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楚材晉育：中國留美學生，1872-1931

為了解決F 150 規格 2021的問題，作者江勇振 這樣論述：

2022年是中國學生赴美國留學150週年 從清末自強運動開始 「師夷之長技以制夷」的權宜之策 隨著20世紀初留美熱潮掀起 演變成一個「楚材晉『育』」的運動 　　《楚材晉育》以容閎的幼童生為引，聚焦於1902年成立、1931年因國共分裂的餘波掃到了太平洋彼岸而崩潰的「全美中國留學生聯合會」(The Chinese Students’ Alliance of America)，從中分析中國留美學生的八個面向：自詡為未來中國的領袖、政治上保守、不可救藥的親美派、最為美國化並最憧憬甚至幻想要跟美國中產階級白人談戀愛的一代、與中國社會脫節、東方主義的中國傳統觀、泰半以公費留美、女留學生所面對的男性

沙文主義以及她們回國以後在婚姻與就業上的兩難。 　　中國政府在最初制定留美政策的時候，出發點是「楚材晉『育』」，亦即派遣學生到美國留學，以期他們在學成之後為中國所用。但美國1882年《排華法案》制定，直到1943年廢止的六十年間，絕大多數中國留美學生因為美國法律不允許而無法留在美國。直到《排華法案》廢止，特別是1965年移民法給予一年兩萬人的移民配額後，留美學生才得有學而優則「留」這個選擇。「楚材晉『育』」於焉成為「楚材晉用」的敲門磚，這也是所謂的人才外流現象的肇始。

Handbook of Thermal Plasmas

為了解決F 150 規格 2021的問題，作者Boulos, Maher I.,Fauchais, Pierre L.,Pfender, Emil 這樣論述：

Professor Boulos is Emeritus professor at Chemical and Biotechnology Engineering Dep. of the University of Sherbrooke, Sherbrooke, Québec, Canada. He received his bachelor’s degree in Chemical Eng. from Cairo University, Egypt 1963, Master’s and Ph.D. degrees from the University of Waterloo, Ontario

, Canada (1968 and 1972). His principal research activity has been in the area of fluid dynamics, heat and mass transfer under plasma conditions, mathematical modelling and diagnostics. He has been at the University de Sherbrooke since 1973 where he was department chairman over the period (1981-1986

) and founding Director of the Interuniversity Plasma Technology Research Center over the period (1985-2004). In 1990, he founded Tekna Plasma Systems Inc., a spin-off the University of Sherbrooke with the mandate of developing and promoting industrial applications of thermal plasma technology. Sinc

e January 2007 he retired from his regular faculty position to focus on running the Tekna Group which has grown to be a world leader in induction plasma technology. Over his 35 years career at the University of Sherbrooke, Professor’s Boulos supervised/co-supervised 57 M.Sc. and Ph.D. students, publ

ished more than 150 papers in refereed scientific Journals, more than 200 International conference proceedings, and contributed to 35 patents and patent applications. He coauthored three textbooks in the field of thermal plasmas, ’thermal plasma fundamentals and applications, by Boulos, Fauchais and

Pfender, Plenum press (1994), Thermal Spray Fundamentals, from Powder to part, 1st Ed. by Fauchais, Heberlein and Boulos, Springer (2014), and 2nd Ed. by Boulos, Fauchais and Heberlein, Springer (2021). He is a Fellow of the Canadian Academy of Engineering and has been the recipient of numerous dis

tinctions including TSS Hall of Fame in (2003), the ＂Lieonel Boulet＂ Prix du Québec in November (2007), the highest scientific distention in Québec, for his contribution to scientific and economic development in Québec and in (2015) of The Plasma Chemistry Award’ the highest recognition awarded by t

he International Plasma Chemistry Society for lifetime achievements in the field of Plasma Chemistry.Pierre Fauchais is emeritus professor at University of Limoges, France. He received at the University of Poitiers, France, his Diplomas both in Engineering: Aeronautics and related Thermal Problems i

n Physics (1961), his Ph.D. in Mechanics and Aeronautics (1963), and his State Thesis in Physics (1968). From 1961 to 1968 he was Researcher at National Research Centre (CNRS) at ENSMA Poitiers, and in (1968) became Assistant Professor at the University of Limoges, then Full Professor in (1973), and

exceptional Professor in (1988). His work was devoted to thermodynamic and transport properties of thermal plasmas, arc technology, plasma diagnostics (temperatures and velocities), sensors for particles in flight and at impact (laser anemometry, fast pyrometers, and imaging), plasma spraying, and

production of finely or nanostructured coatings. He has about 400 papers published 280 peer-reviewed international conference papers, 430 international conference papers, and 8 patents. He contributed to, 9 book-chapters, and three textbooks, thermal plasma fundamentals and applications, by Boulos,

Fauchais and Pfender, Plenum press (1994), Thermal Spray Fundamentals, from Powder to part, 1st Ed. by Fauchais, Heberlein and Boulos, Springer (2014), and 2nd Ed. by Boulos, Fauchais and Heberlein, Springer (2021).Professor Fauchais has given 52 plenary lectures and 82 topical lectures at internati

onal meetings. He was inducted to the ASM-TSS Hall of Fame in (1998) and received the Plasma Chemistry Society award in (2001) and 34 best paper awards. He is fellow ASM since 2002. He has directed or codirected 92 Ph.D. thesis and 15 State thesis or equivalent (HDR). Besides regular teaching, he ha

s given and organized numerous continuing education short courses in conjunction with international conferences and specialized courses adapted to industrial needs.Professor Emil Pfender was Emeritus Professor at the University of Minnesota, who passed away on January 28th. (2016) after a brief illn

ess. Professor Pfender was a leading member of our thermal Plasma community and contributed immensely to the understanding of the scientific foundations of this rapidly developing field. He earned his Diploma in Physics in (1953), and Dr. Ing. in Electrical Engineering in (1959), both from the Techn

ical University of Stuttgart, where he became Chief Assistant and Lecturer at the Institute for Gaseous Electronics. In (1961) he spent a year as Visiting Scientist at the Plasma Physics Branch of the Air Force Research Laboratories at Wright Patterson Air Force Base, near Dayton, Ohio. In (1964) Pr

ofessor Pfender joined the Department of Mechanical Engineering at the University of Minnesota as Associate Professor and became Professor in (1967). Under his leadership the High Temperature Plasma Laboratory which he founded, and director grew to become one of the world leading centers in the fiel

d of plasma science and technology. In (1980), together with Professor Stan Veprek, then of the University of Zürich, Professor Pfender co-founded the journal Plasma Chemistry and Plasma Processing and served for twenty-five years as its co-Editor-in-Chief. The journal, which is presently in its 41s

t. year, published by Springer, remains one of the most important in its field.Professor Pfender became a Fellow of the American Society of Mechanical Engineers in (1981) and member of the US National Academy of Engineering in (1986). He was recipient of many well-deserved honors from leading scient

ific societies, including the Alexander von Humboldt Award of the German Government (1978), the Gold Honorary F. Krizik Medal for Merit in the Field of Technical Sciences of the Czech Academy of Sciences, and an Honorary Doctorate from the Technical University of Ilmenau, Germany. The University of

Minnesota awarded Professor Pfender a Distinguished Alumni Professorship in (1989) and the Ernst Eckert Professorship in (1994). In (1995) he was the recipient of the first ’Plasma Chemistry Award’ the highest recognition awarded by the International Plasma Chemistry Society for lifetime achievement

s in the field of Plasma Chemistry. Among his long list of scientific publications, he authored/coauthored numerous chapters for textbooks and a textbook ’thermal plasma fundamentals and applications, by Boulos, Fauchais and Pfender, Plenum press (1994). He formally retired from the University in (2

000), but as an Emeritus Professor he remained up to the time of his death an active member of the Graduate Faculty in Mechanical Engineering, co-advising several Ph.D. students and actively contributed to this handbook.

基於LVDT實現圓軸真圓度與凸輪擺線量測之研究

為了解決F 150 規格 2021的問題，作者曾子銓 這樣論述：

從60年代起，台灣是重要的加工出口國之一，多數的外國企業都喜歡委託台灣加工廠進行產品的製作與加工；對於加工出口產品，品質的控管與檢測已成為必要審核項目。高規格的工廠在檢測上使用自動工件量測儀等量測機具進行檢測並且檢測的精度最小可以達到微米等級；但仍有多數製造工廠採用人工檢測的方式進行，以手持游標卡尺或千分表對於工件進行手動檢測。為減少人為檢測的誤差，又能在避免花費龐大金額下提升產線的效率，本研究以線性可變差動變壓器(Linear Variable Differential Transformer, LVDT)為研究主軸，證實LVDT對於工件之量測的可信度與精確度，以LVDT架構之量測系統

將比傳統之量具更加快速，且量測精度能達到跟傳統手動量具同等之精確度，在成本開銷上又比市售的量測機台來的更低。 本研究以LVDT取代傳統量具作為量測工件之主軸，選擇工件中圓軸之真圓度以及凸輪之擺線曲線作為LVDT量測目標；整合LVDT、步進馬達、鋁擠型等物件架構出測量平台，將LVDT量測到工件之徑向位移量轉變為類比電壓訊號，藉由資料擷取器將訊號送至LabVIEW人機介面中進行資料統整及運算，最終將計算出工件參數以數值或圖表形式顯示於電腦螢幕上，證實LVDT能夠達到上述之量測效果，提供一種新的量測方式。