the immunesystem suffers.General Depression Statistics∙Depression weakens the immune system and so one becomes susceptible to physical disorders∙In a year nearly 13 million and 14 million people experience a depressive disorder ∙Only 20 percent who develop depression receive adequate treatment∙16 percent of adults will experience depression at same age∙97 percent of those reporting depression are with the opinion that their work, home life and relationships suffered as a result of it∙Depression increases chances of dying within 6 months after a heart attackDepression Statistics about Children∙Childhood depression, whether boys and girls, depression rate is equal∙Children with depression are having it as a hereditary problem∙Most of the research result in depression proved that it occurs more in earlier age than in past decades∙In US nearly 2.5 percent of children suffer from depression∙In US nearly 8.3 percent of adolescents suffer from depressionDepression Statistics about Women∙There is higher rate of depression in married women as compared to single women and many are having depression at child birth∙Common age group of women is 25 to 44 who suffer from depression∙Depression is becoming nowadays a major cause of disability in women∙On an average out of 3 depressed women, only one will seek professional help ∙Women experience depression twice as much as men∙In US nearly 7 million women are clinically depressed∙One in five women can have chance of having clinical depression at same age∙Mostly 15 percent of women suffering from severe depression will commit suicide ∙Nearly 10 percent of women experience postpartum depression after birth of a childDepression Statistics about Men∙One in seven men will develop depression within 6 months of becoming unemployed ∙Men after retirement are having highest risk of depression∙Those men who are recently diagnosed with depression are having high risk of cardiovascular problems in the next five years∙Even though women experience depression as twice as men do, but the rate of men who commit suicide is three times as that of women∙Main reasons of depression in men are separation after marriage, widowed, divorceDepression Statistics about Suicides∙Mostly people between the ages of 15 and 24 commit suicide∙Generally Children between the ages of 5 and 14 commit suicide∙At the rate of 2 out of every 3 people who commit suicide visited their health care center the month prior∙At the rate of 2 out of every 3 people who commit suicide already talk about it to friends or familyElderly Depression Statistics∙Older people in depression mostly have risk of committing suicide∙One forth of total suicides are committed by the elderly people∙About 6 million elderly people suffer from depression∙Only 10 percent of the elderly experiencing depression could get medical help∙Old peoples having depression needs 50 percent higher healthcare costs∙It has been observed that elderly women experience depression more than elderly menAnxiety and Depression Statistics1.2003 National Comorbidity Study, sponsored by the National Institutes of Health16% of the population that is nearly 35 million Americans suffer from severedepression2.National Institute of Mental Health 19.1 million Americans and of age group 18 to 54years-old suffer from anxiety disorders.3.National Institute of Mental Health: The 9.5% of the adult population that is nearly18.8 million American adults suffer from clinical depression.3.张国荣、三毛、张晓旭、崔永元、。

- 49 -[10] MUSIKATAVORN K，PLITAWANON P，LUMLERTGUL S，et al. Randomized controlled trial of ultrasound-guided fluid resuscitation of sepsis-induced hypoperfusion and septic shock[J]. West J Emerg Med，2021，22（2）：369-378.[11]刘璐，叶英，杜志强，等.超声监测下腔静脉变异度指导液体复苏对脓毒症休克患者预后的影响[J].中国医刊，2022，57（6）：682-686.[12]要莉莉，马永峰，张丽，等.超声检查与PiCCO 监测指导脓毒症患者早期液体复苏效果的对比研究[J].临床超声医学杂志，2022，24（2）：147-150.[13] CHEN H，ZHU Z，ZHAO C，et al. Central venous pressuremeasurement is associated with improved outcomes in septic patients: an analysis of the MIMIC-Ⅲ database[J]. Crit Care，2020，24（1）：433.[14]关红，杜俊凯. NICaS 监测脓毒症休克患者体液复苏的应用及对微循环、血流动力学的影响[J].中国急救复苏与灾害医学杂志，2021，16（11）：1262-1265.[15]杜桂彬，王会迟，汤丽健，等.超声心动图联合心肌损伤标志物及血流动力学监测对脓毒症患者心肌损伤及预后评估的价值[J].岭南心血管病杂志，2020，26（6）：640-644，670.[16]任雪莲，文海燕，刘冬辉. CVP、重症超声联合（Pv-aCO 2）/（Ca-vO 2）在机械通气患者容量管理中的指导价值及对血流动力学、Lac、机械通气时间的影响[J].中国煤炭工业医学杂志，2022，25（1）：86-90.[17]邹红，陈柯宇，邹赟，等. PICCO 和床旁超声监测在感染性休克患者治疗指导中的应用[J].中华医院感染学杂志，2022，32（5）：698-702.[18] PENG Y，WU B，XING C，et al. Increased mean perfusionpressure variability is associated with subsequent deterioration of renal function in critically ill patients with central venous pressure monitoring: a retrospective observational study[J]. Ren Fail，2022，44（1）：1976-1984.[19]张功伟，王伟，张诗渊，等.床旁超声与脉搏指示连续心排血量监测在脓毒症休克患者早期液体复苏治疗中的疗效比较[J].中国现代医学杂志，2022，32（20）：8-13.[20]高山，张永.床边下腔静脉超声指标及中心静脉压对脓毒性休克患者容量反应性的预测价值[J].中华全科医学，2021，19（4）：581-585.（收稿日期：2023-09-28）　（本文编辑：马娇）①苏州市吴中人民医院　江苏　苏州　215128热毒宁注射液联合抗生素治疗儿童支气管肺炎的效果袁琦①　兰超美①【摘要】　目的：探讨热毒宁注射液联合抗生素治疗儿童支气管肺炎的效果。

review[J].Biomed Pap Med Fac Univ Palacky Olomouc Czech Repub,2012,156:186-199.[12] Lubiński J,Lener MR,Marciniak W,et al.Serum essential elements andsurvival after cancer diagnosis[J].Nutrients,2023,15(11):2611.[13] Schenk JM,Till C,Neuhouser M,et al.Differential biopsy patternsinfluence associations between multivitamin use and prostate cancer risk in the selenium and vitamin e cancer prevention trial[J].Cancer Epidemiol Biomarkers Prev,2022,31:2063-2069.[14] Crowe FL,Appleby PN,Travis RC,et al.Endogenous hormones,nutritionalbiomarkers and prostate cancer collaborative group. Circulating fatty acids and prostate cancer risk: Individual participant meta-analysis of prospective studies[J].J Natl Cancer Inst,2014,106(9):dju240.[15] Parra-SS,Ahumada D,Petermann-Rocha F,et al.Association ofmeat,vegetarian,pescatarian and fish-poultry diets with risk of 19 cancer sites and all cancer:findings from the UK Biobank prospective cohort study and meta-analysis[J].BMC Med,2022,20:79.[16] Birney E.Mendelian randomization[J].Cold Spring Harb PerspectMed,2022,12(4):a041302.[17] Davey SG,Hemani G.Mendelian randomization:genetic anchors for causalinference in epidemiological studies[J].Hum Mol Genet,2014,23:89-98.[18] Dong H,Kong X,Wang X,et al.The causal effect of dietary compositionon the risk of breast cancer: A mendelian randomization study[J].Nutrients,2023,15(11):2586.[19] Yan H,Jin X,Zhang C,et al.Associations between diet and incidencerisk of lung cancer: A Mendelian randomization study[J].Front Nutr,2023,10:1149317.[20] Yin L,Yan H,Chen K,et al.Diet-derived circulating antioxidants andrisk of digestive system tumors: A mendelian randomization study[J].Nutrients,2022,14(16):3274.[21] Brasky TM,Darke AK,Song X,et al.Plasma phospholipid fatty acidsand prostate cancer risk in the SELECT trial[J].J Natl Cancer Inst,2013,105:1132-1141.[22] Outzen M,Tj ønneland A,Christensen J,et al.Fish consumption andprostate cancer risk and mortality in a Danish cohort study[J].Eur J Cancer Prev,2018,27:355-360.[23] Fu YQ,Zheng JS,Yang B,et al.Effect of individual omega-3 fatty acids onthe risk of prostate cancer: A systematic review and dose-response meta-analysis of prospective cohort studies[J].J Epidemiol,2015,25:261-274.[24] Burgess S,Swanson SA,Labrecque JA.are mendelian randomizationinvestigations immune from bias due to reverse causation[J].Eur J Epidemiol,2021,36:253-257.[25] Guo JZ,Xiao Q,Gao S,et al.Review of Mendelian Randomization Studieson Ovarian Cancer[J].Front Oncol,2021,11:681396.[2024-01-07收稿]脑血管疾病是指脑血管病变所引起的脑功能障碍。

普鲁斯特效应英文介绍The Proust Effect, also known as the "Proustian Phenomenon," refers to the powerful ability of smells to evoke vivid memories and emotions in individuals. It is named after the French author Marcel Proust, who famously wrote about a childhood memory being triggered by the smell of a madeleine cake in his novel "In Search of Lost Time."The effect is based on the close connection between the olfactory system, which is responsible for our sense of smell, and the brain's limbic system, which is associated with emotions and memories. When we encounter a smell, it can trigger a cascade of memories and emotions associated with previous experiences linked to that specific smell.The Proust Effect has been extensively studied and documented by scientists, with research showing that the olfactory system has direct access to the areas of the brain responsible for processing emotions and memories. This unique connection explains why smells have such a profound impact on our recollection of events and our emotional responses.The power of the Proust Effect lies in its ability to transport individuals back in time, allowing them to relive long-forgotten moments and experience associated feelings once again. This phenomenon has been utilized in various fields such as marketing and psychology, where scents are strategically used to trigger specific emotions and memories in individuals.In conclusion, the Proust Effect is a fascinating phenomenon thathighlights the incredible connection between our sense of smell, memories, and emotions. It serves as a reminder of the remarkable ability of smells to evoke powerful and nostalgic recollections in our everyday lives.。

本科毕业设计论文专业外文翻译专业名称：土木工程专业道路与桥梁年级班级：道桥08-5班学生姓名：指导教师：二○一二年五月十八日Geometric Design of HighwaysThe road is one kind of linear construction used for travel. It is made of the roadbed, the road surface, the bridge, the culvert and the tunnel. In addition, it also has the crossing of lines, the protective project and the traffic engineering and the route facility.The roadbed is the base of road surface, road shoulder, side slope, side ditch foundations. It is stone material structure, which is designed according to route's plane position .The roadbed, as the base of travel, must guarantee that it has the enough intensity and the stability that can prevent the water and other natural disaster from corroding.The road surface is the surface of road. It is single or complex structure built with mixture. The road surface require being smooth, having enough intensity, good stability and anti-slippery function. The quality of road surface directly affects the safe, comfort and the traffic.Highway geometry designs to consider Highway Horizontal Alignment, Vertical Alignment two kinds of linear and cross-sectional composition of coordination, but also pay attention to the smooth flow of the line of sight, etc. Determine the road geometry, consider the topography, surface features, rational use of land and environmental protection factors, to make full use of the highway geometric components of reasonable size and the linear combination.DesignThe alignment of a road is shown on the plane view and is a series of straight lines called tangents connected by circular. In modern practice it is common to interpose transition or spiral curves between tangents and circular curves.Alignment must be consistent. Sudden changes from flat to sharp curves and long tangents followed by sharp curves must be avoided; otherwise, accident hazards will be created. Likewise, placing circular curves of different radii end to end compound curves or having a short tangent between two curves is poor practice unless suitable transitions between them are provided. Long, flat curves are preferable at all times, as they are pleasing in appearance and decrease possibility of future obsolescence. However, alignment without tangents is undesirable on two-lane roads because some drivers hesitate to pass on curves. Long, flat curves should be used for small changes in direction, as short curves appear as “kink”. Also horizontal and vertical alignment must be considered together, not separately. For example, a sharp horizontal curve beginning near a crest can create a serious accident hazard.A vehicle traveling in a curved path is subject to centrifugal force. This is balanced by an equal and opposite force developed through cannot exceed certain maximums, and these controls place limits on the sharpness of curves that can be used with a design speed. Usually the sharpness of a given circular curve is indicated by its radius. However, for alignment design, sharpness is commonly expressed in terms of degree of curve, which is the central angle subtended by a 100-ft length of curve. Degree of curve is inversely proportional to the radius.Tangent sections of highways carry normal cross slope; curved sections are super elevated. Provision must be made for gradual change from one to the other. This usually involves maintaining the center line of each individual roadway at profile grade while raising the outer edge and lowering the inner edge to produce the desired super elevation is attained some distance beyond the point of curve.If a vehicle travels at high speed on a carefully restricted path made up of tangents connected by sharp circular curve, riding is extremely uncomfortable. As the car approaches a curve, super elevation begins and the vehicle is tilted inward, but the passenger must remain vertical since there is on centrifugal force requiring compensation. When the vehicle reaches the curve, full centrifugal force develops at once, and pulls the rider outward from his vertical position. To achieve a position of equilibrium he must force his body far inward. As the remaining super elevation takes effect, further adjustment in position is required. This process is repeated in reverse order as the vehicle leaves the curve. When easement curves are introduced, the change in radius from infinity on the tangent to that of the circular curve is effected gradually so that centrifugal force also develops gradually. By careful application of super elevation along the spiral, a smooth and gradual application of centrifugal force can be had and the roughness avoided.Easement curves have been used by the railroads for many years, but their adoption by highway agencies has come only recently. This is understandable. Railroad trains must follow the precise alignment of the tracks, and the discomfort described here can be avoided only by adopting easement curves. On the other hand, the motor-vehicle operator is free to alter his lateral position on the road and can provide his own easement curves by steering into circular curves gradually. However, this weaving within a traffic lane but sometimes into other lanes is dangerous. Properly designed easement curves make weaving unnecessary. It is largely for safety reasons, then, that easement curves have been widely adopted by highway agencies.For the same radius circular curve, the addition of easement curves at the ends changes the location of the curve with relationto its tangents; hence the decision regarding their use should be made before the final location survey. They point of beginning of an ordinary circular curve is usually labeled the PC point of curve or BC beginning of curve. Its end is marked the PT point of tangent or EC end of curve. For curves that include easements, the common notation is, as stationing increases: TS tangent to spiral, SC spiral to circular curve, CS circular curve to spiral, and ST spiral go tangent.On two-lane pavements provision of a wilder roadway is advisable on sharp curves. This will allow for such factors as 1 the tendency for drivers to shy away from the pavement edge, 2 increased effective transverse vehicle width because the front and rear wheels do not track, and 3 added width because of the slanted position of the front of the vehicle to the roadway centerline. For 24-ft roadways, the added width is so small that it can be neglected. Only for 30mph design speeds and curves sharper than 22°does the added width reach 2 ft. For narrower pavements, however, widening assumes importance even on fairly flat curves. Recommended amounts of and procedures for curve widening are given in Geometric Design for Highways.2. GradesThe vertical alignment of the roadway and its effect on the safe and economical operation of the motor vehicle constitute one of the most important features of road design. The vertical alignment, which consists of a series of straight lines connected by vertical parabolic or circular curves, is known as the “grade line.” When the grade line is increasing from the horizontal it is known as a “plus grade,” and when it is decreasing from the horizontal it is known as a “minus grade.” In analyzing grade and grade controls, the designer usually studies the effect of change in grade on the centerline profile.In the establishment of a grade, an ideal situation is one inwhich the cut is balanced against the fill without a great deal of borrow or an excess of cut to be wasted. All hauls should be downhill if possible and not too long. The grade should follow the general terrain and rise and fall in the direction of the existing drainage. In mountainous country the grade may be set to balance excavation against embankment as a clue toward least overall cost. In flat or prairie country it will be approximately parallel to the ground surface but sufficiently above it to allow surface drainage and, where necessary, to permit the wind to clear drifting snow. Where the road approaches or follows along streams, the height of the grade line may be dictated by the expected level of flood water. Under all conditions, smooth, flowing grade lines are preferable to choppy ones of many short straight sections connected with short vertical curves.Changes of grade from plus to minus should be placed in cuts, and changes from a minus grade to a plus grade should be placed in fills. This will generally give a good design, and many times it will avoid the appearance of building hills and producing depressions contrary to the general existing contours of the land. Other considerations for determining the grade line may be of more importance than the balancing of cuts and fills.Urban projects usually require a more detailed study of the controls and finer adjustment of elevations than do rural projects. It is often best to adjust the grade to meet existing conditions because of the additional expense of doing otherwise.In the analysis of grade and grade control, one of the most important considerations is the effect of grades on the operating costs of the motor vehicle. An increase in gasoline consumption and a reduction in speed are apparent when grades are increase in gasoline consumption and a reduction in speed is apparent when grades are increased. An economical approach would be to balancethe added annual cost of grade reduction against the added annual cost of vehicle operation without grade reduction. An accurate solution to the problem depends on the knowledge of traffic volume and type, which can be obtained only by means of a traffic survey.While maximum grades vary a great deal in various states, AASHTO recommendations make maximum grades dependent on design speed and topography. Present practice limits grades to 5 percent of a design speed of 70 mph. For a design speed of 30 mph, maximum grades typically range from 7 to 12 percent, depending on topography. Wherever long sustained grades are used, the designer should not substantially exceed the critical length of grade without the provision of climbing lanes for slow-moving vehicles. Critical grade lengths vary from 1700 ft for a 3 percent grade to 500 ft for an 8 percent grade.Long sustained grades should be less than the maximum grade on any particular section of a highway. It is often preferred to break the long sustained uniform grade by placing steeper grades at the bottom and lightening the grade near the top of the ascent. Dips in the profile grade in which vehicles may be hidden from view should also be avoided. Maximum grade for highway is 9 percent. Standards setting minimum grades are of importance only when surface drainage is a problem as when water must be carried away in a gutter or roadside ditch. In such instances the AASHTO suggests a minimum of %.3. Sight DistanceFor safe vehicle operation, highway must be designed to give drivers a sufficient distance or clear version ahead so that they can avoid unexpected obstacles and can pass slower vehicles without danger. Sight distance is the length of highway visible ahead to the driver of a vehicle. The concept of safe sight distance has two facets: “stopping” or “no passing” and “passing”.At times large objects may drop into a roadway and will do seriousdamage to a motor vehicle that strikes them. Again a car or truck may be forced to stop in the traffic lane in the path of following vehicles. In dither instance, proper design requires that such hazards become visible at distances great enough that drivers can stop before hitting them. Further more, it is unsafe to assume that one oncoming vehicle may avoid trouble by leaving the lane in which it is traveling, for this might result in loss of control or collision with another vehicle.Stopping sight distance is made up of two elements. The first is the distance traveled after the obstruction comes into view but before the driver applies his brakes. During this period of perception and reaction, the vehicle travels at its initial velocity. The second distance is consumed while the driver brakes the vehicle to a stop. The first of these two distances is dependent on the speed of the vehicle and the perception time and brake-reaction time of the operator. The second distance depends on the speed of the vehicle; the condition of brakes, times, and roadway surface; and the alignment and grade of the highway.On two-lane highways, opportunity to pass slow-moving vehicles must be provided at intervals. Otherwise capacity decreases and accidents increase as impatient drivers risk head-on collisions by passing when it is unsafe to do so. The minimum distance ahead that must be clear to permit safe passing is called the passing sight distance. In deciding whether or not to pass another vehicle, the driver must weigh the clear distance available to him against the distance required to carry out the sequence of events that make up the passing maneuver. Among the factors that will influence his decision are the degree of caution that he exercises and the accelerating ability of his vehicle. Because humans differ markedly, passing practices, which depend largely on human judgment and behavior rather than on the laws of mechanics, vary considerablyamong drivers.The geometric design is to ensure highway traffic safety foundation, the highway construction projects around the other highway on geometric design, therefore, in the geometry of the highway design process, if appear any unsafe potential factors, or low levels of combination of design, will affect the whole highway geometric design quality, and the safety of the traffic to bring adverse impact. So, on the geometry of the highway design must be focus on.公路几何设计公路是供汽车或其他车辆行驶的一种线形带状结构体.它是由路基、路面、桥梁、涵洞和隧道组成.此外,它还有路线交叉、工程和交通工程及沿线设施.路基是路面、路肩、边坡、等部分的基础.它是按照路线的平面位置在地面上开挖和成的土物.路基作为行车部分的基础,必须保证它有足够的强度和稳定性,可以防止水及其他自然灾害的侵蚀.路面是公路表面的部分.它是用混合料铺筑的单层或多层结构物.路面要求光滑,具有足够的强度,稳定性好和抗湿滑功能.路面质量的好环,直接影响到行车的安全性、舒适性和通行.公路几何线形设计要考虑公路平面线形、纵断面线形两种线形以及横断面的组成相协调,还要注意视距的畅通等等.确定公路几何线形时,在考虑地形、地物、土地的合理利用及环境保护因素时,要充分利用公路几何组成部分的合理尺寸和线形组合.1、线形设计道路的线形反映在平面图上是由一系列的直线和与直线相连的圆曲线构成的.现代设计时常在直线与圆曲线之间插入缓和曲线.线形应是连续的,应避免平缓线形到小半径曲线的突变或者长直线末端与小半径曲线相连接的突然变化,否则会发生交通事故.同样,不同半径的圆弧首尾相接曲线或在两半径不同的圆弧之间插入短直线都是不良的线形,除非在圆弧之间插入缓和曲线.长而平缓的曲线在任何时候都是可取的,因为这种曲线线形优美,将来也不会废弃.然而,双向道路线形全由曲线构成也是不理想的,因为一些驾驶员通过曲线路段时总是犹豫.长而缓的曲线应用在拐角较小的地方.如果采用短曲线,则会出现“扭结”.另外,线路的平、纵断面设计应综合考虑,而不应只顾其一,不顾其二,例如,当平曲线的起点位于竖曲线的顶点附近时将会产生严重的交通事故.行驶在曲线路段上的车辆受到离心力的作用,就需要一个大小相同方向相反的由超高和侧向磨擦提供的力抵消它,这些控制值对于某一规定设计车速可能采用曲线的曲率作了限制.通常情况下,某一圆曲线的曲率是由其半径来体现的.而对于线形设计而言,曲率常常通过曲线的程度来描述,即100英尺长的曲线所对应的中心角,曲线的程度与曲线的半径成反比.公路的直线地段设置正常的路拱,而曲线地段则设置超高,在正常断面与超高断面之间必须设置过渡渐变路段.通常的做法是维持道路每一条中线设计标高不变,通过抬高外侧边缘,降低内侧边缘以形成所需的超高,对于直线与圆曲线直接相连的线形,超高应从未到达曲线之前的直线上开始,在曲线顶点另一端一定距离以外达到全部超高.如果车辆以高速度行驶在直线与小半径的圆曲线相连的路段,行车是极不舒服.汽车驶近曲线路段时,超高开始,车辆向内侧倾斜,但乘客须维持身体的垂直状态,因为此时未受到离心力的作用.当汽车到达曲线路段时,离心力突然产生,迫使乘客向外倾斜,为了维持平衡,乘客必须迫使自己的身体向内侧倾斜.由于剩余超高发挥作用,乘客须作进一步的姿势的调整.当汽车离开曲线时,上述过程刚好相反.插入缓和曲线后,半径从无穷大逐渐过渡到圆曲线上的某一固定值,离心力逐渐增大,沿缓和曲线心设置超高,离心力平稳逐渐增加,避免了行车颠簸.缓和曲线在铁路上已经使用多年,但在公路上最近才得以应用,这是可以理解的.火车必须遵循精确的运行轨道,采用缓和曲线后,上述那种不舒服的感觉才能消除.然而,汽车司机在公路上可以随意改变侧向位置,通过迂回进入圆曲线来为自己提供缓和曲线.但是在一个车道上有时在其他车道上做这种迂回行驶是非常危险的.设计合理的缓和曲线使得上述迂回没有必要.主要是出于安全原因,公路部门广泛采用了缓和曲线.对于半径相同的圆曲线来说,在未端加上缓和曲线就会改变曲线与直线的相关位置,因此应在最终定线勘测之前应决定是否采用缓和曲线.一般曲线的起点标为PC或BC,终点标为PT或EC.对含有缓和曲线的曲线,通常的标记配置增为：TC、SC、CS和ST.对于双向道路,急弯处应增加路面宽度,这主要基于以下因素：1驾驶员害怕驶出路面边缘；2由于车辆前轮和后轮的行驶轨迹不同,车辆有效横向宽度加大；3车辆前方相对于公路中线倾斜而增加的宽度.对于宽度为24英尺的道路,增加的宽度很小,可以忽略.只有当设计车速为30mile/h,且曲度大于22℃时,加宽可达2英尺.然而,对于较窄的路面,即使是在较平缓的曲线路段上,加宽也是很重要推荐加宽值及加宽设计见公路线形设计2、纵坡线公路的竖向线形及其对车辆运行的安全性和经济性的影响构成了公路设计中最重要的要素之一.竖向线形由直线和竖向抛物线或圆曲线组成,称为纵坡线.纵坡线从水平线逐渐上升时称为坡度变化的影响.在确定坡度时最理想的情况是挖方与填方平衡,没有大量的借方或弃方.所有运土都尽可能下坡运并且距离不长,坡度应随地形而变,并且与既有排水系统的升、降方向一致.在山区,坡度要使得挖填平衡以使总成本最低.在平原或草原地区,坡度与地表近似平行,介是高于地表足够的高度,以利于路面排水,苦有必要,可利用风力来清除表面积雪.如公路接近或沿河流走行,纵坡线的高度由预期洪水位来决定.无论在何种情况下,平缓连续的坡度线要比由短直线段连接短竖曲线构成的不断变向的坡度线好得多.由上坡向下坡变化的路段应设在挖方路段,而由下坡向上坡变化的路段应设在填方路段,这样的线形设计较好,往往可以避免形成与现状地貌相反的圭堆或是凹地.与挖填方平衡相比,在确定纵坡线时,其他考虑则重要得多.城市项目通常比农村项目要求对控制要素进行更详尽的研究,对高程进行更细致地调整.一般来说,设计与现有条件相符的坡度较好,这样可避免一些不必要的花费.在坡度的分析和控制中,坡度对机动车运行费用的影响是最重要的考虑因素之一.坡度增大油耗显然增大,车速就要减慢.一个较为经济的方案则可使坡度减小而增加的年度成本与坡度不减而增加的车辆运行年度成本之间相平衡.这个问题的准确方法取决于对交通流量和交通类型的了解,这只有通过交通调查才能获知.在不同的州,最大纵坡也相差悬殊,AASHTO标准建议由设计车速和地形来选择最大纵坡.现行设计以设计车速为70mile/h时最大纵坡为5%,设计车速30mile/h时,根据地形不同,最大纵坡一般为7％－12％.当采用较长的待续爬坡时,在没有为慢行车辆提供爬坡道时,坡长不能够超过临界坡长.临界坡长可从3％纵坡的1700英尺变化至8%纵坡的500英尺.持续长坡的坡度必须小于公路任何一个断面的最大坡度,通常将长的持续单一纵坡断开,设计成底部为一陡坡,而接近坡顶则让坡度减小.同时还要避免由于断面倾斜而造成的视野受阻.调整公路的最大纵坡为9%只有当路面排水成问题时,如水必须排至边沟或排水沟,最小坡度标准才显示其重要性.这种情况下,AASHTO标准建议最小坡度为%.3、视距为保证行车安全,公路设计必须使得驾驶员视线前方有足够的一段距离,使他们能够避让意外的障碍物,或者安全地超车.视距就是车辆驾驶员前方可见的公路长度.安全视距具有两方面含义：“停车视距”或“不超车视距”或“超车视距”.有时,大件物体也许会掉到路上,会对撞上去的车辆造成严重的危害.同样,轿车或卡车也可能会被一溜车辆阻在车道上.无论是哪种情况发生,合理设计要求驾驶员在一段距离以外就能看见这种险情,并在撞上去之前把车刹住.此外,认为车辆通过离开所行驶的车道就可以躲避危险的想法是不安全的,因为这会导致车辆失控或与另一辆车相撞.停车视距由两部分组成：第一部分是当驾驶员发现障碍物面作出制动之前驶过的一段距离,在这一察觉与反应阶段,车辆以其初始速度行驶；第二部分是驾驶员刹车后车辆所驶过的一段距离.第一部分停车视距取决于车速及驾驶员的察觉时间和制动时间.第二部分停车视距取决于车速、刹车、轮胎、路面的条件以及公路的线形的坡度.在双车道公路上,每间隔一定距离,就应该提供超越慢行车辆的机会.否则,公路容量将降低,事故将增多,因为急燥的驾驶员在不能安全超车时冒着撞车危险强行超车,能被看清的允许安全超车的前方最小距离叫做超车视距.驾驶员在做出是否超车的决定时,必须将前方的能见距离与完成超车动作所需的距离对比考虑.影响他做出决定的因素是开车的小心程度和车辆加速性能.由于人与人的显着差别,主要是人的判断和动作而不是力学定理决定的超车行为随着驾驶员的不同而大不相同.公路是确保交通安全的基础,建设的其他项目都围绕的而展开,因此,在的过程中,如果出现任意的不安全潜在因素,或者低水平的组合,都会影响到整个的质量,并对交通的安全带来不利影响.因此对于的必须予以重点关注.。

Alchemy - The Transformative Power of Love炼金术——爱的转换力大指导灵齐瑞尔由卡胡传导原文：/content/view/620/38/翻译：凭什么阻止我KIRAEL:In the last few sessions, I have focused on love in the context of ascension, prana, pineal and photon, and now alchemy. It may seem repetitious, but I want to emphasize just how important the healing power of love is and how love can be woven into every aspect of your life. It’s the one source of energy that will get you through the Shift.齐瑞尔：在过去几个会议里，我都集中讲爱在提升、气呼吸、松果体和光子的内容，今天讲的是炼金术。

这似乎是重复的，但我要强调爱的治疗力量非常重要，爱如何可以被编织进你生活的每一方面。

它是使你通过大蜕变的能量的一个来源。

See and Hold the Gold看见和保持金色So today we concentrate on alchemy, which the populace has always thought of as the transformation of a base metal into gold. The alchemy I’m talking about today is spiritual and involves the transformative power of love, the alchemy that occurs in your four-bodied system every time love is introduced into the mix. In the alchemical process, fear is pulled out of the love so that you’re left with the purity of love.You ask, “Master Kirael, how can love have fear in it?”Well, the third dimension is all about duality, which means that love must have an opposite. Here, love is woven with fear, because you believe yo u can’t know love unless you know fear. It is this fear that makes third-dimensional love conditional. Alchemized love is pure and unconditional, a love without fear.那么，今天我们集中谈论炼金术，民众一直把它视为一种贱金属到黄金的转化。

保护渣专用词汇英中对照连铸（continuous casting）钢种（steel grade)浇铸断面(casting format)拉速（casting speed)润滑(lubrication)传热（heat transfer）菜籽油(rape seed oil)热流(heat flow)浸入式水口（SEN-submerged entry nozzle）坯壳（steel sheel）保护渣渣膜（slag film）粉煤灰（fly ash)石灰石（limestone）苏打灰（soda ash）萤石(fluorite）硅酸盐(silicate）矿物质（mineral)合成渣(synthetic powder)熔点（melt point)成分(composition）性能(performance）炭黑(carbon black）微合金钢（microalloy steel)不锈钢（stainless steel）渣耗（powder consumption）粘结漏钢（sticker breakout)表面质量（surface quality)摩擦力(friction force）黏度（viscosity）熔化速度（melting rate）凝固系数(solidification coefficient）薄板坯（thin slab )异型坯(beam blank近终形连铸(near net shape continuous casting）石墨（black lead）焦炭(coke)硅灰石（CaO·SiO2）碱度(basicity）粉渣（granulated powder)实心颗粒渣（sincere granuled powder）预熔型保护渣(prefused powder)低碳铝镇静钢(LCAK-low carbon Alumina killed steel）针孔（pinhole)高碳钢(high carbon steel)弯月面（meniscus)振痕(oscillation mark）熔化温度（melting temperature)相图（phase diagram）伪硅灰石（wollastonite,又名tabular spar) 磷(phosphorus）硫（sulfur）助熔剂（fluxing agent)结晶（crystallizing)枪晶石(Cuspidine）钙黄长石（Akermanite）离子（ion）CaO（calcium oxide)氧化物夹杂物（oxide inclusion）玻璃性（vitrecence)CaF２(fluorite）枪晶石(3CaO。