vaccum期刊投稿

vaccum期刊投稿

这些都是检索系统，一个收录很多论文的数据库。 SCI主要偏重理论性研究。 SSCI是社会科学期刊数据库。 EI偏工程应用。 CSCD和核心期刊都是中国的数据库。 ISTP是会议论文数据库，以上都是期刊论文。

Receiver (radio)A radio receiver is an electronic circuit that receives its input from an antenna, uses electronic filters to separate a wanted radio signal from all other signals picked up by this antenna, amplifies it to a level suitable for further processing, and finally converts through demodulation and decoding the signal into a form usable for the consumer, such as sound, pictures, digital data, measurement values, navigational positions, etc.In consumer electronics, the terms radio and radio receiver are often used specifically for receivers designed for the sound signals transmitted by radio broadcasting services – historically the first mass-market radio application.Various types of radio receivers may include:Consumer audio and high fidelity audio receivers and AV receivers used by home stereo listeners and audio and home theatre system enthusiasts. Communications receivers, used as a component of a radio communication link, characterized by high stability and reliability of performance. Simple crystal radio receivers (also known as a crystal set) which operate using the power received from radio waves. Satellite television receivers, used to receive television programming from communication satellites in geosynchronous orbit. Specialized-use receivers such as telemetry receivers that allow the remote measurement and reporting of information. Measuring receivers (also: measurement receivers) are calibrated laboratory-grade devices that are used to measure the signal strength of broadcasting stations, the electromagnetic interference radiation emitted by electrical products, as well as to calibrate RF attenuators and signal generators. Scanners are specialized receivers that can automatically scan two or more discrete frequencies, stopping when they find a signal on one of them and then continuing to scan other frequencies when the initial transmission ceases. They are mainly used for monitoring VHF and UHF radio systems. In the context of home audio systems, the term "receiver" often refers to a combination of a tuner, a preamplifier, and a power amplifier all on the same chassis. Audiophiles will refer to such a device as an integrated receiver, while a single chassis that implements only one of the three component functions is called a discrete component. Some audio purists still prefer three discreet units - tuner, preamplifier and power amplifier - but the integrated receiver has, for some years, been the mainstream choice for music listening. The first integrated stereo receiver was made by the Harman Kardon company, and came onto the market in 1958. It had undistinguished performance, but it represented a breakthrough to the "all in one" concept of a receiver, and rapidly improving designs gradually made the receiver the mainstay of the marketplace. Many radio receivers also include a loudspeaker.Hi-Fi / Home theaterToday AV receivers are a common component in a high-fidelity or home-theatre system. The receiver is generally the nerve centre of a sophisticated home-theatre system providing selectable inputs for a number of different audio components like turntables, compact-disc players and recorders, and tape decks ( like video-cassette recorders) and video components (DVD players and recorders, video-game systems, and televisions).With the decline of vinyl discs, modern receivers tend to omit inputs for turntables, which have separate requirements of their own. All other common audio/visual components can use any of the identical line-level inputs on the receiver for playback, regardless of how they are marked (the "name" on each input is mostly for the convenience of the user.) For instance, a second CD player can be plugged into an "Aux" input, and will work the same as it will in the "CD" input jacks.Some receivers can also provide signal processors to give a more realistic illusion of listening in a concert hall. Digital audio S/PDIF and USB connections are also common today. The home theater receiver, in the vocabulary of consumer electronics, comprises both the 'radio receiver' and other functions, such as control, sound processing, and power amplification. The standalone radio receiver is usually known in consumer electronics as a tuner.Some modern integrated receivers can send audio out to seven loudspeakers and an additional channel for a subwoofer and often include connections for headphones. Receivers vary greatly in price, and support stereophonic or surround sound. A high-quality receiver for dedicated audio-only listening (two channel stereo) can be relatively inexpensive; excellent ones can be purchased for $300 US or less. Because modern receivers are purely electronic devices with no moving parts unlike electromechanical devices like turntables and cassette decks, they tend to offer many years of trouble-free service. In recent years, the home theater in a box has become common, which often integrates a surround-capable receiver with a DVD player. The user simply connects it to a television, perhaps other components, and a set of loudspeakers.Portable radiosPortable radios include simple transistor radios that are typically monoaural and receive the AM, FM, and/or short wave broadcast bands. FM, and often AM, radios are sometimes included as a feature of portable DVD/CD, MP3 CD, and USB key players, as well as cassette player/recorders.AM/FM stereo car radios can be a separate dashboard mounted component or a feature of in car entertainment systems.A Boombox (or Boom-box)—also sometimes known as a Ghettoblaster or a Jambox, or (in parts of Europe) as a "radio-cassette"—is a name given to larger portable stereo systems capable of playing radio stations and recorded music, often at a high level of volume.Self-powered portable radios, such as clockwork radios are used in developing nations or as part of an emergency preparedness kit.History of radio receiversEarly developmentWhile James Clerk Maxwell was the first person to prove electromagnetic waves existed, in 1887 a German named Heinrich Hertz demonstrated these new waves by using spark gap equipment to transmit and receive radio or "Hertzian waves", as they were first called.The world’s first radio receiver (thunderstorm register) was designed by Alexander Stepanovich Popov, and it was first seen at the All-Russia exhibition in 1896. He was the first to demonstrate the practical application of electromagnetic (radio) waves,although he did not care to apply for a patent for his invention.A device called a coherer became the basis for receiving radio signals. The first person to use the device to detect radio waves was a Frenchman named Edouard Branly, and Oliver Lodge popularised it when he gave a lecture in 1898 in honour of Hertz. Lodge also made improvements to the coherer. Guglielmo Marconi believed that these new waves could be used to communicate over great distances and made significant improvements to both radio receiving and transmitting apparatus. In 1895 Marconi demonstrated the first viable radio system, leading to transatlantic radio communication in December 1901.John Ambrose Fleming's development of an early thermionic valve to help detect radio waves was based upon a discovery of Thomas Edison's (called "The Edison effect", which essentially modified an early light bulb). Fleming called it his "oscillation valve" because it acted in the same way as water valve in only allowing flow in one direction. While Fleming's valve was a great stride forward it would take some years before thermionic, or vacuum tube technology was fully adopted.Around this time work on other types of detectors started to be undertaken and it resulted in what was later known as the cat's whisker. It consisted of a crystal of a material such as galena with a small springy piece of wire brought up against it. The detector was constructed so that the wire contact could be moved to different points on the crystal, and thereby obtain the best point for rectifying the signal and the best detection. They were never very reliable as the "whisker" needed to be moved periodically to enable it to detect the signal properly.ValvesAn American named Lee de Forest, a competitor to Marconi, set about to develop receiver technology that did not infringe any patents to which Marconi had access. He took out a number of patents in the period between 1905 and 1907 covering a variety of developments that culminated in the form of the triode valve in which there was a third electrode called a grid. He called this an audion tube. One of the first areas in which valves were used was in the manufacture of telephone repeaters, and although the performance was poor, they gave significant improvement in long distance telephone receiving circuits.With the discovery that triode valves could amplify signals it was soon noticed that they would also oscillate, a fact that was exploited in generating signals. Once the triode was established as an amplifier it made a tremendous difference to radio receiver performance as it allowed the incoming signals to be amplified. One way that proved very successful was introduced in 1913 and involved the use of positive feedback in the form of a regenerative detector. This gave significant improvements in the levels of gain that could be achieved, greatly increasing selectivity, enabling this type of receiver to outperform all other types of the era. With the outbreak of the First World War, there was a great impetus to develop radio receiving technology further. An American named Irving Langmuir helped introduce a new generation of totally air-evacuated "hard" valves. H. J. Round undertook some work on this and in 1916 he produced a number of valves with the grid connection taken out of the top of the envelope away from the anode connection.Autodyne and superheterodyneBy the 1920s, the tuned radio frequency receiver (TRF) represented a major improvement in performance over what had been available before, it still fell short of the needs for some of the new applications. To enable receiver technology to meet the needs placed upon it a number of new ideas started to surface. One of these was a new form of direct conversion receiver. Here an internal or local oscillator was used to beat with the incoming signal to produce an audible signal that could be amplified by an audio amplifier.H. J. Round developed a receiver he called an autodyne in which the same valve was used as a mixer and an oscillator, Whilst the set used fewer valves it was difficult to optimise the circuit for both the mixer and oscillator functions.The next leap forward in receiver technology was a new type of receiver known as the superheterodyne, or supersonic heterodyne receiver. A Frenchman named Lucien Levy was investigating ways in which receiver selectivity could be improved and in doing this he devised a system whereby the signals were converted down to a lower frequency where the filter bandwidths could be made narrower. A further advantage was that the gain of valves was considerably greater at the lower frequencies used after the frequency conversion, and there were fewer problems with the circuits bursting into oscillation.The idea for developing a receiver with a fixed intermediate frequency amplifier and filter is credited to Edwin Armstrong. Working for the American Expeditionary Force in Europe in 1918, Armstrong thought that if the incoming signals were mixed with a variable frequency oscillator, a low frequency fix tuned amplifier could be used. Armstrong's original receiver consisted of a total of eight valves. Several tuned circuits could be cascaded to improve selectivity, and being on a fixed frequency they did not all need to be changed in line with one another. The filters could be preset and left correctly tuned. Armstrong was not the only person working on the idea of a superhet. Alexander Meissner in Germany took out a patent for the idea six months before Armstrong, but as Meissner did not prove the idea in practice and did not build a superhet radio, the idea is credited to Armstrong.The need for the increased performance of the superhet receiver was first felt in America, and by the late 1920s most sets were superhets. However in Europe the number of broadcast stations did not start to rise as rapidly until later. Even so by the mid 1930s virtually all receiving sets in Europe as well were using the superhet principle. In 1926 the tetrode valve was introduced, and enabled further improvements in performance.War and postwar developmentsIn 1939 the outbreak of war gave a new impetus to receiver development. During this time a number of classic communications receivers were designed. Some like the National HRO are still sought by enthusiasts today and although they are relatively large by today's standards, they can still give a good account of themselves under current crowded band conditions. In the late 1940s the transistor was discovered. Initially the devices were not widely used because of their expense, and the fact that valves were being made smaller, and performed better. However by the early 1960s portable transistor broadcast receivers (transistor radios) were hitting the market place. These radios were ideal for broadcast reception on the long and medium wave bands. They were much smaller than their valve equivalents, they were portable and could be powered from batteries. Although some valve portable receivers were available, batteries for these were expensive and did not last for long. The power requirements for transistor radios were very much less, resulting in batteries lasting for much longer and being considerably cheaper.SemiconductorsFurther developments in semiconductor technology led to the introduction of the integrated circuit in the late 1950s. This enabled radio receiver technology to move forward even further. Integrated circuits enabled high performance circuits to be built for less cost, and significant amounts of space could be saved.As a result of these developments new techniques could be introduced. One of these was the frequency synthesizer that was used to generate the local oscillator signal for the receiver. By using a synthesizer it was possible to generate a very accurate and stable local oscillator signal. Also the ability of synthesizers to be controlled by microprocessors meant that many new facilities could be introduced apart from the significant performance improvements offered by synthesizers.Digital technologiesReceiver technology is still moving forward. Digital signal processing where many of the functions performed by an analog intermediate frequency stage can be performed digitally by converting the signal to a digital stream that is manipulated mathematically is now widespread. The new digital audio broadcasting standard being introduced can only be used when the receiver can manipulate the signal digitally.While today's radios are miracles of modern technology, filled with low power high performance integrated circuits crammed into the smallest spaces, the basic principle of the radio is usually the superhet, the same idea which was developed by Edwin Armstrong back in 1918.

apc estimate to view and agree to the article processing charge意思是APC估计查看并同意文章处理费 。 例句 1 In addition to the initial starting and annual fee for the cards, both charge one percent processing charge for bills converted back into sterling. 此外，除了起始费和年费外，上述两种记账卡对所有兑换回英镑的账单都收取1%的手续费。 2 The Durbin amendment tucked into the Dodd-Frank act specifically excluded prepaid cards from its limits on how much banks can charge for processing debit card transactions, because they serve the low-income market. 在关于银行对借记卡交易的收费限制方面，多德?弗兰克法案》（Dodd-Frank Act）之《德斌修正案》（The Durbin Amendment）特别将预付费公司排除在外，因为它们面对的是低收入市场。 3 The vacuum refining thick metal, has the flow short, consumes, the metal returns-ratio few is high, basically does not have the three wastes ( waste residue, waste water, waste gas) does not have the pollution, the initial cost province, the processing charge low status characteristic to the environment, enables it to have the very good prospects for development. 真空精炼粗金属，具有流程短、消耗少、金属回收率较高、基本无三废（废渣、废水、废气）对环境无污染、基建投资省、加工费用较低等特点，使得它有很好的发展前景。 4 Data processing of space charge waveform recovery in pea method 脉冲电声法空间电荷测量波形恢复的数据处理 5 Computer processing on shaped charge collapsing image 聚能罩压垮图象的计算机处理

期刊投稿期刊投稿

给期刊投稿一般需要遵循以下步骤：

确定投稿期刊：首先需要确定你的研究领域和研究成果所适合的期刊，可以通过学术搜索引擎或者相关学术网站查找。

阅读期刊的投稿要求和指南：不同期刊的投稿要求和指南可能有所不同，需要仔细阅读期刊的投稿要求和指南，了解期刊的主题、范围、格式和投稿流程等。

准备投稿材料：根据期刊的要求，准备好投稿所需的材料，包括论文、摘要、图表、参考文献等。

提交投稿：将准备好的投稿材料通过期刊的在线投稿系统或者邮件发送给期刊的编辑部。

等待审稿结果：期刊的编辑部会将投稿材料送至专家进行审稿，一般需要等待数周至数月不等的时间，根据审稿结果进行修改和完善。

发表文章：如果文章通过审稿并被期刊接受，期刊将会通知作者并安排发表。

首先，可以通过百度、谷歌、360、搜狗等搜索引擎来检索目标期刊杂志。

最常用的方式，莫过于使用“期刊名”+“投稿方式”或者“联系电话”等方式来查找相关期刊的联系信息。这种方式的最大的好处就是可以查询到海量的目标期刊信息，我们可以经过筛选和不断的确认来最终定位我们的目标期刊。但这种方式的缺点是比较耗时费劲。

其次，中国知网、万方、维普等三大数据库平台不仅收录了大量的期刊杂志的全文，同时，也对收录期刊进行了整理和归类，部分期刊的联系方式可以在这些平台上找到。有的期刊如果找不到联系方式，可以在检索这类数据库时，使用组合查询。

例如“中国远程教育”+ "投稿"的形式，获取能查到期刊发布的投稿通知。此外，如果学校购买过知网的数据库，可以通过浏览目录页面的形式，找到相关期刊杂志的杂志封面、封底及目录页。具体请参见百度经验篇：投核心期刊的投稿指南。

这种方式的优点就是查到的信息准确，一般不要筛选，查到了就没有什么问题。

注意事项：

无论通过哪种方式查到了期刊的联系方式和投稿方式，当我们有幸被录用的时候，切不可掉以轻心。特别是投出后没有多久就收到录用通知，并且让我们几天之内就要汇款的时候，千万长个心眼，一定要找杂志社官方电话进行确认。

投稿投稿期刊

1,现在是信息化时代，我们大部分人都拥有着电子产品，相较于以前的投稿方式的匮乏，现代社会中的投稿方式不可谓不多。首先使用的投稿方式就是通过电子邮箱进行投稿。

2,对于电子邮箱进行投稿，小伙伴们需要通过网上搜索你想要投稿的杂志的官网，通常来说官网上会有信息展示他们的官方电子邮箱地址。如果我们没有发现，也可以到他们的杂志论坛上寻找，或者直接找他们的官方客服进行询问。

3,得到电子邮箱以后，我们就可以将我们的稿件通过邮箱发给报社了，需要注意的是，我们一定要记得留底稿，因为杂志社通常都是不退稿的。所以我们一定要注意保留好我们的底稿。

4,除了电子邮箱发稿以外，我们也可以通过最原始的邮寄的方式进行投稿。对于我们想要邮寄的杂志社，我们可以在他们的官网或者论坛找到实际邮寄地址，又或者可以通过杂志实体书籍获取他们的邮寄地址。

5,最后还是要提醒大家，无论是哪一种投稿方式，我们都需要注明自己的真实姓名，笔名，还有地址，电子邮箱地址，邮政编码等重要的信息。最后祝大家投稿顺利！

论文投稿期刊要经过准备稿件、投稿、审核、答复通过（不通过）、办理版面费、安排版面、出刊、邮递样刊这个流程。

投稿之后，要在第一时间用自己最擅长的方式记录下投稿论文的题目、目标期刊的名称和投稿时间。这样做的好处在于给自己提供一个“备忘”，方便我们在一个月、两个月和三个月之后知道已经投稿一个月、两个月和三个月了。

无论是何种方式收到的修改意见，第一时间表示感谢，同时表明一定会认真修改的态度和立场。然后，在修改截止日期到来之前的一天之内返回修改稿，不必过早也不要太晚。太早了给人的感觉是敷衍了事，不重视、不认真；拖延给人的感觉是缺乏诚信，不守时、不靠谱。

收到期刊用稿通知，先去核实一下用稿通知来源的真实性。越是收费期刊，越要核实；收费越高，核实力度越大。在确信用稿通知真实之后，请再次确认一下目标期刊的级别、学科方向以及印刷质量是否符合你的发表预期。

论文的摘要：

随着计算机技术和因特网的迅猛发展，网上查询、检索和下载专业数据已成为当前科技信息情报检索的重要手段，对于网上各类全文数据库或文摘数据库，论文摘要的索引是读者检索文献的重要工具，为科技情报文献检索数据库的建设和维护提供方禁祖便。

摘要是对论文综合的介绍，使人了解论文阐述的主要内容。论文发表后，文摘杂志或各种数据库对摘要可以不作修改或稍作修改而直接利用，让读者尽快了解论文的主要内容，以补充题名的不足，从而避免他人编写摘要可能产生的误解、欠缺甚至错误。

所以论文摘要的质量高低，直接影响着论文照颂匪的柜灶主被检索率和被引频次。摘要是对论文的内容不加注释和评论的简短陈述，要求扼要地说明研究工作的目的、研究方法和最终结论等，重点是结论，是一篇具有独立性和完整性的短文，可以引用、推广。

投稿期刊投稿

给期刊投稿一般需要遵循以下步骤：

确定投稿期刊：首先需要确定你的研究领域和研究成果所适合的期刊，可以通过学术搜索引擎或者相关学术网站查找。

阅读期刊的投稿要求和指南：不同期刊的投稿要求和指南可能有所不同，需要仔细阅读期刊的投稿要求和指南，了解期刊的主题、范围、格式和投稿流程等。

准备投稿材料：根据期刊的要求，准备好投稿所需的材料，包括论文、摘要、图表、参考文献等。

提交投稿：将准备好的投稿材料通过期刊的在线投稿系统或者邮件发送给期刊的编辑部。

等待审稿结果：期刊的编辑部会将投稿材料送至专家进行审稿，一般需要等待数周至数月不等的时间，根据审稿结果进行修改和完善。

发表文章：如果文章通过审稿并被期刊接受，期刊将会通知作者并安排发表。

选择合适的期刊，根据写的内容进行选择，可以看看参考的文献中是否有类似的，并且应该根据文章的水平选择学术水平相符的期刊，选择好后根据期刊的投稿要求对论文进行排版，把文章寄到编辑部，论文考试答辩取消、条件放宽文件政策，搜：论文热线要我发先起腰发我就发腰（换成数字）总结的经验教训，翻到158页后，一、大道至简、职称不难。二、对照评审条件找差距。三、业绩技巧。四、不符合评审条件也可能合格。五、2012年后，关系的作用几乎是零。发现规律：搜论文考试答辩取消、条件放宽文件政策，有两个办法，都是搜后翻到158页后。一、11位电话号码在后，搜：论文热线要我发先起腰【发】我就发腰（把【发】换成汉字八，其他换成10位数字，再搜，注意必须搜够11位。否则不但找不到，还会搜到假冒的。下同）、高级职称论文（后同）、高级职称论文取消（后同）、高级职称论文价格（后同）、高级经济师论文（后同）、高级会计师论文（后同）、其他职称论文（后同）。二、11位电话号码在前，搜：要我发先起腰发我就发腰（换成数字）论文热线、（前同即11位号码）高级职称论文、（前同）高级职称论文取消、（前同即11位号码）高级职称论文价格、（前同）高级经济师论文、（前同）高级会计师论文、（前同）其他职称论文。论文取消文件政策搜任何职称论文问题加11位热线都能找到。例：搜：论文加急见刊+要我发先起腰【发】我就发腰（是11位电话号码，把【发】换成汉字八，其他换成10位数字，再搜，翻到158页后，即可找到。注意必须搜11位。否则找不到，还会找到假冒的。下同）。同样搜：靠谱的期刊中介（后同）、论文快速见刊（后同）、职称论文怎么写（后同）、职称论文发表（后同）、职称论文收费标准（后同）、职称论文期刊杂志（后同）、职称论文价格（后同）、职称论文要求（后同）、职称论文查重率（后同）、职称论文三大网站（后同）、同样搜：高级经济师论文（后同）、高级会计师论文（后同）、高级职称论文（后同）、其他论文（后同）、高级职称论文取消（后同）、高级职称论文价格（后同）、高级职称论文的要求（后同）、任何论文问题（后同）、论文热线（后同）、职称热线（后同）。同样搜：论文辅导热线（后同）、论文加急见刊（后同）、职称热线（后同）、课题热线（后同）、靠谱的期刊中介（后同）、论文快速见刊（后同）、职称论文怎么写（后同）、职称论文发表（后同）、职称论文收费标准（后同）、职称论文期刊杂志（后同）、职称论文价格（后同）、职称论文要求（后同）、职称论文查重率（后同）、职称论文三大网站（后同）、搜：要我发先起腰发我就发腰（换成数字）论文热线30年创建的名牌被假冒经历。请转发网友总结，共同防：标“广告保障”的全是假冒子。网上出现顺口溜，搜：看到广告保障，想到假冒上当，令人头昏脑涨。防假冒、论文考试答辩取消、条件放宽文件政策，只能搜：要我发先起腰发我就发腰（换成11位数字）论文热线、（同）职称热线、（同）课题热线。30年创建的名牌被假冒经历。第一阶段：1992年-2022年，假冒名称。搜：河南职称论文大学、郑州职称论文大学、郑州高级职称论文大学、郑密路论文，等。标“广告保障”的全是假冒子、都不在郑州。第二阶段：2022年后，假冒名称被网友揭露后（河南郑州职称论文大学不在河南郑州？），又开始假冒1位电话号码的前3-6位。如搜：论文热线158、全国论文办158371、高级经济师158371、高级会计师论文158371等。标“广告保障”的全是假冒子。所以必须完整搜索11位热线。可见：子只能假冒汉字和11位电话号码的前3-6位，无法全部假冒11位。搜够11位，就难杜绝假冒。如搜：要我发先起腰发我就发腰（换成11位数字）论文热线。防假冒必须搜：问题+11位电话号码（要我发先起腰【发】我就发腰，把第7位【发】换成汉字八，其他换成10位数字，再搜），翻到158页后，即可找到。如：搜：高级职称论文的要求+要我发先起腰【发】我就发腰、高级职称论文价格（后同）、高级职称论文取消（后同）、高级经济师论文（后同）、高级会计师论文（后同）、其他职称论文（后同）。 搜：任何省任何职称论文+要我发先起腰【发】我就发腰，如搜：河南高级经济师论文（后同）、山东高级会计师论文（后同）。必须搜：问题+11位（要我发先起腰【发】我就发腰，【发】换成汉字八，其他换成数字，）。否则会搜到假冒子。以高级经济师为例，搜：高级经济师任何问题+要我发先起腰【发】我就发腰（把【发】换成汉字八，其他换成10位数字再搜，必须搜够11位，否则会搜到假冒的），都能找到答案。如搜：高级经济师论文（后同）、高级经济师论文取消（后同）、高级经济师论文范文（后同）、高级经济师论文选题（后同）、高级经济师报考条件（后同）、高级经济师评审条件（后同）、高级经济师考试科目（后同）、高级经济师考试用书（后同）、高级经济师评审业绩成果（后同），等。把“经济”换成“会计、工程、教师、医师等任何职称”再搜，都能找到答案。以高级职称论文为例，搜：高级职称论文的要求+要我发先起腰【发】我就发腰、高级职称论文价格（后同）、高级职称论文发表要求（后同）、高级职称论文有效期（后同）、高级职称论文期刊（后同）、高级职称论文答辩（后同）、高级经济师论文（后同）、高级会计师论文（后同）、其他职称论文（后同）。必须搜：问题+11位（要我发先起腰【发】我就发腰，【发】换成汉字八，其他换成数字，）。否则会搜到假冒子。

期刊投稿投稿

给期刊投稿一般需要遵循以下步骤：

确定投稿期刊：首先需要确定你的研究领域和研究成果所适合的期刊，可以通过学术搜索引擎或者相关学术网站查找。

阅读期刊的投稿要求和指南：不同期刊的投稿要求和指南可能有所不同，需要仔细阅读期刊的投稿要求和指南，了解期刊的主题、范围、格式和投稿流程等。

准备投稿材料：根据期刊的要求，准备好投稿所需的材料，包括论文、摘要、图表、参考文献等。

提交投稿：将准备好的投稿材料通过期刊的在线投稿系统或者邮件发送给期刊的编辑部。

等待审稿结果：期刊的编辑部会将投稿材料送至专家进行审稿，一般需要等待数周至数月不等的时间，根据审稿结果进行修改和完善。

发表文章：如果文章通过审稿并被期刊接受，期刊将会通知作者并安排发表。

选择合适的期刊，根据写的内容进行选择，可以看看参考的文献中是否有类似的，并且应该根据文章的水平选择学术水平相符的期刊，选择好后根据期刊的投稿要求对论文进行排版，把文章寄到编辑部，论文考试答辩取消、条件放宽文件政策，搜：论文热线要我发先起腰发我就发腰（换成数字）总结的经验教训，翻到158页后，一、大道至简、职称不难。二、对照评审条件找差距。三、业绩技巧。四、不符合评审条件也可能合格。五、2012年后，关系的作用几乎是零。发现规律：搜论文考试答辩取消、条件放宽文件政策，有两个办法，都是搜后翻到158页后。一、11位电话号码在后，搜：论文热线要我发先起腰【发】我就发腰（把【发】换成汉字八，其他换成10位数字，再搜，注意必须搜够11位。否则不但找不到，还会搜到假冒的。下同）、高级职称论文（后同）、高级职称论文取消（后同）、高级职称论文价格（后同）、高级经济师论文（后同）、高级会计师论文（后同）、其他职称论文（后同）。二、11位电话号码在前，搜：要我发先起腰发我就发腰（换成数字）论文热线、（前同即11位号码）高级职称论文、（前同）高级职称论文取消、（前同即11位号码）高级职称论文价格、（前同）高级经济师论文、（前同）高级会计师论文、（前同）其他职称论文。论文取消文件政策搜任何职称论文问题加11位热线都能找到。例：搜：论文加急见刊+要我发先起腰【发】我就发腰（是11位电话号码，把【发】换成汉字八，其他换成10位数字，再搜，翻到158页后，即可找到。注意必须搜11位。否则找不到，还会找到假冒的。下同）。同样搜：靠谱的期刊中介（后同）、论文快速见刊（后同）、职称论文怎么写（后同）、职称论文发表（后同）、职称论文收费标准（后同）、职称论文期刊杂志（后同）、职称论文价格（后同）、职称论文要求（后同）、职称论文查重率（后同）、职称论文三大网站（后同）、同样搜：高级经济师论文（后同）、高级会计师论文（后同）、高级职称论文（后同）、其他论文（后同）、高级职称论文取消（后同）、高级职称论文价格（后同）、高级职称论文的要求（后同）、任何论文问题（后同）、论文热线（后同）、职称热线（后同）。同样搜：论文辅导热线（后同）、论文加急见刊（后同）、职称热线（后同）、课题热线（后同）、靠谱的期刊中介（后同）、论文快速见刊（后同）、职称论文怎么写（后同）、职称论文发表（后同）、职称论文收费标准（后同）、职称论文期刊杂志（后同）、职称论文价格（后同）、职称论文要求（后同）、职称论文查重率（后同）、职称论文三大网站（后同）、搜：要我发先起腰发我就发腰（换成数字）论文热线30年创建的名牌被假冒经历。请转发网友总结，共同防：标“广告保障”的全是假冒子。网上出现顺口溜，搜：看到广告保障，想到假冒上当，令人头昏脑涨。防假冒、论文考试答辩取消、条件放宽文件政策，只能搜：要我发先起腰发我就发腰（换成11位数字）论文热线、（同）职称热线、（同）课题热线。30年创建的名牌被假冒经历。第一阶段：1992年-2022年，假冒名称。搜：河南职称论文大学、郑州职称论文大学、郑州高级职称论文大学、郑密路论文，等。标“广告保障”的全是假冒子、都不在郑州。第二阶段：2022年后，假冒名称被网友揭露后（河南郑州职称论文大学不在河南郑州？），又开始假冒1位电话号码的前3-6位。如搜：论文热线158、全国论文办158371、高级经济师158371、高级会计师论文158371等。标“广告保障”的全是假冒子。所以必须完整搜索11位热线。可见：子只能假冒汉字和11位电话号码的前3-6位，无法全部假冒11位。搜够11位，就难杜绝假冒。如搜：要我发先起腰发我就发腰（换成11位数字）论文热线。防假冒必须搜：问题+11位电话号码（要我发先起腰【发】我就发腰，把第7位【发】换成汉字八，其他换成10位数字，再搜），翻到158页后，即可找到。如：搜：高级职称论文的要求+要我发先起腰【发】我就发腰、高级职称论文价格（后同）、高级职称论文取消（后同）、高级经济师论文（后同）、高级会计师论文（后同）、其他职称论文（后同）。 搜：任何省任何职称论文+要我发先起腰【发】我就发腰，如搜：河南高级经济师论文（后同）、山东高级会计师论文（后同）。必须搜：问题+11位（要我发先起腰【发】我就发腰，【发】换成汉字八，其他换成数字，）。否则会搜到假冒子。以高级经济师为例，搜：高级经济师任何问题+要我发先起腰【发】我就发腰（把【发】换成汉字八，其他换成10位数字再搜，必须搜够11位，否则会搜到假冒的），都能找到答案。如搜：高级经济师论文（后同）、高级经济师论文取消（后同）、高级经济师论文范文（后同）、高级经济师论文选题（后同）、高级经济师报考条件（后同）、高级经济师评审条件（后同）、高级经济师考试科目（后同）、高级经济师考试用书（后同）、高级经济师评审业绩成果（后同），等。把“经济”换成“会计、工程、教师、医师等任何职称”再搜，都能找到答案。以高级职称论文为例，搜：高级职称论文的要求+要我发先起腰【发】我就发腰、高级职称论文价格（后同）、高级职称论文发表要求（后同）、高级职称论文有效期（后同）、高级职称论文期刊（后同）、高级职称论文答辩（后同）、高级经济师论文（后同）、高级会计师论文（后同）、其他职称论文（后同）。必须搜：问题+11位（要我发先起腰【发】我就发腰，【发】换成汉字八，其他换成数字，）。否则会搜到假冒子。