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基于AT89C52单片机的超声波测距汽车倒车雷达系统的外文文献实在需要帮忙找我哈!
百度一下 Scientific Research Publishing,这个出版社有两百多本外文期刊,肯定有关于超声的。
你的描述比较宽泛,投文章是要根据你做的具体的研究来的。建议你看一下这一领域里主流杂志发表的文章的参考文献,就基本能了解该领域大概有哪些杂志可供你选择。
2008年SCI收录期刊影响因子(按字顺排列) Abbreviated Journal Title ISSN 2008 Impact Immediacy 2008 Cited Total Cites Factor Index Articles Half-life AAPG BULL 0149-1423 4588 364 353 68 >0 AAPS PHARMSCITECH 1530-9932 1078 445 090 167 4 AATCC REV 1532-8813 252 352 091 44 5 ABDOM IMAGING 0942-8925 2122 485 387 124 6 ABH MATH SEM HAMBURG 0025-5858 318 086 000 7 >0 ABSTR APPL ANAL 1085-3375 283 644 533 60 9 ACAD EMERG MED 1069-6563 4406 460 433 187 7 ACAD MED 1040-2446 5422 867 8 ACAD RADIOL 1076-6332 3027 021 407 167 5 ACCOUNTS CHEM RES 0001-4842 26252 176 683 167 7 ACCREDIT QUAL ASSUR 0949-1775 473 781 275 80 6 ACI MATER J 0889-325X 1672 568 083 72 >0 ACI STRUCT J 0889-3241 1929 895 167 72 7 ACM COMPUT SURV 0360-0300 3273 920 167 12 1 ACM SIGPLAN NOTICES 0362-1340 846 163 013 228 9 ACM T COMPUT LOG 1529-3785 374 766 276 29 4 ACM T COMPUT SYST 0734-2071 1069 391 500 10 >0 ACM T DATABASE SYST 0362-5915 1404 613 074 27 >0 ACM T DES AUTOMAT EL 1084-4309 407 848 098 61 4 ACM T GRAPHIC 0730-0301 4083 383 150 107 7 ACM T INFORM SYST 1046-8188 1455 472 174 23 7 ACM T MATH SOFTWARE 0098-3500 2111 197 526 38 >0 ACM T MODEL COMPUT S 1049-3301 437 029 050 20 >0 ACM T MULTIM COMPUT 1551-6857 155 465 037 27 6 ACM T PROGR LANG SYS 0164-0925 1500 444 051 39 >0 ACM T SOFTW ENG METH 1049-331X 729 958 261 23 8 ACOUST PHYS+ 1063-7710 531 622 125 112 6 ACS CHEM BIOL 1554-8929 867 149 351 77 8 ACS NANO 1936-0851 703 472 389 296 9 ACSMS HEALTH FIT J 1091-5397 63 353 042 24 ACTA ACUST UNITED AC 1610-1928 1473 538 080 100 >0 ACTA AGR SCAND A-AN 0906-4702 393 489 088 34 3 ACTA AGR SCAND B-S P 0906-4710 262 407 176 51 8 ACTA ALIMENT HUNG 0139-3006 319 441 000 43 4 ACTA ANAESTH SCAND 0001-5172 4842 953 503 199 1 ACTA APPL MATH 0167-8019 788 430 218 87 2 ACTA ARITH 0065-1036 1184 467 114 44 >0 ACTA ASTRONAUT 0094-5765 1212 374 013 231 6 ACTA ASTRONOM 0001-5237 860 778 700 30 3 ACTA BIOCH BIOPH SIN 1672-9145 825 086 163 123 8 ACTA BIOCHIM POL 0001-527X 1655 448 237 93 4 ACTA BIOL CRACOV BOT 0001-5296 142 351 000 13 5 ACTA BIOL HUNG 0236-5383 371 619 067 75 2 ACTA BIOMATER 1742-7061 1176 727 491 216 3 ACTA BIOQUIM CLIN L 0325-2957 39 044 077 13 ACTA BIOTHEOR 0001-5342 423 735 056 18 >0 ACTA BOT GALLICA 1253-8078 125 145 020 49 >0 ACTA CARDIOL 0001-5385 621 581 096 104 8 ACTA CHIM SINICA 0567-7351 2339 682 067 461 5 ACTA CHIM SLOV 1318-0207 586 909 109 101 9 ACTA CHIR BELG 0001-5458 729 474 060 167 1 ACTA CHIROPTEROL 1508-1109 290 825 026 38 8 ACTA CHROMATOGR 1233-2356 162 621 111 54 5 ACTA CLIN BELG 0001-5512 528 282 054 56 4 ACTA CRYSTALLOGR A 0108-7673 11622 051 556 72 >0 ACTA CRYSTALLOGR B 0108-7681 10332 341 419 86 >0 ACTA CRYSTALLOGR C 0108-2701 6119 561 354 328 >0 ACTA CRYSTALLOGR D 0907-4449 9365 943 581 148 7 ACTA CRYSTALLOGR E 1600-5368 7113 367 293 3533 4 ACTA CRYSTALLOGR F 1744-3091 586 606 195 293 3 ACTA CYTOL 0001-5547 2713 835 093 118 >0 ACTA DERM-VENEREOL 0001-5555 3545 456 284 74 >0 ACTA DIABETOL 0940-5429 839 926 121 33 8 ACTA ENDOSC 0240-642X 62 074 028 72 ACTA ETHOL 0873-9749 174 667 071 14 4 ACTA GASTRO-ENT BELG 0001-5644 425 832 114 35 1 ACTA GEOL POL 0001-5709 415 581 167 42 >0 ACTA GEOL SIN-ENGL 1000-9515 1312 431 153 118 7 ACTA GEOPHYS 1895-6572 157 308 222 63 1 ACTA HAEMATOL-BASEL 0001-5792 1582 191 061 82 2 ACTA HISTOCHEM 0065-1281 719 101 298 57 9 ACTA HISTOCHEM CYTOC 0044-5991 221 857 048 21 5 ACTA HYDROCH HYDROB 0323-4320 486 907 0 5 ACTA INFORM 0001-5903 734 789 286 21 >0 ACTA MATER 1359-6454 23367 729 542 612 7 ACTA MATH HUNG 0236-5294 961 317 077 104 >0 ACTA MATH SCI 0252-9602 301 222 000 99 6 ACTA MATH SIN 1439-8516 961 543 050 179 7 ACTA MATH-DJURSHOLM 0001-5962 2425 143 273 11 >0 ACTA MECH 0001-5970 1956 297 189 127 9 ACTA MECH SINICA 0567-7718 606 939 122 74 2 ACTA MECH SOLIDA SIN 0894-9166 263 552 043 70 7 ACTA MED OKAYAMA 0386-300X 478 969 127 55 8 ACTA METALL SIN 0412-1961 975 474 075 268 4 您可以查下,去影响因子网,实在是太多了,而且还有年限,也不知道你要哪年的,这里有2001-2009年sci目录查下
医学硕士研究生论文参考文献肯定是越多越好,这样更能够支持你的观点,而且查重的时候不容易出问题。具体数目没有统一规定,各个学校自己掌握。我是山东大学的,我的毕业论文参考文献是41篇(含外文文献9篇,港台地区文献2篇)
Introduction vibrations of frequencies greater than the upper limit of the audible range for humans—that is, greater than about 20 The term sonic is applied to ultrasound waves of very high Hypersound, sometimes called praetersound or microsound, is sound waves of frequencies greater than 1013 At such high frequencies it is very difficult for a sound wave to propagate efficiently; indeed, above a frequency of about 25 × 1013 hertz, it is impossible for longitudinal waves to propagate at all, even in a liquid or a solid, because the molecules of the material in which the waves are traveling cannot pass the vibration along rapidly TableMany animals have the ability to hear sounds in the human ultrasonic frequency Some ranges of hearing for mammals and insects are compared with those of humans in the T A presumed sensitivity of roaches and rodents to frequencies in the 40 kilohertz region has led to the manufacture of “pest controllers” that emit loud sounds in that frequency range to drive the pests away, but they do not appear to work as Transducers An ultrasonic transducer is a device used to convert some other type of energy into an ultrasonic There are several basic types, classified by the energy source and by the medium into which the waves are being Mechanical devices include gas-driven, or pneumatic, transducers such as whistles as well as liquid-driven transducers such as hydrodynamic oscillators and vibrating These devices, limited to low ultrasonic frequencies, have a number of industrial applications, including drying, ultrasonic cleaning, and injection of fuel oil into Electromechanical transducers are far more versatile and include piezoelectric and magnetostrictive A magnetostrictive transducer makes use of a type of magnetic material in which an applied oscillating magnetic field squeezes the atoms of the material together, creating a periodic change in the length of the material and thus producing a high-frequency mechanical Magnetostrictive transducers are used primarily in the lower frequency ranges and are common in ultrasonic cleaners and ultrasonic machining By far the most popular and versatile type of ultrasonic transducer is the piezoelectric crystal, which converts an oscillating electric field applied to the crystal into a mechanical Piezoelectric crystals include quartz, Rochelle salt, and certain types of Piezoelectric transducers are readily employed over the entire frequency range and at all output Particular shapes can be chosen for particular For example, a disc shape provides a plane ultrasonic wave, while curving the radiating surface in a slightly concave or bowl shape creates an ultrasonic wave that will focus at a specific Piezoelectric and magnetostrictive transducers also are employed as ultrasonic receivers, picking up an ultrasonic vibration and converting it into an electrical Applications in research One of the important areas of scientific study in which ultrasonics has had an enormous impact is When water is boiled, bubbles form at the bottom of the container, rise in the water, and then collapse, leading to the sound of the boiling The boiling process and the resulting sounds have intrigued people since they were first observed, and they were the object of considerable research and calculation by the British physicists Osborne Reynolds and Lord Rayleigh, who applied the term cavitation to the process of formation of Because an ultrasonic wave can be used carefully to control cavitation, ultrasound has been a useful tool in the investigation of the The study of cavitation has also provided important information on intermolecular Research is being carried out on aspects of the cavitation process and its A contemporary subject of research involves emission of light as the cavity produced by a high-intensity ultrasonic wave This effect, called sonoluminescence, is believed to create instantaneous temperatures hotter than the surface of the S The speed of propagation of an ultrasonic wave is strongly dependent on the viscosity of the This property can be a useful tool in investigating the viscosity of Because the various parts of a living cell are distinguished by differing viscosities, acoustical microscopy can make use of this property of cells to “see” into living cells, as will be discussed below in Medical Ranging and navigating Sonar (sound navigation and ranging) has extensive marine By sending out pulses of sound or ultrasound and measuring the time required for the pulses to reflect off a distant object and return to the source, the location of that object can be ascertained and its motion This technique is used extensively to locate and track submarines at sea and to locate explosive mines below the surface of the Two boats at known locations can also use triangulation to locate and track a third boat or The distance over which these techniques can be used is limited by temperature gradients in the water, which bend the beam away from the surface and create shadow One of the advantages of ultrasonic waves over sound waves in underwater applications is that, because of their higher frequencies (or shorter wavelengths), the former will travel greater distances with less Ranging has also been used to map the bottom of the ocean, providing depth charts that are commonly used in navigation, particularly near coasts and in shallow Even small boats are now equipped with sonic ranging devices that determine and display the depth of the water so that the navigator can keep the boat from beaching on submerged sandbars or other shallow Modern fishing boats use ultrasonic ranging devices to locate schools of fish, substantially increasing their Even in the absence of visible light, bats can guide their flight and even locate flying insects (which they consume in flight) through the use of sonic Ultrasonic echolocation has also been used in traffic control applications and in counting and sorting items on an assembly Ultrasonic ranging provides the basis of the eye and vision systems for robots, and it has a number of important medical applications (see below) The Doppler effect If an ultrasonic wave is reflected off a moving obstacle, the frequency of the resulting wave will be changed, or Doppler- More specifically, if the obstacle is moving toward the source, the frequency of the reflected wave will be increased; and if the obstacle is moving away from the source, the frequency of the reflected wave will be The amount of the frequency shift can be used to determine the velocity of the moving Just as the Doppler shift for radar, an electromagnetic wave, can be used to determine the speed of a moving car, so can the speed of a moving submarine be determined by the Doppler shift of a sonar An important industrial application is the ultrasonic flow meter, in which reflecting ultrasound off a flowing liquid leads to a Doppler shift that is calibrated to provide the flow rate of the This technique also has been applied to blood flow in Many burglar alarms, both for home use and for use in commercial buildings, employ the ultrasonic Doppler shift Such alarms cannot be used where pets or moving curtains might activate Materials testing Nondestructive testing involves the use of ultrasonic echolocation to gather information on the integrity of mechanical Since changes in the material present an impedance mismatch from which an ultrasonic wave is reflected, ultrasonic testing can be used to identify faults, holes, cracks, or corrosion in materials, to inspect welds, to determine the quality of poured concrete, and to monitor metal Owing to the mechanism by which sound waves propagate in metals, ultrasound can be used to probe more deeply than any other form of Ultrasonic procedures are used to perform in-service inspection of structures in nuclear Structural flaws in materials can also be studied by subjecting the materials to stress and looking for acoustic emissions as the materials are Acoustic emission, the general name for this type of nondestructive study, has developed as a distinct field of High-intensity applications High-intensity ultrasound has achieved a variety of important Perhaps the most ubiquitous is ultrasonic cleaning, in which ultrasonic vibrations are set up in small liquid tanks in which objects are placed for Cavitation of the liquid by the ultrasound, as well as the vibration, create turbulence in the liquid and result in the cleaning Ultrasonic cleaning is very popular for jewelry and has also been used with such items as dentures, surgical instruments, and small Degreasing is often enhanced by ultrasonic Large-scale ultrasonic cleaners have also been developed for use in assembly Ultrasonic machining employs the high-intensity vibrations of a transducer to move a machine If necessary, a slurry containing carborundum grit may be used; diamond tools can also be A variation of this technique is ultrasonic drilling, which makes use of pneumatic vibrations at ultrasonic frequencies in place of the standard rotary drill Holes of virtually any shape can be drilled in hard or brittle materials such as glass, germanium, or Ultrasonic soldering has become important, especially for soldering unusual or difficult materials and for very clean The ultrasonic vibrations perform the function of cleaning the surface, even removing the oxide layer on aluminum so that the material can be Because the surfaces can be made extremely clean and free from the normal thin oxide layer, soldering flux becomes Chemical and electrical uses The chemical effects of ultrasound arise from an electrical discharge that accompanies the cavitation This forms a basis for ultrasound's acting as a catalyst in certain chemical reactions, including oxidation, reduction, hydrolysis, polymerization and depolymerization, and molecular With ultrasound, some chemical processes can be carried out more rapidly, at lower temperatures, or more The ultrasonic delay line is a thin layer of piezoelectric material used to produce a short, precise delay in an electrical The electrical signal creates a mechanical vibration in the piezoelectric crystal that passes through the crystal and is converted back to an electrical A very precise time delay can be achieved by constructing a crystal with the proper These devices are employed in fast electronic timing Medical applications Although ultrasound competes with other forms of medical imaging, such as X-ray techniques and magnetic resonance imaging, it has certain desirable features—for example, Doppler motion study—that the other techniques cannot In addition, among the various modern techniques for the imaging of internal organs, ultrasonic devices are by far the least Ultrasound is also used for treating joint pains and for treating certain types of tumours for which it is desirable to produce localized A very effective use of ultrasound deriving from its nature as a mechanical vibration is the elimination of kidney and bladder Diagnosis Much medical diagnostic imaging is carried out with X Because of the high photon energies of the X ray, this type of radiation is highly ionizing—that is, X rays are readily capable of destroying molecular bonds in the body tissue through which they This destruction can lead to changes in the function of the tissue involved or, in extreme cases, its One of the important advantages of ultrasound is that it is a mechanical vibration and is therefore a nonionizing form of Thus, it is usable in many sensitive circumstances where X rays might be Also, the resolution of X rays is limited owing to their great penetrating ability and the slight differences between soft Ultrasound, on the other hand, gives good contrast between various types of soft Ultrasonic scanning in medical diagnosis uses the same principle as Pulses of high-frequency ultrasound, generally above one megahertz, are created by a piezoelectric transducer and directed into the As the ultrasound traverses various internal organs, it encounters changes in acoustic impedance, which cause The amount and time delay of the various reflections can be analyzed to obtain information regarding the internal In the B-scan mode, a linear array of transducers is used to scan a plane in the body, and the resultant data is displayed on a television screen as a two-dimensional The A-scan technique uses a single transducer to scan along a line in the body, and the echoes are plotted as a function of This technique is used for measuring the distances or sizes of internal The M-scan mode is used to record the motion of internal organs, as in the study of heart Greater resolution is obtained in ultrasonic imaging by using higher frequencies—, shorter A limitation of this property of waves is that higher frequencies tend to be much more strongly Because it is nonionizing, ultrasound has become one of the staples of obstetric During the process of drawing amniotic fluid in testing for birth defects, ultrasonic imaging is used to guide the needle and thus avoid damage to the fetus or surrounding Ultrasonic imaging of the fetus can be used to determine the date of conception, to identify multiple births, and to diagnose abnormalities in the development of the Ultrasonic Doppler techniques have become very important in diagnosing problems in blood In one technique, a three-megahertz ultrasonic beam is reflected off typical oncoming arterial blood with a Doppler shift of a few kilohertz—a frequency difference that can be heard directly by a Using this technique, it is possible to monitor the heartbeat of a fetus long before a stethoscope can pick up the Arterial diseases such as arteriosclerosis can also be diagnosed, and the healing of arteries can be monitored following A combination of B-scan imaging and Doppler imaging, known as duplex scanning, can identify arteries and immediately measure their blood flow; this has been extensively used to diagnose heart valve Using ultrasound with frequencies up to 2,000 megahertz, which has a wavelength of 75 micrometre in soft tissues (as compared with a wavelength of about 55 micrometre for light), ultrasonic microscopes have been developed that rival light microscopes in their The distinct advantage of ultrasonic microscopes lies in their ability to distinguish various parts of a cell by their Also, because they require no artificial contrast mediums, which kill the cells, acoustic microscopy can study actual living Therapy and surgery Because ultrasound is a mechanical vibration and can be well focused at high frequencies, it can be used to create internal heating of localized tissue without harmful effects on nearby This technique can be employed to relieve pains in joints, particularly in the back and Also, research is now being carried out in the treatment of certain types of cancer by local heating, since focusing intense ultrasonic waves can heat the area of a tumour while not significantly affecting surrounding Trackless surgery—that is, surgery that does not require an incision or track from the skin to the affected area—has been developed for several Focused ultrasound has been used for the treatment of Parkinson's disease by creating brain lesions in areas that are inaccessible to traditional A common application of this technique is the destruction of kidney stones with shock waves formed by bursts of focused In some cases, a device called an ultrasonic lithotripter focuses the ultrasound with the help of X-ray guidance, but a more common technique for destruction of kidney stones, known as endoscopic ultrasonic disintegration, uses a small metal rod inserted through the skin to deliver ultrasound in the 22- to 30-kilohertz frequency Infrasonics The term infrasonics refers to waves of a frequency below the range of human hearing—, below about 20 Such waves occur in nature in earthquakes, waterfalls, ocean waves, volcanoes, and a variety of atmospheric phenomena such as wind, thunder, and weather Calculating the motion of these waves and predicting the weather using these calculations, among other information, is one of the great challenges for modern high-speed TableAircraft, automobiles, or other rapidly moving objects, as well as air handlers and blowers in buildings, also produce substantial amounts of infrasonic Studies have shown that many people experience adverse reactions to large intensities of infrasonic frequencies, developing headaches, nausea, blurred vision, and On the other hand, a number of animals are sensitive to infrasonic frequencies, as indicated in the T It is believed by many zoologists that this sensitivity in animals such as elephants may be helpful in providing them with early warning of earthquakes and weather It has been suggested that the sensitivity of birds to infrasound aids their navigation and even affects their One of the most important examples of infrasonic waves in nature is in Three principal types of earthquake wave exist: the S-wave, a transverse body wave; the P-wave, a longitudinal body wave; and the L-wave, which propagates along the boundary of stratified L-waves, which are of great importance in earthquake engineering, propagate in a similar way to water waves, at low velocities that are dependent on S-waves are transverse body waves and thus can only be propagated within solid bodies such as P-waves are longitudinal waves similar to sound waves; they propagate at the speed of sound and have large When P-waves propagating from the epicentre of an earthquake reach the surface of the Earth, they are converted into L-waves, which may then damage surface The great range of P-waves makes them useful in identifying earthquakes from observation points a great distance from the In many cases, the most severe shock from an earthquake is preceded by smaller shocks, which provide advance warning of the greater shock to Underground nuclear explosions also produce P-waves, allowing them to be monitored from any point in the world if they are of sufficient The reflection of man-made seismic shocks has helped to identify possible locations of oil and natural-gas Distinctive rock formations in which these minerals are likely to be found can be identified by sonic ranging, primarily at infrasonic
科技类的期刊都可以发的 科技中国 科教导刊 求知导刊 科技与创新 这些都可以
期刊方面的问题可以找【论文部落】了解
1、美国的《科学》即《Science》全年共51期,为周刊,全球发行量超过150万份。在2014年的影响因子为477。电灯的发明人、 世界最著名的科学家之一 :托马斯·爱迪生创办了Science 周刊。2、英国的《自然》即《Nature》是世界上最权威的科学杂志之一。杂志以报道科学世界中的重大发现、重要突破为使命,要求科研成果新颖,为周刊刊物。3、德国的《德国应用化学》即《ANGEW》收录的文章以简讯类为主,简讯主要分布在有机化学、生命有机化学、材料学、高分子化学等领域,无机化学、物理化学涉及相对较少。收录的论文要求原创性、结果的重要性、惊奇性、内容的通俗性以及科学的正确性。扩展资料相关的还有美国化学会杂志《JACS》2015年,JACS的影响因子已达到113。创刊的宗旨是想通过发表全世界化学领域最好的论文,来追踪化学领域的最新前沿,其中包括对一些重要问题的应用性方法论,新的合成方法,新奇的理论发展和有关重要结构和反应的新进展。为周刊。美国《Tetrahedron》,四面体通讯。发表的是具有重要性和及时性的实验及理论研究结果,主要是在有机化学及其相关应用领域特别是生物有机化学。期刊包含领域为有机合成,有机反应,天然产物化学,机理研究及各种光谱研究。
Computer-Aided Design《计算机辅助设计》英国ISSN: 0010-4485, 1968年创刊,全年14期,Elsevier Science出版社,SCI、EI收录期刊,SCI 2005年影响因子173,2005年EI收录122篇。主要发表计算机辅助设计开发和应用方面的论文和评论,涉及机械制造、土木工程、建筑营造、电子工程、化学工程、海洋工程、模拟、数控、几何制图等方面。兼载会议报告和书评。Computers and Electronics in Agriculture《农用计算机与电子设备》荷兰ISSN: 0168-1699, 1986年创刊,全年12期,Elsevier Science出版社,SCI、EI收录期刊,浙江工业大学图书馆信息咨询部编 Elsevier Science 出版社期刊投稿指南 42SCI 2005年影响因子802,2005年EI收录83篇。刊载计算机及电子仪器与控制设备在农业(包括园艺、林业、畜牧业)研究、开发及生产中应用方面的论文和札记。Cryogenics《低温学》英国ISSN: 0011-2275, 1960年创刊,全年12期,Elsevier Science出版社,SCI、EI收录期刊,SCI 2005年影响因子762,2005年EI收录97篇。刊载低温工程学和低温物理学,包括应用超导电性、低温电子学等方面的原始研究论文和研究进展评论。兼载技术札记、会议报告、书评和消息报道。Displays《显示》英国ISSN:0141-9382,1979年创刊,全年4期,Elsevier Science出版社,SCI、EI收录期刊,SCI 2005年影响因子947,2005年EI收录27篇。刊载电子显示技术及其应用方面的论文、浙江工业大学图书馆信息咨询部编 Elsevier Science 出版社期刊投稿指南 50评论、书评和技术札记,介绍显示技术的最新研究发展和利用实况,报道新进展、新产品以及会议消息。Image and Vision Computing《图像与视觉计算》荷兰ISSN:0262-8856,1983年创刊,全年14期,Elsevier Science出版社,SCI、EI收录期刊,SCI 2005年影响因子383,2005年EI收录107篇。刊载对电视摄像、X射线装置、电子显微镜、超声传感等图像的判读、分析和处理方面的研究论文,涉及机器人遥控、资源遥测、生产监控、音像播送以及在医学、冶金学、天文学方面的应用等。Materials Today《当今材料》英国ISSN:1369-7021,1998年创刊,全年6期,Elsevier Science出版社,EI收录期刊,2005年EI收录102篇。发表当今材料科学研究的新闻、评论、通信、热点报道文章和相关政策,涉及材料化学、电子与光电子材料、高分子与新结构材料等。Mechatronics《机械电子学》英国ISSN:0957-4158,1991年创刊,全年10期,Elsevier Science出版社,SCI、EI收录期刊,SCI 2005年影响因子679,2005年EI收录65篇。刊载研究机械电子学原理及其应用问题的论文。Microelectronic Engineering《微电子工程》荷兰ISSN:0167-9317,1983年创刊,全年20期,Elsevier Science出版社,SCI、EI收录期刊,SCI 2005年影响因子347,2005年EI收录446篇。刊载与微电子元件生产、加工、检测有关的原材料、方法、工艺及设计方面新进展的论文和报告。Microelectronics Journal《微电子学杂志》英国ISSN:0026-2692,1970年创刊,全年12期,Elsevier Science出版社,SCI、EI收录期刊,SCI 2005年影响因子350,2005年EI收录232篇。刊载固体电子器件及材料的设计、生产、测试和应用等方面的研究论文及文摘。Microelectronics Reliability《微电子学可靠性》英国ISSN:0026-2714,1961年创刊,全年11期,Elsevier Science出版社,SCI、EI收录期刊,浙江工业大学图书馆信息咨询部编 Elsevier Science 出版社期刊投稿指南 129SCI 2005年影响因子724,2005年EI收录286篇。刊载可靠性理论和应用微型电子系统的设计、制造、工艺和试验等方面的研究论文。Sensors and Actuators A: Physical《传感器与执行机构,A辑:物理传感器》瑞士ISSN:0924-4247,1980年创刊,全年24期,Elsevier Science出版社,SCI、EI收录期刊,SCI 2005年影响因子363,2005年EI收录449篇。刊载物理传感器的相关结构、电子接口、传感系统、材料及技术等方面的原始论文及特邀评论。Solid-State Electronics《固体电子学》英国ISSN:0038-1101,1960年创刊,全年12期,Elsevier Science出版社,SCI、EI收录期刊,SCI 2005年影响因子247,2005年EI收录305篇。刊载应用固体物理学研究论文,涉及晶体管理论与设计、晶体生长与处理、电子器件加工工艺、固体电池、铁氧体等。Telematics and Informatics《远距通信与信息学》英国ISSN:0736-5853,1984年创刊,全年4期,Elsevier Science出版社,EI收录期刊,2005年EI收录24篇。刊载远距通信和信息科学在商业、工业、政府、教育等领域应用的研究论文与评论,涉及电子学、计算机图像处理、语言合成、声音识别、卫星电视、人工智能等方面的技术问题。Transportation Research Part C: Emerging Technologies《运输研究C部分:新兴技术》英国ISSN:0968-090X,1993年创刊,全年6期,Elsevier Science出版社,SCI、EI收录期刊,SCI 2005年影响因子651,2005年EI收录24篇。刊载工程、计算机科学、电子学、控制系统和电信等领域新兴技术在运输系统的规划、设计、运行、控制、管理、保养和优化中的应用与开发方面的研究论文。
医学类学术期刊有:一、中华医学杂志《中华医学杂志》是1915年创办的双语学术期刊,周刊,中国科学技术协会主管,中华医学会主办。期刊主要反映中国医学最新的科研成果,积极推广医药卫生领域的新技术、新成果,及时交流防病治病的新经验。期刊主要反映中国医学最新的科研成果,积极推广医药卫生领域的新技术、新成果,及时交流防病治病的新经验。期刊主要读者对象是广大医药卫生人员。二、第四军医大学学报《医学争鸣》刊载的内容主要是医学学术方面的各种看法和观点的交锋与辩论。英文刊名为《NEGATIVE》,以期经历“否定—否定之否定—肯定”的螺旋式上升,达到新的认识境界。反映发明与创新、否定与假说、探索与发现等前沿医学思想,传播医学领域新观点、新方法和新成就,服务医学科学研究和我国卫生事业发展。。三、第三军医大学学报《第三军医大学学报》(Journal of Third Military Medical University)是由中国人民解放军陆军军医大学(第三军医大学)主管、主办中文版半月刊。据2018年4月《第三军医大学学报》编辑部官网显示,《第三军医大学学报》第十届编辑委员会拥有常务委员49人,委员127人,特约编委5人,海外编委12人。 据2018年4月中国知网显示,《第三军医大学学报》共出版文献18690篇,总被下载1789818次、总被引87645次。四、第二军医大学学报《第二军医大学学报》是经中国人民解放军总政治部、国家新闻出版署批准,由第二军医大学主管、主办的综合性医药卫生类学术刊物。1980年6月创刊。据2018年9月《第二军医大学学报》官网显示,《第二军医大学学报》编委会拥有委员67人,客座编委13人,2017年度共有368位审稿专家。五、南方医科大学学报《南方医科大学学报》(原第一军医大学学报)创刊于1981年,为国内外发行的高级综合性医药卫生期刊。是中国百种杰出学术期刊。被美国Medline/PubMed、美国化学文摘(CA)、荷兰《医学文摘》(EMBASE)、中国科学引文数据库(CSCD)源期刊、中国科技论文统计源数据库、中文核心期刊要目总览(2011年版,北京大学图书馆)等国内外重要数据库收录。
医学学术期刊的种类有数千种之多,主要包括三个等级,中文核心期刊,科技核心期刊,和普通期刊,很多省份会划分自己的一类,二类期刊标准,核心期刊大概就有1000多种,其中中文核心200多个,科技核心900多个,学术期刊又根据医学的分类细分为很多类别,比如护理的有中华现代护理杂志,泌尿外科有中华泌尿外科杂志。。。。。其它专业亦是如此,发表一篇跟专业相关的医学论文,可以适当提高职称晋升几率,具体的也可以跟专业机构咨询,希望能为您提供到帮助
2008年SCI收录期刊影响因子(按字顺排列) Abbreviated Journal Title ISSN 2008 Impact Immediacy 2008 Cited Total Cites Factor Index Articles Half-life AAPG BULL 0149-1423 4588 364 353 68 >0 AAPS PHARMSCITECH 1530-9932 1078 445 090 167 4 AATCC REV 1532-8813 252 352 091 44 5 ABDOM IMAGING 0942-8925 2122 485 387 124 6 ABH MATH SEM HAMBURG 0025-5858 318 086 000 7 >0 ABSTR APPL ANAL 1085-3375 283 644 533 60 9 ACAD EMERG MED 1069-6563 4406 460 433 187 7 ACAD MED 1040-2446 5422 867 8 ACAD RADIOL 1076-6332 3027 021 407 167 5 ACCOUNTS CHEM RES 0001-4842 26252 176 683 167 7 ACCREDIT QUAL ASSUR 0949-1775 473 781 275 80 6 ACI MATER J 0889-325X 1672 568 083 72 >0 ACI STRUCT J 0889-3241 1929 895 167 72 7 ACM COMPUT SURV 0360-0300 3273 920 167 12 1 ACM SIGPLAN NOTICES 0362-1340 846 163 013 228 9 ACM T COMPUT LOG 1529-3785 374 766 276 29 4 ACM T COMPUT SYST 0734-2071 1069 391 500 10 >0 ACM T DATABASE SYST 0362-5915 1404 613 074 27 >0 ACM T DES AUTOMAT EL 1084-4309 407 848 098 61 4 ACM T GRAPHIC 0730-0301 4083 383 150 107 7 ACM T INFORM SYST 1046-8188 1455 472 174 23 7 ACM T MATH SOFTWARE 0098-3500 2111 197 526 38 >0 ACM T MODEL COMPUT S 1049-3301 437 029 050 20 >0 ACM T MULTIM COMPUT 1551-6857 155 465 037 27 6 ACM T PROGR LANG SYS 0164-0925 1500 444 051 39 >0 ACM T SOFTW ENG METH 1049-331X 729 958 261 23 8 ACOUST PHYS+ 1063-7710 531 622 125 112 6 ACS CHEM BIOL 1554-8929 867 149 351 77 8 ACS NANO 1936-0851 703 472 389 296 9 ACSMS HEALTH FIT J 1091-5397 63 353 042 24 ACTA ACUST UNITED AC 1610-1928 1473 538 080 100 >0 ACTA AGR SCAND A-AN 0906-4702 393 489 088 34 3 ACTA AGR SCAND B-S P 0906-4710 262 407 176 51 8 ACTA ALIMENT HUNG 0139-3006 319 441 000 43 4 ACTA ANAESTH SCAND 0001-5172 4842 953 503 199 1 ACTA APPL MATH 0167-8019 788 430 218 87 2 ACTA ARITH 0065-1036 1184 467 114 44 >0 ACTA ASTRONAUT 0094-5765 1212 374 013 231 6 ACTA ASTRONOM 0001-5237 860 778 700 30 3 ACTA BIOCH BIOPH SIN 1672-9145 825 086 163 123 8 ACTA BIOCHIM POL 0001-527X 1655 448 237 93 4 ACTA BIOL CRACOV BOT 0001-5296 142 351 000 13 5 ACTA BIOL HUNG 0236-5383 371 619 067 75 2 ACTA BIOMATER 1742-7061 1176 727 491 216 3 ACTA BIOQUIM CLIN L 0325-2957 39 044 077 13 ACTA BIOTHEOR 0001-5342 423 735 056 18 >0 ACTA BOT GALLICA 1253-8078 125 145 020 49 >0 ACTA CARDIOL 0001-5385 621 581 096 104 8 ACTA CHIM SINICA 0567-7351 2339 682 067 461 5 ACTA CHIM SLOV 1318-0207 586 909 109 101 9 ACTA CHIR BELG 0001-5458 729 474 060 167 1 ACTA CHIROPTEROL 1508-1109 290 825 026 38 8 ACTA CHROMATOGR 1233-2356 162 621 111 54 5 ACTA CLIN BELG 0001-5512 528 282 054 56 4 ACTA CRYSTALLOGR A 0108-7673 11622 051 556 72 >0 ACTA CRYSTALLOGR B 0108-7681 10332 341 419 86 >0 ACTA CRYSTALLOGR C 0108-2701 6119 561 354 328 >0 ACTA CRYSTALLOGR D 0907-4449 9365 943 581 148 7 ACTA CRYSTALLOGR E 1600-5368 7113 367 293 3533 4 ACTA CRYSTALLOGR F 1744-3091 586 606 195 293 3 ACTA CYTOL 0001-5547 2713 835 093 118 >0 ACTA DERM-VENEREOL 0001-5555 3545 456 284 74 >0 ACTA DIABETOL 0940-5429 839 926 121 33 8 ACTA ENDOSC 0240-642X 62 074 028 72 ACTA ETHOL 0873-9749 174 667 071 14 4 ACTA GASTRO-ENT BELG 0001-5644 425 832 114 35 1 ACTA GEOL POL 0001-5709 415 581 167 42 >0 ACTA GEOL SIN-ENGL 1000-9515 1312 431 153 118 7 ACTA GEOPHYS 1895-6572 157 308 222 63 1 ACTA HAEMATOL-BASEL 0001-5792 1582 191 061 82 2 ACTA HISTOCHEM 0065-1281 719 101 298 57 9 ACTA HISTOCHEM CYTOC 0044-5991 221 857 048 21 5 ACTA HYDROCH HYDROB 0323-4320 486 907 0 5 ACTA INFORM 0001-5903 734 789 286 21 >0 ACTA MATER 1359-6454 23367 729 542 612 7 ACTA MATH HUNG 0236-5294 961 317 077 104 >0 ACTA MATH SCI 0252-9602 301 222 000 99 6 ACTA MATH SIN 1439-8516 961 543 050 179 7 ACTA MATH-DJURSHOLM 0001-5962 2425 143 273 11 >0 ACTA MECH 0001-5970 1956 297 189 127 9 ACTA MECH SINICA 0567-7718 606 939 122 74 2 ACTA MECH SOLIDA SIN 0894-9166 263 552 043 70 7 ACTA MED OKAYAMA 0386-300X 478 969 127 55 8 ACTA METALL SIN 0412-1961 975 474 075 268 4 您可以查下,去影响因子网,实在是太多了,而且还有年限,也不知道你要哪年的,这里有2001-2009年sci目录查下