文献综述及有关表格模板

文献综述整理excel
在整理文献综述时，可以使用Excel表格来帮助组织和展示信息。

以下是一个简单的Excel表格示例，可用于整理文献综述：
你可以根据自己的需要，增加或减少列，并根据文献综述的内容填写表格。

以下是一些建议：
1.序号：按照文献发表时间或重要性的顺序进行编号。

2.作者姓名：填写文献的作者姓名。

3.论文标题：填写文献的标题。

4.发表年份：填写文献的发表年份。

5.期刊/出版社：填写文献发表的期刊或出版社。

6.关键词：填写文献的关键词。

7.主要观点/结论：简明扼要地总结文献的主要观点或结论。

通过Excel表格整理文献综述，可以方便地查看、比较和总结不同文献的信息，有助于你更全面地了解研究领域和发现研究空白。

同时，还可以方便地筛选和引用文献，提高文献综述的质量和效率。

级学院：专业：班级：学生姓名：学号：完成日期：年月说明第一部分题目（2号黑体）第二部分摘要（小4号仿宋体）第三部分关键词（小4号仿宋体）第四部分正文（小4号仿宋体）第五部分参考文献（小4号仿宋体，参考文献编排格式参见《南京财经大学本科毕业论文（设计）规范化要求》）使用A4纸打印，页边距使用word默认值，行间距固定值24磅。

范例页（请使用正式文稿替换此页）：题目摘要：×××××关键词：×××××正文：××××××××××××××××××××××××××××××××××××××××××××××××××××××××××××××××××××。

参考文献：[1] 刘国钧，陈绍业，王凤翥.图书馆目录［M］.北京：高等教育出版社，1957.15-18.[2] 辛希孟.信息技术与信息服务国际研讨会论文集：A集［C］.北京：中国社会科学出版社，1994.[3] 张筑生.微分半动力系统的不变集［D］.北京：北京大学数学系数学研究所，1983.[4] 冯西桥.核反应堆压力管道与压力容器的LBB分析［R］.北京：清华大学核能技术设计研究院，1997.- 1 -。

贵阳学院外语系本科毕业论文文献综述
论文题目（英文）：
论文题目（中文）：
学生姓名：
指导教师姓名：
学号：
班级： 20 级班
填表说明
1．在撰写开提报告前完成文献综合。

2．文献综述必须获得指导教师的认可后，方可开始撰写开题报告。

指导教师在本表最后一栏概述学生文献综述的相关情况，和毕业论文前期准备情况，并填写确认性意见（黑色水性笔，手写，字迹清晰可辨）。

3. 拟选题目（中文）不得超过二十个字；参考文献格式参见《贵阳学院外语系论文写作规范》；一级标题左起顶格（如“1.”）。

二级标题，左起缩进二个字符（如“1.1”）。

三级标题，左起缩进四个字符（如“1.1.1”）。

论文标题设置不得超过三级标题。

4．填写规范：一级标题（黑体小三号字）；二级标题（黑体小四号字）；三级标题（宋体小四号字）。

每段首行应缩进4个字符即两个中文字的距离。

5. 本表可以纵向延展，但不得更改本表的格式和设置。

6. 本表用电子表格填写，或手写（黑色水性笔，字迹清晰可辨）。

85569966湖州师范学院求真学院————————————————信息系毕业设计（论文）附属过程管理材料（2009届）专业电子信息工程学号********学生姓名宗磊湖州师范学院求真学院教务部印制目录1. 湖州师范学院求真学院本科毕业设计（论文）选题审批表2. 湖州师范学院求真学院本科毕业设计（论文）任务书3. 外文原稿(复印件)与译文4. 文献综述（前言、主题、总结、参考文献）5. 湖州师范学院求真学院本科毕业设计（论文）开题报告6. 湖州师范学院求真学院本科毕业设计（论文）中期检查报告7. 湖州师范学院求真学院本科毕业设计（论文）指导教师审阅表8. 湖州师范学院求真学院本科毕业设计（论文）评阅人评阅表9. 毕业设计(论文)硬件验收评分表10. 湖州师范学院求真学院本科毕业设计（论文）答辩记录表11. 湖州师范学院求真学院本科毕业设计(论文) 答辩评分表12. 湖州师范学院求真学院本科毕业设计(论文)评分表13. 校级优秀毕业设计(论文)推荐表湖州师范学院求真学院本科毕业设计（论文）选题审批表湖州师范学院求真学院毕业设计（论文）任务书指导教师（签名）学生（签名）开始执行任务日期毕业设计（论文）——外文翻译（原文）History and Properties of Liquid CrystalsAn Entirely New Phase of MatterIn 1888, the Austrian chemist Friedrich Reinitzer, working in the Institute of Plant Physiology at the University of Prague, discovered a strange phenomenon. Reinitzer was conducting experiments on a cholesterol based substance trying to figure out the correct formula and molecular weight of cholesterol. When he tried to precisely determine the melting point, which is an important indicator of the purity of a substance, he was struck by the fact that this substance seemed to have two melting points. At 145.5°C the solid crystal melted into a cloudy liquid which existed until 178.5°C where the cloudiness suddenly disappeared, giving way to a clear transparent liquid. At first Reinitzer thought that this might be a sign of impurities in the material, but further purification did not bring any changes to this behavior.Puzzled by his discovery, Reinitzer turned for help to the German physicist Otto Lehmann, who was an expert in crystal optics. Lehmann became convinced that the cloudy liquid had a unique kind of order. In contrast, the transparent liquid at higher temperature had the characteristic disordered state of all common liquids. Eventually he realized that the cloudy liquid was a new state of matter and coined the name "liquid crystal," illustrating that it was something between a liquid and a solid, sharing important properties of both. In a normal liquid the properties are isotropic, i.e. the same in all directions. In a liquid crystal they are not; they strongly depend on direction even if the substance itself is fluid.This new idea was challenged by the scientific community, and some scientists claimed that the newly-discovered state probably was just a mixture of solid and liquid components. But between 1910 and 1930 conclusive experiments and early theories supported the liquid crystal concept at the same time that new types of liquid crystalline states of order were discovered.At the early time of Reinitzer and Lehmann, scientists only knew three states of matter. The general idea was that all matter normally had one melting point, where it turns from solid to liquid, and a boiling point where it turns from liquid to gas. Water is a good example of this view. It melts at 0°C and it boils and becomes steam, which is water in its gaseous form, at 100°C.Today, thanks to Reinitzer, Lehmann and their followers, we know that literally thousands of substances have a diversity of other states. Some of them have been found very usable in several technical innovations, among which liquid crystal screens and liquid crystal thermometers may be the best known.In the 1960s, a French theoretical physicist, Pierre-Gilles de Gennes, who had been working with magnetism and superconductivity, turned his interest to liquid crystals and soon found fascinating analogies between liquid crystals and superconductors as well as magnetic materials. His work was rewarded with the Nobel Prize in Physics 1991. The modern development of liquid crystal science has since been deeply influenced by the work of Pierre-Gilles de Gennes.What is so Special about Liquid Crystals?Liquid crystals are partly ordered materials, somewhere between their solid and liquid phases. Their molecules are often shaped like rods or plates or some other forms that encourage them to align collectively along a certain direction. The order of liquid crystals can be manipulated with mechanical, magnetic or electric forces. Finally, liquid crystals are temperature sensitive since they turn into solid if it is too cold, and into liquid if it is too hot. This phenomenon can, for instance, be observed on laptop screens when it is very hot or very cold.How Do Liquid Crystal Displays W ork?To understand how a liquid crystal screen works, you must first understand the concept of light polarization. Light is made out of particles called photons. These photons travel at the speed of light. While moving, a photon vibrates in a plane which is perpendicular to its direction, but within this plane the vibration direction is random for normal (non-polarized) light.Some processes affect the direction of vibration. For instance, if sunlight is reflected off the surface of a road, or the surface of the open sea, the reflected light contains more vibrations parallel to this surface than perpendicular to it. The light has been polarized, in this case only partly. Some materials however, like the plastic used in polarizing sunglasses, may absorb almost all vibration components along a certain direction and only let through vibrations along the perpendicular direction. In normal sunglasses the admitted vibration direction is vertical. This is why polarizing sunglasses can be used to remove the glare of reflected light from the surface of a road, or the surface of the open sea.To polarize light you can use such a polarization filter as found in sunglasses. Two such polarization filters, placed after each other along the light with their admitting direction perpendicular to each other will not let any light through.So what has this to do with liquid crystal displays? Well, the conventional liquid crystal display basically consists of such a package of two crossed polarizers with a liquid crystal in between. If the molecules lie perpendicular to the plane of the polarizers, i.e. along the direction of the light ray, they have no influence on the state of polarization. Thus, the package of crossed polarizers lets no light through. The cell appears black. On the other hand, if the molecules are arranged to lie parallel to the plane of the polarizers, i.e. in the plane in which the light vibrates, the presence of the liquid crystal will strongly affect the state of polarization.In the so-called twisted nematic (or TN) display, the molecules are arranged in this way. More specifically, the glass surfaces are treated such that the molecular direction is parallel to the admitting direction of each neighboring polarizer. Because these directions are crossed, the molecular direction is confined to a 90° twist from one side of the cell to the other (see figure). In this case, what happens is that the light vibration follows this twist from one polarizer to the other, so that all light in fact passes the cell, without being absorbed, in spite of the fact that the polarizers are crossed. Hence, the cell appears bright.As mentioned earlier, liquid crystals are sensitive to electric forces. If you apply an electric field that is strong enough across a liquid crystal of the right kind, its molecules arrange themselves parallel to the electric field. So now, by applying a voltage across the liquid crystal cell, i.e. along the light direction, you destroy the twist and instead force the molecules into the direction in which they do not affect the polarization state of the light. All light is now absorbed by the crossed polarizers and the cell appears black when the electric field is turned on.By creating a matrix of squares that locally control the state of the twist in their respective area you get a liquid crystal display containing a large number of individual picture elements (pixels).毕业设计（论文）——外文翻译（译文）液晶的历史和性能一种全新阶段的物质在1888年，布拉格大学植物生理学研究所中工作的奥地利化学家弗里德里希²莱尼泽发现了一个奇怪的现象。

文献综述写法及模板（修订）◆关于文献综述的写法：文献综述是对某一学科某一方面的专题搜集大量情报资料后经综合分析而写成的一种学术论文，它是科学文献的一种。

文献综述是反映当前某一领域中某分支学科或重要专题的最新进展、学术见解和建议的，它往往能反映出有关问题的新动态、新趋势、新水平、新原理和新技术等等。

一、写文献综述的目的1. 通过搜集文献资料过程，可进一步熟悉文献的查找方法和资料的积累方法；在查找资料过程的同时也扩大了知识面；2. 查找文献资料、写文献综述是毕业论文选题及进行研究的第一步，因此学习文献综述的撰写过程也是为今后科研活动打基础的过程；3. 通过文献综述的写作过程，能提高归纳、分析、综合问题的能力，有利于独立工作能力和科研能力的提高。

二、文献综述的特点文献综述与读书报告、文献复习、研究进展等有相似的地方，它们都是从某一方面的专题研究论文或报告中归纳出来的。

但是，文献综述既不像“读书报告”、“文献复习”那样，单纯把一级文献客观地归纳报告，也不像“研究进展”那样只讲研究进程，其特点就是“综”和“述”。

“综”是要求对文献资料进行综合分析、归纳整理，使材料更精练明确、更有逻辑层次；“述”是要求对综合整理后的文献进行比较专门的、全面的、深入的、系统的论述。

总之，文献综述是作者对某一方面问题的历史背景，前人工作，争论焦点、热点、难点，研究现状及发展前景等内容进行评论的科学性论文。

三、如何搜集阅读文献写文献综述一般要经过以下几个阶段：选题，搜集阅读文献资料，拟定提纲（包括归纳、整理、分析）和成文，这里着重介绍一下如何搜集阅读文献。

选定题目后，要围绕题目进行搜集与文题有关的文献。

关于搜集文献的有关方法很多，主要依选题而定，如看专着、年鉴法、浏览法、滚雪球法、检索法等等。

一般而言，搜集文献要求越全越好，因而最常用的方法是检索法。

搜集好与文题有关的参考文献后，就要对这些参考文献进行阅读、归纳、整理，如何从这些文献中选出具有代表性、科学性和可靠性大的单篇研究文献十分重要，从某种意义上讲，所阅读和选择的文献的质量高低，直接影响文献综述的水平。

中国计量学院毕业设计（论文）文献综述学生姓名： xxxxxx 学 号： xxxxxxxxxx 专 业： 产品质量工程 班级： xx 质量x 班 设计（论文）题目：田口方法在注塑工艺参数优化中的应用研究 指导教师： XXXXXXX二级学院： 质量与安全工程学院2012年3月 10日田口方法在注塑工艺参数优化中的应用研究xxx（中国计量学院 质量与安全工程学院，浙江 杭州 310018）摘要：本文介绍了注塑机的工作原理、注塑机的组成结构，分析了注塑工艺参数，在此基础上综述了田口方法对注塑工艺参数的优化方法，具体为：针对翘曲量变形这一质量特性，首先按正交实验表安排实验顺序，采用级差分析和方差分析相结合的方法对正交试验结果进行分析，最后获得最优的工艺参数组合，结果表明，将Taguchi 正交试验方法运用到注塑机的工艺参数的优化中，能取得较好的优化效果。

关键词：注塑；注塑工艺优化；田口方法0 引言随着经济全球化的发展，市场竞争日趋激烈二与时间和成本一样，质量已成为企业生存与发展的主要制胜因素。

广泛应用国内外先进的质量方法和质量技术对于企业改进产品质量、提高产品竞争力具有重要意义。

此次毕业设计主要研究在塑料制品行业，利用质量管理工具田口方法对注塑机工艺参数的优化与改进。

1 注塑机的工作原理注塑成型是利用塑料的热物理性质，把物料从料斗加入料筒中，用下，沿着螺槽向前输送并压实，物料在外加热和螺杆剪切的双重作用下逐渐地塑化，熔融和均化，当螺杆旋转时，物料在螺槽摩擦力及剪切力的作用下，把已熔融的物料推到螺杆的头部，与此同时，螺杆在物料的反作用下后退，使螺杆头部形成储料空间，完成塑化过程，然后，螺杆在注射油缸的活塞推力的作用下，以高速、高压，将储料室内的熔融料通过喷嘴注射到模具的型腔中，模具在合模机构的作用下，开启模具，并通过顶出装置把定型好的制品从模具顶出落下。

注塑机作业循环流程如图1所示。

2 注塑机的组成结构分析注塑机根据注射成型工艺要求是一个机电一体化很强的机种，主要由注射部件、合。