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A Tiger Loose on an Ice Flow: The Ferozepore Brigade on the Western Front, 1914-1915

為了解決Medical equipment的問題，作者Snape, David 這樣論述：

Many accounts of the Indian Corps as a whole have been published in recent years but few have concentrated on the experiences of a single individual Brigade. The Ferozepore Brigade, part of the Lahore Division, had been created in 1904 during the Kitchener reforms of the Indian Army and like all

Indian Army Brigades consisted of three Indian Battalions, the 9th Bhopal Infantry, the 57th (Wilde’s) Rifles (Frontier Force), and the 129th The Duke of Connaught’s Own Baluchis. In addition the Brigade had one British regular Army Battalion; 1st Battalion Connaught Rangers.The Indian Corps was mob

ilized very efficiently in August 1914 and embarked in France in the following month after a long sea voyage. Such was the haste of the Brigade’s mobilization and the differences which had been allowed to exist in its organization and equipment that the Brigade’s composition, it had to be reorganize

d during the voyage from India and reequipped with unfamiliar weaponry on its arrival in France.Once in Europe, the problems of feeding, equipping, caring and commanding the Brigade all taxed the administration of the BEF. The differencing dietary requirements which the various racial and religious

groups, the lack of modern equipment such as trench mortars and the various medical needs also challenged the British Officers attached to the Brigade’s Battalions, most of whom were equally unused to the European conditions as their men even though many had served in numerous campaigns at home. The

paternal relationship between Officers and men in the Indian Battalions was a great strength but was to prove a weakness when British officers, who were familiar and understood their men, became casualties and had to be replaced with substitutes who struggled to fill the gap. It was assumed that th

e Indians could not fight efficiently without British Officers in command, but the book discuss how true this assumption really was and uses example where sepoys fought gallantly after their British Commanders have been killed or wounded.The Indian Corps had arrived in ’ the nick of time’. The BEF w

as exhausted and was hanging on having been engaged along the entire length of its sector. Consequently, Indian Brigades went straight to the front where they fought with great gallantly in very unfamiliar surroundings. This book attempts to explain how one Brigade coped with the task they had been

given while relating it to the struggle of The Indian Corps as a whole to adjust its strategy and tactics in a European War. Like a Tiger on an Ice Flow, Ferozepore Brigade had to learn to survive in a completely alien environment.

Medical equipment進入發燒排行的影片

應用自開發之程序控制系統於電漿電解氧化製程以探討氧化膜性能提升機制之研究

為了解決Medical equipment的問題，作者黃冠諭 這樣論述：

誌謝 I中文摘要 II英文摘要 IV目次 VI圖目次 X表目次 XVIIIChapter.1 前言 11.1 電漿電解氧化技術的發展背景 11.2 研究動機 4Chapter.2 電漿電解氧化處理 52.1 電漿電解氧化(PEO) 52.1.1 電漿電解氧化機制原理 62.1.2 膜層電擊穿機制 112.1.3 電漿電解氧化之電源參數影響 152.1.4 PEO製程的物理/化學反應機制 182.2 PEO氧化膜層特性 252.2.1 膜層的反應與形成機制 252.2.2 PEO處理中常見的基材金屬 292.3 PEO製程常見的電解

質成分 342.4 程序控制法 382.5 應用於Mn摻雜TiO2光催化劑薄膜 402.5.1 揮發性有機汙染物 402.5.2 光催化反應機制 412.5.3 Mott-Schottky方程 442.5.4 二氧化鈦光觸媒 462.5.5 二氧化鈦光觸媒的製備方法 512.5.6 提升二氧化鈦光觸媒光吸收效能之技術 542.6 應用於HA與L乳酸鈣於生醫改質氧化膜層 572.6.1 PEO於生醫改質之發展與應用 572.6.2 PEO生醫改質中常見的金屬植體 582.6.3 氫氧基磷灰石與L-乳酸鈣於生醫改質之用途 592.7 研究目的與實

驗規劃 61Chapter.3 程序控制法於PEO製程之應用 633.1 實驗方法 633.1.1 程序控制系統與設備 633.1.2 實驗設計 643.1.3 Mn: TiO2光催化劑實驗流程設計 683.1.4 以懸浮液搭配程序控制PEO製備TiO2膜層之流程設計 713.1.5 以離子溶液液搭配程序控制PEO製備TiO2膜層之流程設計 743.2 實驗基材選用與藥品準備 773.3 程序控制法於PEO製程基本分析 793.3.1 電源系統監控分析 793.3.2 膜層表面形貌與成分分析 793.3.3 孔徑與孔隙率分析 793.3.4

晶體結構相組成分析 803.3.5 紫外光－可見光吸收光譜分析 813.3.6 載子濃度分析 813.3.7 X射線光電子能譜分析 823.3.8 懸浮微粒之粒徑大小分析 83Chapter.4 多階段程序控制於PEO處理製備摻雜Mn: TiO2光催化劑 844.1 Mn: TiO2光催化劑特性探討 844.1.1 第一步驟製程設計對二氧化鈦膜層影響 844.1.2 不同含浸濃度錳離子對於二氧化鈦特性比較 904.1.3 不同電源模式含錳離子之二氧化鈦特性差異 1034.1.4 含浸法對錳離子含量之影響與離子機制之探討 1144.2 光觸媒催化效能測

試 119Chapter.5 以懸浮液搭配多階段程序控制PEO進行TiO2膜層製備 1215.1 HA於多階段程序控制PEO之影響 1215.1.1 單階段程序控制於PEO膜層特性之探討 1215.1.2 雙階段程序控制於PEO膜層特性之探討 1225.1.3 多階段程序控制於PEO膜層特性之探討 1295.2 HA於增加陽極氧化前處理之影響 1415.2.1 陽極處理膜層之特性探討 1415.2.2 陽極處理－多階段程序控制PEO膜層特性探討 142Chapter.6 以離子溶液搭配多階段程序控制PEO進行TiO2膜層製備 1626.1 電解液A於PE

O不同階段製程之膜層特性探討 1626.1.1 電解液A之乳酸鈣於雙階段PEO製程影響 1626.1.2 電解液A之乳酸鈣於三階段PEO製程影響 1706.2 電解液B於PEO不同階段製程之膜層特性探討 1736.2.1 電解液B之乳酸鈣於雙階段PEO製程影響 1736.2.2 電解液B之乳酸鈣於三階段PEO製程影響 182Chapter.7 結論與未來展望 1917.1 結論 1917.2 未來展望 192參考文獻 193

IMO初級航海英語會話

為了解決Medical equipment的問題，作者王鳳敏 這樣論述：

　　全球貨物運輸倚靠海運輸送，影響著全球的經濟和社會各層面，我國船隊載運能量也占全球重要地位。航海人員的英語能力素質，關係著海上人命、財產與船舶安全，海洋環境保護，及提昇團隊高效能營運。本書以2000年和2015年聯合國海事組織出版的Model Course 3.17中的General Maritime English(GME)所規範的基礎級(Elementary Level) 18項能力指標為架構和目標，編寫航海環境中的生活和工作情境會話，包括自我介紹、描述工作、岸上餐廳點餐、訂房、問路、通訊、海上氣象等，強調航海生活中使用英語溝通表達的人際互動。提供航海英文的基本字彙、常用英語文法

及語用功能，有別於航海課程的專業內容，操船舵令之類的技術與用語非本書重點。期幫助學習者順利養成良好的英語溝通能力，進而享受航海生涯。

開發米與幾丁質減積製程並提升酵素降解速率

為了解決Medical equipment的問題，作者陳衍齊 這樣論述：

米與幾丁質經酵素降解可得葡萄糖及N-Acetyglucosamine(GlcNAc)，在醫療技術上及營養層面皆展現非比尋常的價值，而粒子微小化可幫助其降解速率增加。本研究將米與幾丁質兩種生質原料經由兩階段磨碎，得到所需粒徑尺寸，並驗證其酵素反應的提升。於不同的機台進行物料尺寸的微小化時，物料的物化特性或是機台本身的參數設定都會影響機台將物料尺寸微小化的效率。於第一階段乾式切削時，由實驗設計及反應曲面法求得米在含水率 1.2 %、切削轉速17918 rpm及切削時間3 min時為最佳化操作參數；幾丁質在含水率5.5 %、切削轉速17837 rpm及切削時間6.4 min時為最佳操作參數。於第二

階段濕式研磨時，第一段以研磨轉速1400 rpm、研磨間距50 µm 及研磨時間1.5 hr，第二段以研磨轉速1400 rpm、研磨間距30 µm 及研磨時間4 hr 為最佳操參數，其平均粒徑達5.1 µm ；幾丁質於研磨轉速1400 rpm、研磨間距5 µm及研磨時間12 hr時為最佳操作參數，其平均粒徑達22.1 µm。另外於酵素反應下檢測反應速率變化，由Michaelis-Menten動力學方程式得知，在最佳操作參數下觀察米的粉體研磨情形，V_max提升11.5倍，於長時間反應下轉化率提升36倍；在最佳操作參數下觀察幾丁質粉體研磨情形，V_max提升26.1倍，於長時間反應下轉化率提升3

2.2倍。