公告版位

一、扫描电镜成象原理    扫描电镜主要用二次电 子观察形貌,成像原理如图所示。在扫描电镜中,电子枪发射出来的电子束,经三个电磁透镜聚焦后,成直径为几个纳米的电子束。末级透镜上部的扫描线圈能使电 子束在试样表面上做光栅状扫描。试样在电子束作用下,激发出各种信号,信号的强度取决于试样表面的形貌、受激区域的成分和晶体取向。设在试样附近的探测器 把激发出的电子信号接受下来,经信号处理放大系统后,输送到显象管栅极以调制显象管的亮度。由于显象管中的电子束和镜筒中的电子束是同步扫描的,显象管上 各点的亮度是由试样上各点激发出的电子信号强度来调制的,即由试样表面上任一点所收集来的信号强度与显象管屏上相应点亮度之间是一一对应的。因此,试样各 点状态不同,显象管各点相应的亮度也必不同,由此

得到的象一定是试样状态的反映。放置在试样斜上方的波谱仪和能谱仪是用来收集X射线,借以 实现X射线微区成分分析的。值得强调的是,入射电子束在试样表面上是逐点扫描的,象是逐点记录的,因此试样各点所激发出来的各种信号都可选录出来,并可同 时在相邻的几个显象管上显示出来,这给试样综合分析带来极大的方便。

二、扫描电镜成象衬度特点二次电子的象衬度与试样表面的几何状态有关, 二次电子的探测具有无影效应背散射电子特点背散射电子是指入射电子与试样相互作用(弹性和非弹性散射)之后,再次逸出试样表面的高能电子,其能量接近于入 射电子能量( E。)。背散射电子的产额随试样的原子序数增大而增加,IμZ2/3-3/4。所以,背散射电子信号的强度与试样的化学组成有关,即与组成试样的各元素平 均原子序数有关。分辨率不如二次电子象,有较强的阴影效应,图象有浮雕感。三、SEM的主要特点1、放大倍率高    可从几十倍放大到几十万倍,连续可 调。观察样品极为方便。2、分辨率高    分辨率是指能分辨的两点之间的最小距离。SEM是用电子束照射试样,目前用W灯丝的SEM,分辨率已达到 3nm-6nm, 场发射源SEM分辨率可达到1nm 。    仪器的分辨率指标不是日常工作能实现的。拍摄分辨率照片是用碳镀金的特殊试样,拍照时规定一些特殊条件,如放大倍率、电子束电流、加速电压等, 有时要晚上没有任何振动和干扰情况下进行多次拍照,寻找最好的图像测量分辨率。3、景深大    景深大的图像立体感强,对粗糙不平的断口试样观察需要大 景深。一般情况下,SEM景深比TEM大10倍,比光学显微镜(OM)大100倍。如10000倍时,TEM 的Δf=1?m,SEM的Δf=10?m; 100倍时,OM的Δf=10?m,SEM的Δf=1000?m。4、保真度好    试样通常不需要作任何处理即可以直接进行形貌观察,所以不会由于制 样原因而产生假象。这对断口的失效分析及贵重试样的分析特别重要。5、试样制备简单    试样可以是自然面、断口、块状、粉体、反光及透光光片,对不导 电的试样只需蒸镀一层10nm左右的导电膜。    另外,现在许多SEM具有图像处理和图像分析功能。有的SEM加入附件后,能进行加热、冷却、拉伸及 弯曲等动态过程的观察。



引用出處: 

 http://jyjx.heut.edu.cn/cszx/fenxiceshizhongxin/ziyuangongxiang/fenxijishu/smdjcxy.htm

歡迎來到Bewise Inc.的世界,首先恭喜您來到這接受新的資訊讓產業更有競爭力,我們是提供專業刀具製造商,應對客戶高品質的刀具需求,我們可以協助客戶滿足您對產業的不同要求,我們有能力達到非常卓越的客戶需求品質,這是現有相關技術無法比擬的,我們成功的滿足了各行各業的要求,包括:精密HSS DIN切削刀具協助客戶設計刀具流程DIN or JIS 鎢鋼切削刀具設計NAS986 NAS965 NAS897 NAS937orNAS907 航太切削刀具,NAS航太刀具設計超高硬度的切削刀具醫療配件刀具設計複合式再研磨機PCD地板專用企口鑽石組合刀具粉末造粒成型機主機版專用頂級電桿PCD V-Cut捨棄式圓鋸片組粉末成型機航空機械鉸刀主機版專用頂級電汽車業刀具設計電子產業鑽石刀具木工產業鑽石刀具銑刀與切斷複合再研磨機銑刀與鑽頭複合再研磨機銑刀與螺絲攻複合再研磨機等等。我們的產品涵蓋了從民生刀具到工業級的刀具設計;從微細刀具到大型刀具;從小型生產到大型量產;全自動整合;我們的技術可提供您連續生產的效能,我們整體的服務及卓越的技術,恭迎您親自體驗!!

BW Bewise Inc. Willy Chen willy@tool-tool.com  bw@tool-tool.com  www.tool-tool.com skype:willy_chen_bw mobile:0937-618-190 Head &Administration Office No.13,Shiang Shang 2nd St., West Chiu Taichung,Taiwan 40356 http://www.tool-tool.com/ / FAX:+886 4 2471 4839 N.Branch 5F,No.460,Fu Shin North Rd.,Taipei,Taiwan S.Branch No.24,Sec.1,Chia Pu East Rd.,Taipao City,Chiayi Hsien,Taiwan

Welcome to BW tool world! We are an experienced tool maker specialized in cutting tools. We focus on what you need and endeavor to research the best cutter to satisfy users demand. Our customers involve wide range of industries, like mold & die, aerospace, electronic, machinery, etc. We are professional expert in cutting field. We would like to solve every problem from you. Please feel free to contact us, its our pleasure to serve for you. BW product including: cutting toolaerospace tool .HSS  DIN Cutting toolCarbide end millsCarbide cutting toolNAS Cutting toolNAS986 NAS965 NAS897 NAS937orNAS907 Cutting Tools,Carbide end milldisc milling cutter,Aerospace cutting toolhss drillФрезерыCarbide drillHigh speed steelCompound SharpenerMilling cutterINDUCTORS FOR PCD’CVDD(Chemical Vapor Deposition Diamond )’PCBN (Polycrystalline Cubic Boron Nitride) Core drillTapered end millsCVD Diamond Tools Inserts’PCD Edge-Beveling Cutter(Golden FingerPCD V-CutterPCD Wood toolsPCD Cutting toolsPCD Circular Saw BladePVDD End Millsdiamond tool. INDUCTORS FOR PCD . POWDER FORMING MACHINE Single Crystal Diamond Metric end millsMiniature end millsСпециальные режущие инструменты Пустотелое сверло Pilot reamerFraisesFresas con mango PCD (Polycrystalline diamond) ‘FresePOWDER FORMING MACHINEElectronics cutterStep drillMetal cutting sawDouble margin drillGun barrelAngle milling cutterCarbide burrsCarbide tipped cutterChamfering toolIC card engraving cutterSide cutterStaple CutterPCD diamond cutter specialized in grooving floorsV-Cut PCD Circular Diamond Tipped Saw Blade with Indexable Insert PCD Diamond Tool Saw Blade with Indexable InsertNAS toolDIN or JIS toolSpecial toolMetal slitting sawsShell end millsSide and face milling cuttersSide chip clearance sawsLong end millsend mill grinderdrill grindersharpenerStub roughing end millsDovetail milling cuttersCarbide slot drillsCarbide torus cuttersAngel carbide end millsCarbide torus cuttersCarbide ball-nosed slot drillsMould cutterTool manufacturer.

Bewise Inc.  www.tool-tool.com

ようこそBewise Inc.の世界へお越し下さいませ、先ず御目出度たいのは新たな

情報を受け取って頂き、もっと各産業に競争力プラス展開。

弊社は専門なエンドミルの製造メーカーで、客先に色んな分野のニーズ

豊富なパリエーションを満足させ、特にハイテク品質要求にサポート致します。

弊社は各領域に供給できる内容は:

(1)精密HSSエンドミルのR&D

(2)Carbide Cutting tools設計

(3)鎢鋼エンドミル設計

(4)航空エンドミル設計

(5)超高硬度エンドミル

(6)ダイヤモンドエンドミル

(7)医療用品エンドミル設計

(8)自動車部品&材料加工向けエンドミル設計

弊社の製品の供給調達機能は:

(1)生活産業~ハイテク工業までのエンドミル設計

(2)ミクロエンドミル~大型エンドミル供給

(3)小Lot生産~大量発注対応供給

(4)オートメーション整備調達

(5)スポット対応~流れ生産対応

弊社の全般供給体制及び技術自慢の総合専門製造メーカーに貴方のご体験を御待ちしております。   

Bewise Inc. talaşlı imalat sanayinde en fazla kullanılan ve üç eksende (x,y,z) talaş kaldırabilen freze takımlarından olan Parmak Freze imalatçısıdır. Çok geniş ürün yelpazesine sahip olan firmanın başlıca ürünlerini Karbür Parmak Frezeler, Kalıpçı Frezeleri, Kaba Talaş Frezeleri, Konik Alın Frezeler, Köşe Radyüs Frezeler, İki Ağızlı Kısa ve Uzun Küresel Frezeler, İç Bükey Frezeler vb. şeklinde sıralayabiliriz.

BW специализируется в научных исследованиях и разработках, и снабжаем самым высокотехнологичным карбидовым материалом для поставки режущих / фрезеровочных инструментов для почвы, воздушного пространства и электронной индустрии. В нашу основную продукцию входит твердый карбид / быстрорежущая сталь, а также двигатели, микроэлектрические дрели, IC картонорезальные машины, фрезы для гравирования, режущие пилы, фрезеры-расширители, фрезеры-расширители с резцом, дрели, резаки форм для шлицевого вала / звездочки роликовой цепи, и специальные нано инструменты. Пожалуйста, посетите сайт  www.tool-tool.com  для получения большей информации.

BW is specialized in R&D and sourcing the most advanced carbide material with high-tech coating to supply cutting / milling tool for mould & die, aero space and electronic industry. Our main products include solid carbide / HSS end mills, micro electronic drill, IC card cutter, engraving cutter, shell end mills, cutting saw, reamer, thread reamer, leading drill, involute gear cutter for spur wheel, rack and worm milling cutter, thread milling cutter, form cutters for spline shaft/roller chain sprocket, and special tool, with nano grade. Please visit our web  www.tool-tool.com  for more info.

 

beeway 發表在 痞客邦 留言(0) 人氣()

   样品上需要照明的区域大小与放大倍数 有关.放大倍数愈高,照明区域愈小,相应地要求以更细的电子束照明样品.由电子枪直接发射出的电子束的束斑尺寸较大,相干性也较差。为了更有效地利用这些 电子,获得亮度高、相干性好的照明电子束以满足透射电镜在不同放大倍数下的需要,由电子枪子枪发射出来的电子束还需要进一步会聚,提供束斑尺寸不同、近似 平行的照明束.这个任务通常由两个被叫做聚光镜的电磁透镜完成.图中C1和C2分别表示第一聚光镜和第二聚光镜.C1通常保持不变,其作用是将电子枪的交 叉点成一缩小的像,使其尺寸缩小一个数量级以上.此外,在照明系统中还安装有束倾斜装置,可以很方便地使电子束在2°~3°的范围内倾斜,以便以某些特定 的倾斜角度照明样品。

引用出處: 

 http://jyjx.heut.edu.cn/cszx/fenxiceshizhongxin/ziyuangongxiang/fenxijishu/tsdzxwjd.htm

歡迎來到Bewise Inc.的世界,首先恭喜您來到這接受新的資訊讓產業更有競爭力,我們是提供專業刀具製造商,應對客戶高品質的刀具需求,我們可以協助客戶滿足您對產業的不同要求,我們有能力達到非常卓越的客戶需求品質,這是現有相關技術無法比擬的,我們成功的滿足了各行各業的要求,包括:精密HSS DIN切削刀具協助客戶設計刀具流程DIN or JIS 鎢鋼切削刀具設計NAS986 NAS965 NAS897 NAS937orNAS907 航太切削刀具,NAS航太刀具設計超高硬度的切削刀具醫療配件刀具設計複合式再研磨機PCD地板專用企口鑽石組合刀具粉末造粒成型機主機版專用頂級電桿PCD V-Cut捨棄式圓鋸片組粉末成型機航空機械鉸刀主機版專用頂級電汽車業刀具設計電子產業鑽石刀具木工產業鑽石刀具銑刀與切斷複合再研磨機銑刀與鑽頭複合再研磨機銑刀與螺絲攻複合再研磨機等等。我們的產品涵蓋了從民生刀具到工業級的刀具設計;從微細刀具到大型刀具;從小型生產到大型量產;全自動整合;我們的技術可提供您連續生產的效能,我們整體的服務及卓越的技術,恭迎您親自體驗!!

BW Bewise Inc. Willy Chen willy@tool-tool.com  bw@tool-tool.com  www.tool-tool.com skype:willy_chen_bw mobile:0937-618-190 Head &Administration Office No.13,Shiang Shang 2nd St., West Chiu Taichung,Taiwan 40356 http://www.tool-tool.com/ / FAX:+886 4 2471 4839 N.Branch 5F,No.460,Fu Shin North Rd.,Taipei,Taiwan S.Branch No.24,Sec.1,Chia Pu East Rd.,Taipao City,Chiayi Hsien,Taiwan

Welcome to BW tool world! We are an experienced tool maker specialized in cutting tools. We focus on what you need and endeavor to research the best cutter to satisfy users demand. Our customers involve wide range of industries, like mold & die, aerospace, electronic, machinery, etc. We are professional expert in cutting field. We would like to solve every problem from you. Please feel free to contact us, its our pleasure to serve for you. BW product including: cutting toolaerospace tool .HSS  DIN Cutting toolCarbide end millsCarbide cutting toolNAS Cutting toolNAS986 NAS965 NAS897 NAS937orNAS907 Cutting Tools,Carbide end milldisc milling cutter,Aerospace cutting toolhss drillФрезерыCarbide drillHigh speed steelCompound SharpenerMilling cutterINDUCTORS FOR PCD’CVDD(Chemical Vapor Deposition Diamond )’PCBN (Polycrystalline Cubic Boron Nitride) Core drillTapered end millsCVD Diamond Tools Inserts’PCD Edge-Beveling Cutter(Golden FingerPCD V-CutterPCD Wood toolsPCD Cutting toolsPCD Circular Saw BladePVDD End Millsdiamond tool. INDUCTORS FOR PCD . POWDER FORMING MACHINE Single Crystal Diamond Metric end millsMiniature end millsСпециальные режущие инструменты Пустотелое сверло Pilot reamerFraisesFresas con mango PCD (Polycrystalline diamond) ‘FresePOWDER FORMING MACHINEElectronics cutterStep drillMetal cutting sawDouble margin drillGun barrelAngle milling cutterCarbide burrsCarbide tipped cutterChamfering toolIC card engraving cutterSide cutterStaple CutterPCD diamond cutter specialized in grooving floorsV-Cut PCD Circular Diamond Tipped Saw Blade with Indexable Insert PCD Diamond Tool Saw Blade with Indexable InsertNAS toolDIN or JIS toolSpecial toolMetal slitting sawsShell end millsSide and face milling cuttersSide chip clearance sawsLong end millsend mill grinderdrill grindersharpenerStub roughing end millsDovetail milling cuttersCarbide slot drillsCarbide torus cuttersAngel carbide end millsCarbide torus cuttersCarbide ball-nosed slot drillsMould cutterTool manufacturer.

Bewise Inc.  www.tool-tool.com

ようこそBewise Inc.の世界へお越し下さいませ、先ず御目出度たいのは新たな

情報を受け取って頂き、もっと各産業に競争力プラス展開。

弊社は専門なエンドミルの製造メーカーで、客先に色んな分野のニーズ

豊富なパリエーションを満足させ、特にハイテク品質要求にサポート致します。

弊社は各領域に供給できる内容は:

(1)精密HSSエンドミルのR&D

(2)Carbide Cutting tools設計

(3)鎢鋼エンドミル設計

(4)航空エンドミル設計

(5)超高硬度エンドミル

(6)ダイヤモンドエンドミル

(7)医療用品エンドミル設計

(8)自動車部品&材料加工向けエンドミル設計

弊社の製品の供給調達機能は:

(1)生活産業~ハイテク工業までのエンドミル設計

(2)ミクロエンドミル~大型エンドミル供給

(3)小Lot生産~大量発注対応供給

(4)オートメーション整備調達

(5)スポット対応~流れ生産対応

弊社の全般供給体制及び技術自慢の総合専門製造メーカーに貴方のご体験を御待ちしております。   

Bewise Inc. talaşlı imalat sanayinde en fazla kullanılan ve üç eksende (x,y,z) talaş kaldırabilen freze takımlarından olan Parmak Freze imalatçısıdır. Çok geniş ürün yelpazesine sahip olan firmanın başlıca ürünlerini Karbür Parmak Frezeler, Kalıpçı Frezeleri, Kaba Talaş Frezeleri, Konik Alın Frezeler, Köşe Radyüs Frezeler, İki Ağızlı Kısa ve Uzun Küresel Frezeler, İç Bükey Frezeler vb. şeklinde sıralayabiliriz.

BW специализируется в научных исследованиях и разработках, и снабжаем самым высокотехнологичным карбидовым материалом для поставки режущих / фрезеровочных инструментов для почвы, воздушного пространства и электронной индустрии. В нашу основную продукцию входит твердый карбид / быстрорежущая сталь, а также двигатели, микроэлектрические дрели, IC картонорезальные машины, фрезы для гравирования, режущие пилы, фрезеры-расширители, фрезеры-расширители с резцом, дрели, резаки форм для шлицевого вала / звездочки роликовой цепи, и специальные нано инструменты. Пожалуйста, посетите сайт  www.tool-tool.com  для получения большей информации.

BW is specialized in R&D and sourcing the most advanced carbide material with high-tech coating to supply cutting / milling tool for mould & die, aero space and electronic industry. Our main products include solid carbide / HSS end mills, micro electronic drill, IC card cutter, engraving cutter, shell end mills, cutting saw, reamer, thread reamer, leading drill, involute gear cutter for spur wheel, rack and worm milling cutter, thread milling cutter, form cutters for spline shaft/roller chain sprocket, and special tool, with nano grade. Please visit our web  www.tool-tool.com  for more info.

 

 

 

 

 

2、 成像系统    该系统包括样品室、物镜、中间镜、反差光栏、衍射光栏、投射镜以及其它电子光学部件。样品室有一套机构,保证样品经常更换时不破坏主体的 真空。样品可在X、Y二方向移动,以便找到所要观察的位置。经过会聚镜得到的平行电子束照射到样品上,穿过样品后就带有反映样品特征的信息,经物镜和反差 光栏作用形成一次电子图象,再经中间镜和投射镜放大一次后,在荧光屏上得到最后的电子图象。

 

        照明系统提供了一束相干性很好的照明电子束,这些电子穿越样品后便携带样品的结构信息,沿各自不同的方向传播(比如,当存在满足布拉格方程的晶面组时,可 能在与入射束交成2θ角的方向上产生衍射束).物镜将来自样品不同部位、传播方向相同的电子在其背焦面上会聚为一个斑点,沿不同方向传播的电子相应地形成 不同的斑点,其中散射角为零的直射束被会聚于物镜的焦点,形成中心斑点.这样,在物镜的背焦面上便形成了衍射花样.而在物镜的像平面上,这些电子束重新组 合相干成像.通过调整中间镜的透镜电流,使中间镜的物平面与物镜的背焦面重合,可在荧光屏上得到衍射花样若使中间镜的物平面与物镜的像平面重合则得到显微 像.通过两个中间镜相互配合,可实现在较大范围内调整相机长度和放大倍数。

 

 

         透射电子显微镜与透射光学显微镜光路比较

3、 观察照相室    电子图像反映在荧光屏上。荧光发光和电子束流成正比。把荧光屏换成电子干板,即可照相。干板的感光能力与其波长有关。4、真空系 统    真空系统由机械泵、油扩散泵、离子泵、真空测量仪表及真空管道组成。它的作用是排除镜筒内气体,使镜筒真空度至少要在10-5托以上,目前最好 的真空度可以达到10-9—10-10托。如果真空度低的话,电子与气体分子之间的碰撞引起散射而影响衬度,还会使电子栅极与阳极间高压电离导致极间放 电,残余的气体还会腐蚀灯丝,污染样品。5、供电控制系统    加速电压和透镜磁电流不稳定将会产生严重的色差及降低电镜的分辨本领,所以加速电压和透 镜电流的稳定度是衡量电镜性能好坏的一个重要标准。透射电镜的电路主要由以下部分组成,高压直流电源、透镜励磁电源、偏转器线圈电源、电子枪灯丝加热电 源,以及真空系统控制电路、真空泵电源、照相驱动装置及自动曝光电路等。    另外,许多高性能的电镜上还装备有扫描附件、能谱议、电子能量损失谱等仪器。

 

beeway 發表在 痞客邦 留言(0) 人氣()

自1896年X射线被发现以来,可利用X射线分辨的 物质系统越来越复杂。从简单物质系统到复杂的生物大分子,X射线已经为我们提供了很多关于物质静态结构的信息。此外,在 各种测量方法中,X射线衍射方法具有不损伤样品、无污染、快捷、测量精度高、能得到有关晶体完整性的大量信息等优点。由于晶体存在的普遍性和晶体的特殊性 能及其在计算机、航空航天、能源、生物工程等工业领域的广泛应用,人们对晶体的研究日益深入,使得X射线衍射分析成为研究晶体最方便、最重要的手段。本文 主要介绍X射线衍射的原理和应用。1、 X射线衍射原理

 

1912年劳埃等人根据理论预见,并用实验证实了X射线与晶体相 遇时能发生衍射现象,证明了X射线具有电磁波的性质,成为X射线衍射学的第一个里程碑。当一束单色X射线入射到晶体时,由于晶体是由原子规则排列成的晶胞 组成,这些规则排列的原子间距离与入射X射线波长有相同数量级,故由不同原子散射的X射线相互干涉,在某些特殊方向上产生强X射线衍射,衍射线在空间分布 的方位和强度,与晶体结构密切相关。这就是X射线衍射的基本原理 。衍射线空间方位与晶体结构的关系可用布拉格方程表示:     1.1 运动学衍射理论

 

Darwin的理论称为X射线衍射运动学理论。该理论把衍射现象作为三维Frannhofer衍射问题来处 理,认为晶体的每个体积元的散射与其它体积元的散射无关,而且散射线通过晶体时不会再被散射。虽然这样处理可以得出足够精确的衍射方向,也能得出衍射强 度,但运动学理论的根本性假设并不完全合理。因为散射线在晶体内一定会被再次散射,除了与原射线相结合外,散射线之间也能相互结合。Darwin不久以后 就认识到这点,并在他的理论中作出了多重散射修正。1.2 动力学衍射理论

 

    Ewald的理论称为动力学理论。该理论考虑到了晶体内所有波的相互作用,认为入射线与衍射线在晶体内相干地结合,而且能来回地交换能量。两种理论对细小 的晶体粉末得到的强度公式相同,而对大块完整的晶体,则必须采用动力学理论才能得出正确的结果。动力学理论在参考文献里有详细介绍。2 X射线衍射方法:

 

    研究晶体材料,X射线衍射方法非常理想非常有效,而对于液体和非晶态物固体,这种方法也能提供许多基本的重要数据。所以X射线衍射法被认为是研究固体最有 效的工具。在各种衍射实验方法中,基本方法有单晶法、多晶法和双晶法。<span>2.1 单晶衍射法</span>

 

    单晶X射线衍射分析的基本方法为劳埃法与周转晶体法。2.1.1 劳埃法

 

    劳埃法以光源发出连续X射线照射置于样品台上静止的单晶体样品,用平板底片记录产生的衍射线。根据底片位置的不同,劳埃法可以分为透射劳埃法和背射劳埃 法。背射劳埃法不受样品厚度和吸收的限制,是常用的方法。劳埃法的衍射花样由若干劳埃斑组成,每一个劳埃斑相应于晶面的1~n级反射,各劳埃斑的分布构成 一条晶带曲线。2.1.2 周转晶体法

 

    周转晶体法以单色X射线照射转动的单晶样品,用以样品转动轴为轴线的圆柱形底片记录产生的衍射线,在底片上形成分立的衍射斑。这样的衍射花样容易准确测定 晶体的衍射方向和衍射强度,适用于未知晶体的结构分析。周转晶体法很容易分析对称性较低的晶体(如正交、单斜、三斜等晶系晶体)结构,但应用较少。2.2 多晶衍射法

 

    多晶X射线衍射方法包括照相法与衍射仪法。2.2.1 照相法

 

    照相法以光源发出的特征X射线照射多晶样品,并用底片记录衍射花样。根据样品与底片的相对位置,照相法可以分为德拜法、聚焦法和针孔法,其中德拜法应用最 为普遍。    德拜法以一束准直的特征X射线照射到小块粉末样品上,用卷成圆柱状并与样品同轴安装的窄条底片记录衍射信息,获得的衍射花样是一些衍射弧。此方法的优点 为:⑴ 所用试样量少(0.1毫克即可);⑵ 包含了试样产生的全部反射线;⑶ 装置和技术比较简单。    聚焦法的底片与样品处于同一圆周上,以具有较大发散度的单色X射线照射样品上较大区域。由于同一圆周上的同弧圆周角相等,使得多晶样品中的等同晶面的衍射 线在底片上聚焦成一点或一条线。聚焦法曝光时间短,分辨率是德拜法的两倍,但在小θ 范围衍射线条较少且宽,不适于分析未知样品。    针孔法用三个针孔准直的单色X射线为光源,照射到平板样品上。根据底片不同的位置针孔法又分为穿透针孔法和背射针孔法。针孔法得到的衍射花样是衍射线的整 个圆环,适于研究晶粒大小、晶体完整性、宏观残余应力及多晶试样中的择优取向等。但这种方法只能记录很少的几个衍射环,不适于其它应用。2.2.2 衍射仪法

 

    X射线衍射仪以布拉格实验装置为原型,融合了机械与电子技术等多方面的成果。衍射仪由X射线发生器、X射线测角仪、辐射探测器和辐射探测电路4个基本部分 组成,是以特征X射线照射多晶体样品,并以辐射探测器记录衍射信息的衍射实验装置。现代X射线衍射仪还配有控制操作和运行软件的计算机系统。    X射线衍射仪的成像原理与聚集法相同,但记录方式及相应获得的衍射花样不同。衍射仪采用具有一定发散度的入射线,也用“同一圆周上的同弧圆周角相等”的原 理聚焦,不同的是其聚焦圆半径随 2θ的变化而变化。    衍射仪法以其方便、快捷、准确和可以自动进行数据处理等特点在许多领域中取代了照相法,现在已成为晶体结构分析等工作的主要方法。2.3 双晶衍射法

 

    双晶衍射仪用一束X射线(通常用Ka1作为射线源)照射一个参考晶体的表面,使符合布拉格条件的某一波长的X射线在很小角度范围内被反射,这样便得到接近 单色并受到偏振化的窄反射线,再用适当的光阑作为限制,就得到近乎准值的X射线束。把此X射线作为第二晶体的入射线,第二晶体和计数管在衍射位置附近分别 以Δθ 及Δ(2θ)角度摆动,就形成通常的双晶衍射仪。    在近完整晶体中,缺陷、畸变等体现在X射线谱中只有几十弧秒,而半导体材料进行外延生长要求晶格失配要达到10-4或更小。这样精细的要求使双晶X射线衍 射技术成为近代光电子材料及器件研制的必备测量仪器,以双晶衍射技术为基础而发展起来的四晶及五晶衍射技术(亦称为双晶衍射),已成为近代X射线衍射技术 取得突出成就的标志。但双晶衍射仪的第二晶体最好与第一晶体是同种晶体,否则会发生色散。所以在测量时,双晶衍射仪的参考晶体要与被测晶体相同,这个要求 使双晶衍射仪的使用受到限制。3 X射线衍射分析的应用

 

3.1 物相分析

 

    晶体的X射线衍射图像实质上是晶体微观结构的一种精细复杂的变换,每种晶体的结构与其X射线衍射图之间都有着一一对应的关系,其特征X射线衍射图谱不会因 为它种物质混聚在一起而产生变化,这就是X射线衍射物相分析方法的依据。制备各种标准单相物质的衍射花样并使之规范化,将待分析物质的衍射花样与之对照, 从而确定物质的组成相,就成为物相定性分析的基本方法。鉴定出各个相后,根据各相花样的强度正比于改组分存在的量(需要做吸收校正者除外),就可对各种组 分进行定量分析。目前常用衍射仪法得到衍射图谱,用“粉末衍射标准联合会(JCPDS)”负责编辑出版的“粉末衍射卡片(PDF卡片)”进行物相分 析。    目前,物相分析存在的问题主要有:⑴ 待测物图样中的最强线条可能并非某单一相的最强线,而是两个或两个以上相的某些次强或三强线叠加的结果。这时若以该线作为某相的最强线将找不到任何对应的 卡片。⑵ 在众多卡片中找出满足条件的卡片,十分复杂而繁锁。虽然可以利用计算机辅助检索,但仍难以令人满意。⑶ 定量分析过程中,配制试样、绘制定标曲线或者K值测定及计算,都是复杂而艰巨的工作。为此,有人提出了可能的解决办法,认为 从相反的角度出发,根据标准数据(PDF卡片)利用计算机对定性分析的初步结果进行多相拟合显示,绘出衍射角与衍射强度的模拟衍射曲线。通过调整每一物相 所占的比例,与衍射仪扫描所得的衍射图谱相比较,就可以更准确地得到定性和定量分析的结果,从而免去了一些定性分析和整个定量分析的实验和计算过程。 3.2 点阵常数的精确测定

 

点阵常数是晶体物质的基本结构参数,测定点阵常数在研究固态相变、确定固溶体类型、测定固溶 体溶解度曲线、测定热膨胀系数等方面都得到了应用。点阵常数的测定是通过X射线衍射线的位置(θ )的测定而获得的,通过测定衍射花样中每一条衍射线的位置均可得出一个点阵常数值。点阵常数测定中的精确度涉及两个独立的问题,即波长的精度和布拉格角的 测量精度。波长的问题主要是X射线谱学家的责任,衍射工作者的任务是要在波长分布与衍射线分布之间建立一一对应的关系。知道每根反射线的密勒指数后就可以 根据不同的晶系用相应的公式计算点阵常数。晶面间距测量的精度随θ 角的增加而增加, θ越大得到的点阵常数值越精确,因而点阵常数测定时应选用高角度衍射线。误差一般采用图解外推法和最小二乘法来消除,点阵常数测定的精确度极限处在 1×10-5附近。3.3 应力的测定

 

    X射线测定应力以衍射花样特征的变化作为应变的量度。宏观应力均匀分布在物体中较大范围内,产生的均匀应变表现为该范围内方向相同的各晶粒中同名晶面间距 变化相同,导致衍射线向某方向位移,这就是X射线测量宏观应力的基础;微观应力在各晶粒间甚至一个晶粒内各部分间彼此不同,产生的不均匀应变表现为某些区 域晶面间距增加、某些区域晶面间距减少,结果使衍射线向不同方向位移,使其衍射线漫散宽化,这是X射线测量微观应力的基础。超微观应力在应变区内使原子偏 离平衡位置,导致衍射线强度减弱,故可以通过X射线强度的变化测定超微观应力。测定应力一般用衍射仪法。    X射线测定应力具有非破坏性,可测小范围局部应力,可测表层应力,可区别应力类型、测量时无需使材料处于无应力状态等优点,但其测量精确度受组织结构的影 响较大,X射线也难以测定动态瞬时应力。3.4 晶粒尺寸和点阵畸变的测定

 

    若多晶材料的晶粒无畸变、足够大,理论上其粉末衍射花样的谱线应特别锋利,但在实际实验中,这种谱线无法看到。这是因为仪器因素和物理因素等的综合影响, 使纯衍射谱线增宽了。纯谱线的形状和宽度由试样的平均晶粒尺寸、尺寸分布以及晶体点阵中的主要缺陷决定,故对线形作适当分析,原则上可以得到上述影响因素 的性质和尺度等方面的信息。    在晶粒尺寸和点阵畸变测定过程中,需要做的工作有两个:⑴ 从实验线形中得出纯衍射线形,最普遍的方法是傅里叶变换法和重复连续卷积法。⑵ 从衍射花样适当的谱线中得出晶粒尺寸和缺陷的信息。这个步骤主要是找出各种使谱线变宽的因素,并且分离这些因素对宽度的影响,从而计算出所需要的结果。主 要方法有傅里叶法、线形方差法和积分宽度法。3.5 单晶取向和多晶织构测定

 

    单晶取向的测定就是找出晶体样品中晶体学取向与样品外坐标系的位向关系。虽然可以用光学方法等物理方法确定单晶取向,但X衍射法不仅可以精确地单晶定向, 同时还能得到晶体内部微观结构的信息。一般用劳埃法单晶定向,其根据是底片上劳埃斑点转换的极射赤面投影与样品外坐标轴的极射赤面投影之间的位置关系。透 射劳埃法只适用于厚度小且吸收系数小的样品;背射劳埃法就无需特别制备样品,样品厚度大小等也不受限制,因而多用此方法 。    多晶材料中晶粒取向沿一定方位偏聚的现象称为织构,常见的织构有丝织构和板织构两种类型。为反映织构的概貌和确定织构指数,有三种方法描述织构:极图、反 极图和三维取向函数,这三种方法适用于不同的情况。对于丝织构,要知道其极图形式,只要求出求其丝轴指数即可,照相法和衍射仪法是可用的方法。板织构的极 点分布比较复杂,需要两个指数来表示,且多用衍射仪进行测定 。4 展望

 

    随着X射线衍射技术越来越先进,X射线衍射法的用途也越来越广泛,除了在无机晶体材料中的应用,已经在有机材料、钢铁冶金、以及纳米材料的研究领域中发挥 出巨大作用,并且还应用于瞬间动态过程的测量。计算机的普遍使用让各种测量仪器的功能变得强大,测试过程变得简单快捷,双晶衍射、多重衍射也越来越完善。 但是,随之而来的软件也缺陷越来越明显,在各种分析过程中,软件分析检索的准确度都不尽人意。    纵观整个X射线衍射领域,可以看出仪器设备的精密化和多用途化是一个发展趋势,然而各种设备运行的软件明显落后于设备的发展,所以今后迫切的需要是软件系 统的更新和完善。

引用出處: 

 http://jyjx.heut.edu.cn/cszx/fenxiceshizhongxin/ziyuangongxiang/fenxijishu/fenxijishu.htm

歡迎來到Bewise Inc.的世界,首先恭喜您來到這接受新的資訊讓產業更有競爭力,我們是提供專業刀具製造商,應對客戶高品質的刀具需求,我們可以協助客戶滿足您對產業的不同要求,我們有能力達到非常卓越的客戶需求品質,這是現有相關技術無法比擬的,我們成功的滿足了各行各業的要求,包括:精密HSS DIN切削刀具協助客戶設計刀具流程DIN or JIS 鎢鋼切削刀具設計NAS986 NAS965 NAS897 NAS937orNAS907 航太切削刀具,NAS航太刀具設計超高硬度的切削刀具醫療配件刀具設計複合式再研磨機PCD地板專用企口鑽石組合刀具粉末造粒成型機主機版專用頂級電桿PCD V-Cut捨棄式圓鋸片組粉末成型機航空機械鉸刀主機版專用頂級電汽車業刀具設計電子產業鑽石刀具木工產業鑽石刀具銑刀與切斷複合再研磨機銑刀與鑽頭複合再研磨機銑刀與螺絲攻複合再研磨機等等。我們的產品涵蓋了從民生刀具到工業級的刀具設計;從微細刀具到大型刀具;從小型生產到大型量產;全自動整合;我們的技術可提供您連續生產的效能,我們整體的服務及卓越的技術,恭迎您親自體驗!!

BW Bewise Inc. Willy Chen willy@tool-tool.com  bw@tool-tool.com  www.tool-tool.com skype:willy_chen_bw mobile:0937-618-190 Head &Administration Office No.13,Shiang Shang 2nd St., West Chiu Taichung,Taiwan 40356 http://www.tool-tool.com/ / FAX:+886 4 2471 4839 N.Branch 5F,No.460,Fu Shin North Rd.,Taipei,Taiwan S.Branch No.24,Sec.1,Chia Pu East Rd.,Taipao City,Chiayi Hsien,Taiwan

Welcome to BW tool world! We are an experienced tool maker specialized in cutting tools. We focus on what you need and endeavor to research the best cutter to satisfy users demand. Our customers involve wide range of industries, like mold & die, aerospace, electronic, machinery, etc. We are professional expert in cutting field. We would like to solve every problem from you. Please feel free to contact us, its our pleasure to serve for you. BW product including: cutting toolaerospace tool .HSS  DIN Cutting toolCarbide end millsCarbide cutting toolNAS Cutting toolNAS986 NAS965 NAS897 NAS937orNAS907 Cutting Tools,Carbide end milldisc milling cutter,Aerospace cutting toolhss drillФрезерыCarbide drillHigh speed steelCompound SharpenerMilling cutterINDUCTORS FOR PCD’CVDD(Chemical Vapor Deposition Diamond )’PCBN (Polycrystalline Cubic Boron Nitride) Core drillTapered end millsCVD Diamond Tools Inserts’PCD Edge-Beveling Cutter(Golden FingerPCD V-CutterPCD Wood toolsPCD Cutting toolsPCD Circular Saw BladePVDD End Millsdiamond tool. INDUCTORS FOR PCD . POWDER FORMING MACHINE Single Crystal Diamond Metric end millsMiniature end millsСпециальные режущие инструменты Пустотелое сверло Pilot reamerFraisesFresas con mango PCD (Polycrystalline diamond) ‘FresePOWDER FORMING MACHINEElectronics cutterStep drillMetal cutting sawDouble margin drillGun barrelAngle milling cutterCarbide burrsCarbide tipped cutterChamfering toolIC card engraving cutterSide cutterStaple CutterPCD diamond cutter specialized in grooving floorsV-Cut PCD Circular Diamond Tipped Saw Blade with Indexable Insert PCD Diamond Tool Saw Blade with Indexable InsertNAS toolDIN or JIS toolSpecial toolMetal slitting sawsShell end millsSide and face milling cuttersSide chip clearance sawsLong end millsend mill grinderdrill grindersharpenerStub roughing end millsDovetail milling cuttersCarbide slot drillsCarbide torus cuttersAngel carbide end millsCarbide torus cuttersCarbide ball-nosed slot drillsMould cutterTool manufacturer.

Bewise Inc.  www.tool-tool.com

ようこそBewise Inc.の世界へお越し下さいませ、先ず御目出度たいのは新たな

情報を受け取って頂き、もっと各産業に競争力プラス展開。

弊社は専門なエンドミルの製造メーカーで、客先に色んな分野のニーズ

豊富なパリエーションを満足させ、特にハイテク品質要求にサポート致します。

弊社は各領域に供給できる内容は:

(1)精密HSSエンドミルのR&D

(2)Carbide Cutting tools設計

(3)鎢鋼エンドミル設計

(4)航空エンドミル設計

(5)超高硬度エンドミル

(6)ダイヤモンドエンドミル

(7)医療用品エンドミル設計

(8)自動車部品&材料加工向けエンドミル設計

弊社の製品の供給調達機能は:

(1)生活産業~ハイテク工業までのエンドミル設計

(2)ミクロエンドミル~大型エンドミル供給

(3)小Lot生産~大量発注対応供給

(4)オートメーション整備調達

(5)スポット対応~流れ生産対応

弊社の全般供給体制及び技術自慢の総合専門製造メーカーに貴方のご体験を御待ちしております。   

Bewise Inc. talaşlı imalat sanayinde en fazla kullanılan ve üç eksende (x,y,z) talaş kaldırabilen freze takımlarından olan Parmak Freze imalatçısıdır. Çok geniş ürün yelpazesine sahip olan firmanın başlıca ürünlerini Karbür Parmak Frezeler, Kalıpçı Frezeleri, Kaba Talaş Frezeleri, Konik Alın Frezeler, Köşe Radyüs Frezeler, İki Ağızlı Kısa ve Uzun Küresel Frezeler, İç Bükey Frezeler vb. şeklinde sıralayabiliriz.

BW специализируется в научных исследованиях и разработках, и снабжаем самым высокотехнологичным карбидовым материалом для поставки режущих / фрезеровочных инструментов для почвы, воздушного пространства и электронной индустрии. В нашу основную продукцию входит твердый карбид / быстрорежущая сталь, а также двигатели, микроэлектрические дрели, IC картонорезальные машины, фрезы для гравирования, режущие пилы, фрезеры-расширители, фрезеры-расширители с резцом, дрели, резаки форм для шлицевого вала / звездочки роликовой цепи, и специальные нано инструменты. Пожалуйста, посетите сайт  www.tool-tool.com  для получения большей информации.

BW is specialized in R&D and sourcing the most advanced carbide material with high-tech coating to supply cutting / milling tool for mould & die, aero space and electronic industry. Our main products include solid carbide / HSS end mills, micro electronic drill, IC card cutter, engraving cutter, shell end mills, cutting saw, reamer, thread reamer, leading drill, involute gear cutter for spur wheel, rack and worm milling cutter, thread milling cutter, form cutters for spline shaft/roller chain sprocket, and special tool, with nano grade. Please visit our web  www.tool-tool.com  for more info.

 

beeway 發表在 痞客邦 留言(0) 人氣()

Archimedes of Syracuse (Greek: Ἀρχιμήδης; c. 287 BC – c. 212 BC) was a Greek mathematician, physicist, engineer, inventor, and astronomer. Although few details of his life are known, he is regarded as one of the leading scientists in classical antiquity. Among his advances in physics are the foundations of hydrostatics, statics and an explanation of the principle of the lever. He is credited with designing innovative machines, including siege engines and the screw pump that bears his name. Modern experiments have tested claims that Archimedes designed machines capable of lifting attacking ships out of the water and setting ships on fire using an array of mirrors.[1]

Archimedes is generally considered to be the greatest mathematician of antiquity and one of the greatest of all time.[2][3] He used the method of exhaustion to calculate the area under the arc of a parabola with the summation of an infinite series, and gave a remarkably accurate approximation of pi.[4] He also defined the spiral bearing his name, formulae for the volumes of surfaces of revolution and an ingenious system for expressing very large numbers.

Archimedes died during the Siege of Syracuse when he was killed by a Roman soldier despite orders that he should not be harmed. Cicero describes visiting the tomb of Archimedes, which was surmounted by a sphere inscribed within a cylinder. Archimedes had proven that the sphere has two thirds of the volume and surface area of the cylinder (including the bases of the latter), and regarded this as the greatest of his mathematical achievements.

Unlike his inventions, the mathematical writings of Archimedes were little known in antiquity. Mathematicians from Alexandria read and quoted him, but the first comprehensive compilation was not made until c. 530 AD by Isidore of Miletus, while commentaries on the works of Archimedes written by Eutocius in the sixth century AD opened them to wider readership for the first time. The relatively few copies of Archimedes' written work that survived through the Middle Ages were an influential source of ideas for scientists during the Renaissance,[5] while the discovery in 1906 of previously unknown works by Archimedes in the Archimedes Palimpsest has provided new insights into how he obtained mathematical results.[6]

 This bronze statue of Archimedes is at the Archenhold Observatory in Berlin. It was sculpted by Gerhard Thieme and unveiled in 1972.

 

Archimedes was born c. 287 BC in the seaport city of Syracuse, Sicily, at that time a self-governing colony in Magna Graecia. The date of birth is based on a statement by the Byzantine Greek historian John Tzetzes that Archimedes lived for 75 years.[7] In The Sand Reckoner, Archimedes gives his father's name as Phidias, an astronomer about whom nothing is known. Plutarch wrote in his Parallel Lives that Archimedes was related to King Hiero II, the ruler of Syracuse.[8] A biography of Archimedes was written by his friend Heracleides but this work has been lost, leaving the details of his life obscure.[9] It is unknown, for instance, whether he ever married or had children. During his youth Archimedes may have studied in Alexandria, Egypt, where Conon of Samos and Eratosthenes of Cyrene were contemporaries. He referred to Conon of Samos as his friend, while two of his works (The Method of Mechanical Theorems and the Cattle Problem) have introductions addressed to Eratosthenes.[a]

Archimedes died c. 212 BC during the Second Punic War, when Roman forces under General Marcus Claudius Marcellus captured the city of Syracuse after a two-year-long siege. According to the popular account given by Plutarch, Archimedes was contemplating a mathematical diagram when the city was captured. A Roman soldier commanded him to come and meet General Marcellus but he declined, saying that he had to finish working on the problem. The soldier was enraged by this, and killed Archimedes with his sword. Plutarch also gives a lesser-known account of the death of Archimedes which suggests that he may have been killed while attempting to surrender to a Roman soldier. According to this story, Archimedes was carrying mathematical instruments, and was killed because the soldier thought that they were valuable items. General Marcellus was reportedly angered by the death of Archimedes, as he considered him a valuable scientific asset and had ordered that he not be harmed.[10]

 

 

A sphere has 2/3 the volume and surface area of its circumscribing cylinder. A sphere and cylinder were placed on the tomb of Archimedes at his request.

The last words attributed to Archimedes are "Do not disturb my circles" (Greek: μή μου τούς κύκλους τάραττε), a reference to the circles in the mathematical drawing that he was supposedly studying when disturbed by the Roman soldier. This quote is often given in Latin as "Noli turbare circulos meos," but there is no reliable evidence that Archimedes uttered these words and they do not appear in the account given by Plutarch.[10]

The tomb of Archimedes carried a sculpture illustrating his favorite mathematical proof, consisting of a sphere and a cylinder of the same height and diameter. Archimedes had proven that the volume and surface area of the sphere are two thirds that of the cylinder including its bases. In 75 BC, 137 years after his death, the Roman orator Cicero was serving as quaestor in Sicily. He had heard stories about the tomb of Archimedes, but none of the locals was able to give him the location. Eventually he found the tomb near the Agrigentine gate in Syracuse, in a neglected condition and overgrown with bushes. Cicero had the tomb cleaned up, and was able to see the carving and read some of the verses that had been added as an inscription.[11]

The standard versions of the life of Archimedes were written long after his death by the historians of Ancient Rome. The account of the siege of Syracuse given by Polybius in his Universal History was written around seventy years after Archimedes' death, and was used subsequently as a source by Plutarch and Livy. It sheds little light on Archimedes as a person, and focuses on the war machines that he is said to have built in order to defend the city.[12]

 

 

Archimedes may have used his principle of buoyancy to determine whether the golden crown was less dense than solid gold.

The most widely known anecdote about Archimedes tells of how he invented a method for determining the volume of an object with an irregular shape. According to Vitruvius, a votive crown for a temple had been made for King Hiero II, who had supplied the pure gold to be used, and Archimedes was asked to determine whether some silver had been substituted by the dishonest goldsmith.[13] Archimedes had to solve the problem without damaging the crown, so he could not melt it down into a regularly shaped body in order to calculate its density. While taking a bath, he noticed that the level of the water in the tub rose as he got in, and realized that this effect could be used to determine the volume of the crown. For practical purposes water is incompressible,[14] so the submerged crown would displace an amount of water equal to its own volume. By dividing the mass of the crown by the volume of water displaced, the density of the crown could be obtained. This density would be lower than that of gold if cheaper and less dense metals had been added. Archimedes then took to the streets naked, so excited by his discovery that he had forgotten to dress, crying "Eureka!" (Greek: "εὕρηκα!," meaning "I have found it!"). The test was conducted successfully, proving that silver had indeed been mixed in.[15]

The story of the golden crown does not appear in the known works of Archimedes. Moreover, the practicality of the method it describes has been called into question, due to the extreme accuracy with which one would have to measure the water displacement.[16] Archimedes may have instead sought a solution that applied the principle known in hydrostatics as Archimedes' Principle, which he describes in his treatise On Floating Bodies. This principle states that a body immersed in a fluid experiences a buoyant force equal to the weight of the fluid it displaces.[17] Using this principle, it would have been possible to compare the density of the golden crown to that of solid gold by balancing the crown on a scale with a gold reference sample, then immersing the apparatus in water. If the crown was less dense than gold, it would displace more water due to its larger volume, and thus experience a greater buoyant force than the reference sample. This difference in buoyancy would cause the scale to tip accordingly. Galileo considered it "probable that this method is the same that Archimedes followed, since, besides being very accurate, it is based on demonstrations found by Archimedes himself."[18]

 

 

The Archimedes screw can raise water efficiently.

A large part of Archimedes' work in engineering arose from fulfilling the needs of his home city of Syracuse. The Greek writer Athenaeus of Naucratis described how King Hieron II commissioned Archimedes to design a huge ship, the Syracusia, which could be used for luxury travel, carrying supplies, and as a naval warship. The Syracusia is said to have been the largest ship built in classical antiquity.[19] According to Athenaeus, it was capable of carrying 600 people and included garden decorations, a gymnasium and a temple dedicated to the goddess Aphrodite among its facilities. Since a ship of this size would leak a considerable amount of water through the hull, the Archimedes screw was purportedly developed in order to remove the bilge water. Archimedes' machine was a device with a revolving screw-shaped blade inside a cylinder. It was turned by hand, and could also be used to transfer water from a low-lying body of water into irrigation canals. The Archimedes screw is still in use today for pumping liquids and granulated solids such as coal and grain. The Archimedes screw described in Roman times by Vitruvius may have been an improvement on a screw pump that was used to irrigate the Hanging Gardens of Babylon.[20][21][22]

The Claw of Archimedes

The Claw of Archimedes is a weapon that he is said to have designed in order to defend the city of Syracuse. Also known as "the ship shaker," the claw consisted of a crane-like arm from which a large metal grappling hook was suspended. When the claw was dropped onto an attacking ship the arm would swing upwards, lifting the ship out of the water and possibly sinking it. There have been modern experiments to test the feasibility of the claw, and in 2005 a television documentary entitled Superweapons of the Ancient World built a version of the claw and concluded that it was a workable device.[23][24]

 

Archimedes may have used mirrors acting collectively as a parabolic reflector to burn ships attacking Syracuse.

The 2nd century AD author Lucian wrote that during the Siege of Syracuse (c. 214–212 BC), Archimedes destroyed enemy ships with fire. Centuries later, Anthemius of Tralles mentions burning-glasses as Archimedes' weapon.[25] The device, sometimes called the "Archimedes heat ray", was used to focus sunlight onto approaching ships, causing them to catch fire.

This purported weapon has been the subject of ongoing debate about its credibility since the Renaissance. René Descartes rejected it as false, while modern researchers have attempted to recreate the effect using only the means that would have been available to Archimedes.[26] It has been suggested that a large array of highly polished bronze or copper shields acting as mirrors could have been employed to focus sunlight onto a ship. This would have used the principle of the parabolic reflector in a manner similar to a solar furnace.

A test of the Archimedes heat ray was carried out in 1973 by the Greek scientist Ioannis Sakkas. The experiment took place at the Skaramagas naval base outside Athens. On this occasion 70 mirrors were used, each with a copper coating and a size of around five by three feet (1.5 by 1 m). The mirrors were pointed at a plywood mock-up of a Roman warship at a distance of around 160 feet (50 m). When the mirrors were focused accurately, the ship burst into flames within a few seconds. The plywood ship had a coating of tar paint, which may have aided combustion.[27]

In October 2005 a group of students from the Massachusetts Institute of Technology carried out an experiment with 127 one-foot (30 cm) square mirror tiles, focused on a mock-up wooden ship at a range of around 100 feet (30 m). Flames broke out on a patch of the ship, but only after the sky had been cloudless and the ship had remained stationary for around ten minutes. It was concluded that the device was a feasible weapon under these conditions. The MIT group repeated the experiment for the television show MythBusters, using a wooden fishing boat in San Francisco as the target. Again some charring occurred, along with a small amount of flame. In order to catch fire, wood needs to reach its autoignition temperature, which is around 300 °C (570 °F).[28][29]

When MythBusters broadcast the result of the San Francisco experiment in January 2006, the claim was placed in the category of "busted" (or failed) because of the length of time and the ideal weather conditions required for combustion to occur. It was also pointed out that since Syracuse faces the sea towards the east, the Roman fleet would have had to attack during the morning for optimal gathering of light by the mirrors. MythBusters also pointed out that conventional weaponry, such as flaming arrows or bolts from a catapult, would have been a far easier way of setting a ship on fire at short distances.[1]

Other discoveries and inventions

While Archimedes did not invent the lever, he gave an explanation of the principle involved in his work On the Equilibrium of Planes. Earlier descriptions of the lever are found in the Peripatetic school of the followers of Aristotle, and are sometimes attributed to Archytas.[30][31] According to Pappus of Alexandria, Archimedes' work on levers caused him to remark: "Give me a place to stand on, and I will move the Earth." (Greek: δῶς μοι πᾶ στῶ καὶ τὰν γᾶν κινάσω)[32] Plutarch describes how Archimedes designed block-and-tackle pulley systems, allowing sailors to use the principle of leverage to lift objects that would otherwise have been too heavy to move.[33] Archimedes has also been credited with improving the power and accuracy of the catapult, and with inventing the odometer during the First Punic War. The odometer was described as a cart with a gear mechanism that dropped a ball into a container after each mile traveled.[34]

Cicero (106–43 BC) mentions Archimedes briefly in his dialogue De re publica, which portrays a fictional conversation taking place in 129 BC. After the capture of Syracuse c. 212 BC, General Marcus Claudius Marcellus is said to have taken back to Rome two mechanisms used as aids in astronomy, which showed the motion of the Sun, Moon and five planets. Cicero mentions similar mechanisms designed by Thales of Miletus and Eudoxus of Cnidus. The dialogue says that Marcellus kept one of the devices as his only personal loot from Syracuse, and donated the other to the Temple of Virtue in Rome. Marcellus' mechanism was demonstrated, according to Cicero, by Gaius Sulpicius Gallus to Lucius Furius Philus, who described it thus:

Hanc sphaeram Gallus cum moveret, fiebat ut soli luna totidem conversionibus in aere illo quot diebus in ipso caelo succederet, ex quo et in caelo sphaera solis fieret eadem illa defectio, et incideret luna tum in eam metam quae esset umbra terrae, cum sol e regione. — When Gallus moved the globe, it happened that the Moon followed the Sun by as many turns on that bronze contrivance as in the sky itself, from which also in the sky the Sun's globe became to have that same eclipse, and the Moon came then to that position which was its shadow on the Earth, when the Sun was in line.[35][36]

This is a description of a planetarium or orrery. Pappus of Alexandria stated that Archimedes had written a manuscript (now lost) on the construction of these mechanisms entitled On Sphere-Making. Modern research in this area has been focused on the Antikythera mechanism, another device from classical antiquity that was probably designed for the same purpose. Constructing mechanisms of this kind would have required a sophisticated knowledge of differential gearing. This was once thought to have been beyond the range of the technology available in ancient times, but the discovery of the Antikythera mechanism in 1902 has confirmed that devices of this kind were known to the ancient Greeks.[37][38]

Mathematics

While he is often regarded as a designer of mechanical devices, Archimedes also made contributions to the field of mathematics. Plutarch wrote: "He placed his whole affection and ambition in those purer speculations where there can be no reference to the vulgar needs of life."[39]

 

 

Archimedes used the method of exhaustion to approximate the value of π.

Archimedes was able to use infinitesimals in a way that is similar to modern integral calculus. Through proof by contradiction (reductio ad absurdum), he could give answers to problems to an arbitrary degree of accuracy, while specifying the limits within which the answer lay. This technique is known as the method of exhaustion, and he employed it to approximate the value of π (pi). He did this by drawing a larger polygon outside a circle and a smaller polygon inside the circle. As the number of sides of the polygon increases, it becomes a more accurate approximation of a circle. When the polygons had 96 sides each, he calculated the lengths of their sides and showed that the value of π lay between 31⁄7 (approximately 3.1429) and 310⁄71 (approximately 3.1408), consistent with its actual value of approximately 3.1416. He also proved that the area of a circle was equal to π multiplied by the square of the radius of the circle. In On the Sphere and Cylinder, Archimedes postulates that any magnitude when added to itself enough times will exceed any given magnitude. This is the Archimedean property of real numbers.[40]

In Measurement of a Circle, Archimedes gives the value of the square root of 3 as lying between 265⁄153 (approximately 1.7320261) and 1351⁄780 (approximately 1.7320512). The actual value is approximately 1.7320508, making this a very accurate estimate. He introduced this result without offering any explanation of the method used to obtain it. This aspect of the work of Archimedes caused John Wallis to remark that he was: "as it were of set purpose to have covered up the traces of his investigation as if he had grudged posterity the secret of his method of inquiry while he wished to extort from them assent to his results."[41]

 

 

 

As proven by Archimedes, the area of the parabolic segment in the upper figure is equal to 4/3 that of the inscribed triangle in the lower figure.

In The Quadrature of the Parabola, Archimedes proved that the area enclosed by a parabola and a straight line is 4⁄3 times the area of a corresponding inscribed triangle as shown in the figure at right. He expressed the solution to the problem as an infinite geometric series with the common ratio 1⁄4:

 

If the first term in this series is the area of the triangle, then the second is the sum of the areas of two triangles whose bases are the two smaller secant lines, and so on. This proof uses a variation of the series 1/4 + 1/16 + 1/64 + 1/256 + · · · which sums to 1⁄3.

In The Sand Reckoner, Archimedes set out to calculate the number of grains of sand that the universe could contain. In doing so, he challenged the notion that the number of grains of sand was too large to be counted. He wrote: "There are some, King Gelo (Gelo II, son of Hiero II), who think that the number of the sand is infinite in multitude; and I mean by the sand not only that which exists about Syracuse and the rest of Sicily but also that which is found in every region whether inhabited or uninhabited." To solve the problem, Archimedes devised a system of counting based on the myriad. The word is from the Greek μυριάς murias, for the number 10,000. He proposed a number system using powers of a myriad of myriads (100 million) and concluded that the number of grains of sand required to fill the universe would be 8 vigintillion, or 8 × 1063.[42]

Writings

The works of Archimedes were written in Doric Greek, the dialect of ancient Syracuse.[43] The written work of Archimedes has not survived as well as that of Euclid, and seven of his treatises are known to have existed only through references made to them by other authors. Pappus of Alexandria mentions On Sphere-Making and another work on polyhedra, while Theon of Alexandria quotes a remark about refraction from the now-lost Catoptrica.[b] During his lifetime, Archimedes made his work known through correspondence with the mathematicians in Alexandria. The writings of Archimedes were collected by the Byzantine architect Isidore of Miletus (c. 530 AD), while commentaries on the works of Archimedes written by Eutocius in the sixth century AD helped to bring his work a wider audience. Archimedes' work was translated into Arabic by Thābit ibn Qurra (836–901 AD), and Latin by Gerard of Cremona (c. 1114–1187 AD). During the Renaissance, the Editio Princeps (First Edition) was published in Basel in 1544 by Johann Herwagen with the works of Archimedes in Greek and Latin.[44] Around the year 1586 Galileo Galilei invented a hydrostatic balance for weighing metals in air and water after apparently being inspired by the work of Archimedes.[45]

Surviving works

 

 

 

 

Archimedes is said to have remarked of the lever: Give me a place to stand on, and I will move the Earth.

  • On the Equilibrium of Planes (two volumes)

 

The first book is in fifteen propositions with seven postulates, while the second book is in ten propositions. In this work Archimedes explains the Law of the Lever, stating, "Magnitudes are in equilibrium at distances reciprocally proportional to their weights."Archimedes uses the principles derived to calculate the areas and centers of gravity of various geometric figures including triangles, parallelograms and parabolas.[46]

  • On the Measurement of a Circle

 

This is a short work consisting of three propositions. It is written in the form of a correspondence with Dositheus of Pelusium, who was a student of Conon of Samos. In Proposition II, Archimedes shows that the value of π (pi) is greater than 223⁄71 and less than 22⁄7. The latter figure was used as an approximation of π throughout the Middle Ages and is still used today when only a rough figure is required.

  • On Spirals

 

This work of 28 propositions is also addressed to Dositheus. The treatise defines what is now called the Archimedean spiral. It is the locus of points corresponding to the locations over time of a point moving away from a fixed point with a constant speed along a line which rotates with constant angular velocity. Equivalently, in polar coordinates (r, θ) it can be described by the equation

 

with real numbers a and b. This is an early example of a mechanical curve (a curve traced by a moving point) considered by a Greek mathematician.

  • On the Sphere and the Cylinder (two volumes)

 

In this treatise addressed to Dositheus, Archimedes obtains the result of which he was most proud, namely the relationship between a sphere and a circumscribed cylinder of the same height and diameter. The volume is 4⁄3πr3 for the sphere, and 2πr3 for the cylinder. The surface area is 4πr2 for the sphere, and 6πr2 for the cylinder (including its two bases), where r is the radius of the sphere and cylinder. The sphere has a volume and surface area two-thirds that of the cylinder. A sculpted sphere and cylinder were placed on the tomb of Archimedes at his request.

  • On Conoids and Spheroids

 

This is a work in 32 propositions addressed to Dositheus. In this treatise Archimedes calculates the areas and volumes of sections of cones, spheres, and paraboloids.

  • On Floating Bodies (two volumes)

 

In the first part of this treatise, Archimedes spells out the law of equilibrium of fluids, and proves that water will adopt a spherical form around a center of gravity. This may have been an attempt at explaining the theory of contemporary Greek astronomers such as Eratosthenes that the Earth is round. The fluids described by Archimedes are not self-gravitating, since he assumes the existence of a point towards which all things fall in order to derive the spherical shape.

 

In the second part, he calculates the equilibrium positions of sections of paraboloids. This was probably an idealization of the shapes of ships' hulls. Some of his sections float with the base under water and the summit above water, similar to the way that icebergs float. Archimedes' principle of buoyancy is given in the work, stated as follows:

Any body wholly or partially immersed in a fluid experiences an upthrust equal to, but opposite in sense to, the weight of the fluid displaced.

  • The Quadrature of the Parabola

 

In this work of 24 propositions addressed to Dositheus, Archimedes proves by two methods that the area enclosed by a parabola and a straight line is 4/3 multiplied by the area of a triangle with equal base and height. He achieves this by calculating the value of a geometric series that sums to infinity with the ratio 1⁄4.

  • (O)stomachion

 

This is a dissection puzzle similar to a Tangram, and the treatise describing it was found in more complete form in the Archimedes Palimpsest. Archimedes calculates the areas of the 14 pieces which can be assembled to form a square. Research published by Dr. Reviel Netz of Stanford University in 2003 argued that Archimedes was attempting to determine how many ways the pieces could be assembled into the shape of a square. Dr. Netz calculates that the pieces can be made into a square 17,152 ways.[47] The number of arrangements is 536 when solutions that are equivalent by rotation and reflection have been excluded.[48] The puzzle represents an example of an early problem in combinatorics.The origin of the puzzle's name is unclear, and it has been suggested that it is taken from the Ancient Greek word for throat or gullet, stomachos (στόμαχος).[49] Ausonius refers to the puzzle as Ostomachion, a Greek compound word formed from the roots of ὀστέον (osteon, bone) and μάχη (machē – fight). The puzzle is also known as the Loculus of Archimedes or Archimedes' Box.[50]

  • Archimedes' cattle problem

 

This work was discovered by Gotthold Ephraim Lessing in a Greek manuscript consisting of a poem of 44 lines, in the Herzog August Library in Wolfenbüttel, Germany in 1773. It is addressed to Eratosthenes and the mathematicians in Alexandria. Archimedes challenges them to count the numbers of cattle in the Herd of the Sun by solving a number of simultaneous Diophantine equations. There is a more difficult version of the problem in which some of the answers are required to be square numbers. This version of the problem was first solved by A. Amthor[51] in 1880, and the answer is a very large number, approximately 7.760271 × 10206,544.[52]

  • The Sand Reckoner

 

In this treatise, Archimedes counts the number of grains of sand that will fit inside the universe. This book mentions the heliocentric theory of the solar system proposed by Aristarchus of Samos, as well as contemporary ideas about the size of the Earth and the distance between various celestial bodies. By using a system of numbers based on powers of the myriad, Archimedes concludes that the number of grains of sand required to fill the universe is 8 × 1063 in modern notation. The introductory letter states that Archimedes' father was an astronomer named Phidias. The Sand Reckoner or Psammites is the only surviving work in which Archimedes discusses his views on astronomy.[53]

  • The Method of Mechanical Theorems

 

This treatise was thought lost until the discovery of the Archimedes Palimpsest in 1906. In this work Archimedes uses infinitesimals, and shows how breaking up a figure into an infinite number of infinitely small parts can be used to determine its area or volume. Archimedes may have considered this method lacking in formal rigor, so he also used the method of exhaustion to derive the results. As with The Cattle Problem, The Method of Mechanical Theorems was written in the form of a letter to Eratosthenes in Alexandria.

Apocryphal works

Archimedes' Book of Lemmas or Liber Assumptorum is a treatise with fifteen propositions on the nature of circles. The earliest known copy of the text is in Arabic. The scholars T. L. Heath and Marshall Clagett argued that it cannot have been written by Archimedes in its current form, since it quotes Archimedes, suggesting modification by another author. The Lemmas may be based on an earlier work by Archimedes that is now lost.[54]

It has also been claimed that Heron's formula for calculating the area of a triangle from the length of its sides was known to Archimedes.[c] However, the first reliable reference to the formula is given by Heron of Alexandria in the 1st century AD.[55]

Archimedes Palimpsest

Main article: Archimedes Palimpsest

 

 

Stomachion is a dissection puzzle in the Archimedes Palimpsest.

The foremost document containing the work of Archimedes is the Archimedes Palimpsest. In 1906, the Danish professor Johan Ludvig Heiberg visited Constantinople and examined a 174-page goatskin parchment of prayers written in the 13th century AD. He discovered that it was a palimpsest, a document with text that had been written over an erased older work. Palimpsests were created by scraping the ink from existing works and reusing them, which was a common practice in the Middle Ages as vellum was expensive. The older works in the palimpsest were identified by scholars as 10th century AD copies of previously unknown treatises by Archimedes.[56] The parchment spent hundreds of years in a monastery library in Constantinople before being sold to a private collector in the 1920s. On October 29, 1998 it was sold at auction to an anonymous buyer for $2 million at Christie's in New York.[57] The palimpsest holds seven treatises, including the only surviving copy of On Floating Bodies in the original Greek. It is the only known source of The Method of Mechanical Theorems, referred to by Suidas and thought to have been lost forever. Stomachion was also discovered in the palimpsest, with a more complete analysis of the puzzle than had been found in previous texts. The palimpsest is now stored at the Walters Art Museum in Baltimore, Maryland, where it has been subjected to a range of modern tests including the use of ultraviolet and x-ray light to read the overwritten text.[58]

The treatises in the Archimedes Palimpsest are: On the Equilibrium of Planes, On Spirals, Measurement of a Circle, On the Sphere and the Cylinder, On Floating Bodies, The Method of Mechanical Theorems and Stomachion.

Legacy

 

 

 

 

The Fields Medal carries a portrait of Archimedes.

There is a crater on the Moon named Archimedes (29.7° N, 4.0° W) in his honor, as well as a lunar mountain range, the Montes Archimedes (25.3° N, 4.6° W).[59]

The asteroid 3600 Archimedes is named after him.[60]

The Fields Medal for outstanding achievement in mathematics carries a portrait of Archimedes, along with his proof concerning the sphere and the cylinder. The inscription around the head of Archimedes is a quote attributed to him which reads in Latin: "Transire suum pectus mundoque potiri" (Rise above oneself and grasp the world).[61]

Archimedes has appeared on postage stamps issued by East Germany (1973), Greece (1983), Italy (1983), Nicaragua (1971), San Marino (1982), and Spain (1963).[62]

The exclamation of Eureka! attributed to Archimedes is the state motto of California. In this instance the word refers to the discovery of gold near Sutter's Mill in 1848 which sparked the California Gold Rush.[63]

A movement for civic engagement targeting universal access to health care in the US state of Oregon has been named the "Archimedes Movement," headed by former Oregon Governor John Kitzhaber.[64]

See also

 

  • Arbelos
  • Archimedes' axiom
  • Archimedes number
  • Archimedes paradox
  • Archimedes' screw
  • Archimedean solid
  • Archimedes' twin circles
  • Archimedes' use of infinitesimals
  • Archytas
  • Diocles
  • Methods of computing square roots
  • Pseudo-Archimedes
  • Salinon
  • Steam cannon
  • Syracusia
  • Vitruvius
  • Zhang Heng

Notes and references

Notes

a. ^ In the preface to On Spirals addressed to Dositheus of Pelusium, Archimedes says that "many years have elapsed since Conon's death." Conon of Samos lived c. 280–220 BC, suggesting that Archimedes may have been an older man when writing some of his works.

b. ^ The treatises by Archimedes known to exist only through references in the works of other authors are: On Sphere-Making and a work on polyhedra mentioned by Pappus of Alexandria; Catoptrica, a work on optics mentioned by Theon of Alexandria; Principles, addressed to Zeuxippus and explaining the number system used in The Sand Reckoner; On Balances and Levers; On Centers of Gravity; On the Calendar. Of the surviving works by Archimedes, T. L. Heath offers the following suggestion as to the order in which they were written: On the Equilibrium of Planes I, The Quadrature of the Parabola, On the Equilibrium of Planes II, On the Sphere and the Cylinder I, II, On Spirals, On Conoids and Spheroids, On Floating Bodies I, II, On the Measurement of a Circle, The Sand Reckoner.

c. ^ Boyer, Carl Benjamin A History of Mathematics (1991) ISBN 0471543977 "Arabic scholars inform us that the familiar area formula for a triangle in terms of its three sides, usually known as Heron's formula — k = √(s(s − a)(s − b)(s − c)), where s is the semiperimeter — was known to Archimedes several centuries before Heron lived. Arabic scholars also attribute to Archimedes the 'theorem on the broken chord' … Archimedes is reported by the Arabs to have given several proofs of the theorem."

引用出處: 

 http://en.wikipedia.org/wiki/Archimedes

歡迎來到Bewise Inc.的世界,首先恭喜您來到這接受新的資訊讓產業更有競爭力,我們是提供專業刀具製造商,應對客戶高品質的刀具需求,我們可以協助客戶滿足您對產業的不同要求,我們有能力達到非常卓越的客戶需求品質,這是現有相關技術無法比擬的,我們成功的滿足了各行各業的要求,包括:精密HSS DIN切削刀具協助客戶設計刀具流程DIN or JIS 鎢鋼切削刀具設計NAS986 NAS965 NAS897 NAS937orNAS907 航太切削刀具,NAS航太刀具設計超高硬度的切削刀具醫療配件刀具設計複合式再研磨機PCD地板專用企口鑽石組合刀具粉末造粒成型機主機版專用頂級電桿PCD V-Cut捨棄式圓鋸片組粉末成型機航空機械鉸刀主機版專用頂級電汽車業刀具設計電子產業鑽石刀具木工產業鑽石刀具銑刀與切斷複合再研磨機銑刀與鑽頭複合再研磨機銑刀與螺絲攻複合再研磨機等等。我們的產品涵蓋了從民生刀具到工業級的刀具設計;從微細刀具到大型刀具;從小型生產到大型量產;全自動整合;我們的技術可提供您連續生產的效能,我們整體的服務及卓越的技術,恭迎您親自體驗!!  

BW Bewise Inc. Willy Chen willy@tool-tool.com  bw@tool-tool.com  www.tool-tool.com skype:willy_chen_bw mobile:0937-618-190 Head &Administration Office No.13,Shiang Shang 2nd St., West Chiu Taichung,Taiwan 40356 http://www.tool-tool.com/ / FAX:+886 4 2471 4839 N.Branch 5F,No.460,Fu Shin North Rd.,Taipei,Taiwan S.Branch No.24,Sec.1,Chia Pu East Rd.,Taipao City,Chiayi Hsien,Taiwan

Welcome to BW tool world! We are an experienced tool maker specialized in cutting tools. We focus on what you need and endeavor to research the best cutter to satisfy users demand. Our customers involve wide range of industries, like mold & die, aerospace, electronic, machinery, etc. We are professional expert in cutting field. We would like to solve every problem from you. Please feel free to contact us, its our pleasure to serve for you. BW product including: cutting toolaerospace tool .HSS  DIN Cutting toolCarbide end millsCarbide cutting toolNAS Cutting toolNAS986 NAS965 NAS897 NAS937orNAS907 Cutting Tools,Carbide end milldisc milling cutter,Aerospace cutting toolhss drillФрезерыCarbide drillHigh speed steelCompound SharpenerMilling cutterINDUCTORS FOR PCD’CVDD(Chemical Vapor Deposition Diamond )’PCBN (Polycrystalline Cubic Boron Nitride) Core drillTapered end millsCVD Diamond Tools Inserts’PCD Edge-Beveling Cutter(Golden FingerPCD V-CutterPCD Wood toolsPCD Cutting toolsPCD Circular Saw BladePVDD End Millsdiamond tool. INDUCTORS FOR PCD . POWDER FORMING MACHINE Single Crystal Diamond Metric end millsMiniature end millsСпециальные режущие инструменты Пустотелое сверло Pilot reamerFraisesFresas con mango PCD (Polycrystalline diamond) ‘FresePOWDER FORMING MACHINEElectronics cutterStep drillMetal cutting sawDouble margin drillGun barrelAngle milling cutterCarbide burrsCarbide tipped cutterChamfering toolIC card engraving cutterSide cutterStaple CutterPCD diamond cutter specialized in grooving floorsV-Cut PCD Circular Diamond Tipped Saw Blade with Indexable Insert PCD Diamond Tool Saw Blade with Indexable InsertNAS toolDIN or JIS toolSpecial toolMetal slitting sawsShell end millsSide and face milling cuttersSide chip clearance sawsLong end millsend mill grinderdrill grindersharpenerStub roughing end millsDovetail milling cuttersCarbide slot drillsCarbide torus cuttersAngel carbide end millsCarbide torus cuttersCarbide ball-nosed slot drillsMould cutterTool manufacturer. 

Bewise Inc.  www.tool-tool.com

ようこそBewise Inc.の世界へお越し下さいませ、先ず御目出度たいのは新たな

情報を受け取って頂き、もっと各産業に競争力プラス展開。

弊社は専門なエンドミルの製造メーカーで、客先に色んな分野のニーズ

豊富なパリエーションを満足させ、特にハイテク品質要求にサポート致します。

弊社は各領域に供給できる内容は:

(1)精密HSSエンドミルのR&D

(2)Carbide Cutting tools設計

(3)鎢鋼エンドミル設計

(4)航空エンドミル設計

(5)超高硬度エンドミル

(6)ダイヤモンドエンドミル

(7)医療用品エンドミル設計

(8)自動車部品&材料加工向けエンドミル設計

弊社の製品の供給調達機能は:

(1)生活産業~ハイテク工業までのエンドミル設計

(2)ミクロエンドミル~大型エンドミル供給

(3)小Lot生産~大量発注対応供給

(4)オートメーション整備調達

(5)スポット対応~流れ生産対応

弊社の全般供給体制及び技術自慢の総合専門製造メーカーに貴方のご体験を御待ちしております。     

Bewise Inc. talaşlı imalat sanayinde en fazla kullanılan ve üç eksende (x,y,z) talaş kaldırabilen freze takımlarından olan Parmak Freze imalatçısıdır. Çok geniş ürün yelpazesine sahip olan firmanın başlıca ürünlerini Karbür Parmak Frezeler, Kalıpçı Frezeleri, Kaba Talaş Frezeleri, Konik Alın Frezeler, Köşe Radyüs Frezeler, İki Ağızlı Kısa ve Uzun Küresel Frezeler, İç Bükey Frezeler vb. şeklinde sıralayabiliriz. 

BW специализируется в научных исследованиях и разработках, и снабжаем самым высокотехнологичным карбидовым материалом для поставки режущих / фрезеровочных инструментов для почвы, воздушного пространства и электронной индустрии. В нашу основную продукцию входит твердый карбид / быстрорежущая сталь, а также двигатели, микроэлектрические дрели, IC картонорезальные машины, фрезы для гравирования, режущие пилы, фрезеры-расширители, фрезеры-расширители с резцом, дрели, резаки форм для шлицевого вала / звездочки роликовой цепи, и специальные нано инструменты. Пожалуйста, посетите сайт  www.tool-tool.com  для получения большей информации.

BW is specialized in R&D and sourcing the most advanced carbide material with high-tech coating to supply cutting / milling tool for mould & die, aero space and electronic industry. Our main products include solid carbide / HSS end mills, micro electronic drill, IC card cutter, engraving cutter, shell end mills, cutting saw, reamer, thread reamer, leading drill, involute gear cutter for spur wheel, rack and worm milling cutter, thread milling cutter, form cutters for spline shaft/roller chain sprocket, and special tool, with nano grade. Please visit our web  www.tool-tool.com  for more info.

 

beeway 發表在 痞客邦 留言(0) 人氣()

阿基米德(希腊 语:Αρχιμήδης,前287年—前212年),古希腊哲学家、数学家、物理学家、科學家。出生于西西里岛的叙拉古。阿基米德到过亞歷山卓,据说他住 在亞歷山卓时期发明了阿基米德式螺旋抽水机,今天在埃及仍旧使用着。第二次布匿战争时期,罗马大军围攻叙拉古,最后阿基米德不幸死在罗马士兵之手。

 

此条目或章节的语调或风格可能不適合百科全書的寫作方式。(2009年10月7日)您可以通过改写来協助改善这篇条目。请前往讨论页获取进一步的信息。

在 公元前287年,阿基米德出生在古希臘西西里島東南端的敘拉古城。在當時古希臘的輝煌文化已經逐漸衰退,經濟、文化中心逐漸轉移到埃及的亞歷山大城;但是 另一方面,義大利半島上新興的羅馬帝國,也正不斷的擴張勢力;北非也有新的國家迦太基興起。阿基米德就是生長在這種新舊勢力交替的時代,而敘拉古城也就成 為許多勢力的角力場所。

阿基米德的父親是天文學家和數學家,所以他從小受家庭影響,十分喜愛數學。大概在他九歲時,父親送他到埃及的亞歷山 大城唸書,亞歷山大城是當時西方世界的知識、文化中心,學者雲集,舉凡文學、數學、天文學、醫學的研究都很發達,阿基米德在這裏跟隨許多著名的數學家學 習,包括有名的幾何學大師—歐幾里得,因此奠定了他日後從事科學研究的基礎。

在經過許多年的求學歷程後,阿基米德回到故鄉—敘拉古。據說敘 拉古的國王—海維隆二世與阿基米德的父親是朋友,也有另一種說法是:國王與他們是親戚關係。總之,回國後的阿基米德很受國王的禮遇,經常出入宮廷,並常與 國王、大臣們閒話家常或是暢談國事。阿基米德在這種優裕的環境下,作了好幾十年的研究工作,並在數學、力學、機械方面取得了許多重要的發現與成就,成為上 古時代歐洲最有創建的科學家。

據說阿基米德經常為了研究而廢寢忘食,走進他的住處,隨處可見數字和方程式,地上則是畫滿了各式各樣的圖形,牆上與桌上也無法倖免,都成了他的計算板,由此可知他旺盛的研究精神。

國王大概也知道阿基米德驚人的研究精神,於是他出了一個難題給阿基米德去解決。

[编辑] 真假皇冠 一試便知

 

主条目:阿基米德浮體原理

這 個難題讓阿基米德回家苦思了幾天,吃不下飯也睡不好覺。原來國王請金匠用純金打造了一頂純金王冠,做好了以後,國王懷疑金匠不老實,可能造假摻了「銀」在 裡面,但是又不能把王冠毀壞來鑑定。怎樣才能檢驗王冠是不是純金的呢?哇!這可是個傷腦筋的問題。阿基米德想了好久,一直沒有好方法。

有一天,他在洗澡的時候發現,當他坐在浴盆裡放入王冠時水位上升了,這使得他想到了:

「上升了的水位正好應該等於王冠的體積,所以只要拿與王冠等重量的金子,放到水裡,測出它的體積,看看它的體積是否與王冠的體積相同,如果王冠體積更大,這就表示其中造了假,摻了銀。」

阿 基米德想到這裡,不禁高興的從浴盆跳了出來,光著身體就跑了出去,還邊跑邊喊「尤里卡!尤里卡!(εύρηκα希臘話:我發現了)」可別小看這句話,現代 世界上最著名的發明博覽會就是以「尤里卡」命名的。果然經過證明之後,王冠中確實含有其他雜質,阿基米德成功的揭穿了金匠的詭計,國王對他當然是更加的信 服了。

(但實際上,因為王冠至少有頭那麼大,所用的容器也必然比王冠大,而金匠摻銀的前提是不會使王冠顏色發生顯著改變,所以也不會摻太多 銀,王冠比金塊多出的體積也不會太多,所以即使王冠比金塊多出的體積使水面上升,也不會十分顯著,以阿基米德時代的測量技術,很難比較出王冠與金塊的體積 差異,即使有差異,也不能排除是實驗中誤差所致,一個更可能的方案是:阿基米德把王冠與金塊放在天平兩頭,將天平置於有水的浴缸中,哪端更輕,則哪段體積 更大。最終發現王冠體積更大)

後來阿基米德將這個發現進一步總結出浮力理論,並寫在他的《浮體論》著作裡,也就是: 物體在浮體中所受的浮力,等於物體所排開的浮體的重量。 阿基米德為浮體定律建立了基本的原理。

 

阿基米德「给我一个支点,我就可以舉起整個地球。」

阿 基米德對於機械的研究源自於他在亞歷山卓城求學時期。有一天阿基米德在久旱的尼羅河邊散步,看到農民提水澆地相當費力,經過思考之後他發明了一種利用螺旋 作用在水管裡旋轉而把水吸上來的工具,後世的人叫它做「阿基米德螺旋提水器」,埃及一直到二千年後的現在,還有人使用這種器械。這個工具成了後來螺旋推進 器的先祖。

當時的歐洲,在工程和日常生活中,經常使用一些簡單機械,譬如:螺絲、滑車、槓桿、齒輪等,阿基米德花了許多時間去研究,發現了 「槓桿原理」和「力矩」的觀念,對於經常使用工具製作機械的阿基米德而言,將理論運用到實際的生活上是輕而易舉的。他自己曾說:「給我一個支點,我可以舉 起整個地球。」

剛好海維隆王又遇到了一個棘手的問題:國王替埃及托勒密王造了一艘船,因為太大太重,船無法放進海裡,國王就對阿基米德說, 「你連地球都舉得起來,一艘船放進海裡應該沒問題吧?」於是阿基米德立刻巧妙地組合各種機械,造出一架機具,在一切準備妥當後,將牽引機具的繩子交給國 王,國王輕輕一拉,大船果然移動下水,國王不得不為阿基米德的天才所折服。從這個歷史記載的故事裡我們可以明顯的知道,阿基米德極可能是當時全世界對於機 械的原理與運用,瞭解最透徹的人。

[编辑] 當代的數學大師

對於阿基米德來說,機械和 物理的研究發明還只是次要的,他比較有興趣而且投注更多時間的是純理論上的研究,尤其是在數學和天文方面。在數學方面,他利用「逼近法」算出球面積、球體 積、拋物線、橢圓面積,後世的數學家依據這樣的「逼近法」加以發展成近代的「微積分」。他更研究出螺旋形曲線的性質,現今的「阿基米德螺線」曲線,就是為 紀念他而命名。另外他在《數沙術》一書中,他創造了一套記大數的方法,簡化了記數的方式。

在天文學方面,他曾運用水力製作一座天象儀,球面上有日、月、星辰、五大行星,根據記載,這個天象儀不但運行精確,連何時會發生月蝕、日蝕都能加以預測。晚年的阿基米德開始懷疑地球中心學說,並猜想地球有可能繞太陽轉動,這個觀念一直到哥白尼時代才被人們提出來討論。

如果讓阿基米德一直持續的研究下去,他的成就將會更加不可限量,很可惜在他74歲、公元前212年,被人殺死。

公 元三世紀末正是羅馬帝國與北非迦太基帝國,為了爭奪西西里島的霸權而開戰的時期。身處西西里島的敘拉古一直都是投靠羅馬,但是西元前216年迦太基大敗羅 馬軍隊,敘拉古的新國王(海維隆二世的孫子繼任),立即見風轉舵與迦太基結盟,羅馬帝國於是派馬塞拉斯將軍領軍從海路和陸路同時進攻敘拉古,阿基米德眼見 國土危急,護國的責任感促使他奮起抗敵,於是他絞盡腦汁,日以繼夜的發明禦敵武器。

根據一些年代較晚的記載,當時他造了巨大的起重機,可以將敵人的戰艦吊到半空中,然後重重摔下使戰艦在水面上粉碎;他還利用槓桿原理製造出一批投石機,凡是靠近城牆的敵人,都難逃他的飛石或標槍。

這些武器弄的羅馬軍隊驚慌失措、人人害怕,連大將軍馬塞拉斯都苦笑的承認:「這是一場羅馬艦隊與阿基米德一人的戰爭」、「阿基米德是神話中的百手巨人」。

由 於久攻不下,馬塞拉斯改變策略,以圍城的持久戰來斷絕城內糧食,這個妙計使得阿基米德也無可奈何,公元前212年敘拉古終於被羅馬軍隊攻陷,相傳羅馬軍隊 進城時,阿基米德正在自家宅前的地上畫圖研究幾何問題,一個羅馬戰士走近沈思中的阿基米德,並把地上所畫的圖形踩壞了。阿基米德說:「站開些,別踩壞我的 圖形!」戰士一聽十分生氣,於是拔出刀來,朝阿基米德身上刺下去,這位偉大的科學家就一命嗚呼了。

馬塞拉斯聽到這消息後十分悲痛,於是為阿基米德建了一座刻有圓形和球的圖形的墓,來表達他對這位偉大科學家、偉大對手的敬意。

 

阿基米德式螺旋抽水機

阿 基米德发展了天文学测量用的十字测角器,并制成了一架测算太阳对向地球角度的仪器。他最著名的发现是浮力和相对密度原理,即物体在液体中减轻的视重,等于 排去液体的重量,后来以阿基米德原理著称于世。在几何学上,他创立了一种求圆周率的方法,即圆周的周长和其直径的关系。

阿基米德有句名言: “给我一个支点,我就可以舉起地球。”他一生专心研究科学上的体积和浮力问题,有一个有趣的故事,就是当时候国王叫金匠打造一顶纯金的皇冠,国王因为怀疑 金匠加了杂物,就请阿基米德鉴定,阿基米德一直在想鉴定的方法,就在他走进浴缸里洗澡的时候,看见满出去的水时,悟出利用浮力测量不规则物体密度的方法, 他高兴的跑出浴室,大叫:“我找到了!(εύρηκα)”一时忘了自己是光着身体。另外,阿基米德还有几何方面的数学成就。

阿基米德是第一位讲科学的工程师,在他的研究中,使用欧几里得的方法,先假设,再以严谨的逻辑推论得到结果,他不断地寻求一般性的原则而用于特殊的工程上。他的作品始终融合数学和物理,因此阿基米德成为物理学之父。

他应用杠杆原理于战争,保卫西拉斯鸠的事蹟是家喻户晓的。而他也以同一原理导出部分球体的体积、回转体的体积(椭球、回转抛物面、回转双曲面),此外,他也讨论阿基米德螺线(例如:苍蝇由等速旋转的唱盘中心向外走去所留下的轨迹),圆、球体、圆柱的相关原理,其成就。

阿 基米德将欧几里得提出的趋近观念作了有效的运用,他提出圆内接多边形和相似圆外切多边形,当边数足够大时,两多边形的周长便一个由上,一个由下的趋近于圆 周长。他先用六边形,以后逐次加倍边数,到了九十六边形,求出π的估计值介于3.14163和3.14286之间。另外他算出球的表面积是其内接最大圆面 积的四倍。而他又导出圆柱内切球体的体积是圆柱体积的三分之二,这个定理就刻在他的墓碑上。

[编辑] 著作

  • 《方法论》
  • 《论浮体》
    • 此书讨论物体的浮力,研究了旋转抛物体在流体中的稳定性
  • 《论球与圆柱》
    • 此书从几个定义和公理出发,推出关于球与圆柱面积和体积等50多个命题
  • 《平面图形的平衡或其重心》
    • 此书从几个基本假设出发,通过严格的几何方法论证力学原理,并求出若干平面图形的重心
  • 《数沙者》
    • 此书主要讲述设计一种可以表示任何大数目的方法
  • 《论杠杆》
  • 《论劈锥曲面体与球体》
  • 《抛物线求积》
  • 《论螺线》



引用出處: 

 http://zh.wikipedia.org/zh/%E9%98%BF%E5%9F%BA%E7%B1%B3%E5%BE%B7

歡迎來到Bewise Inc.的世界,首先恭喜您來到這接受新的資訊讓產業更有競爭力,我們是提供專業刀具製造商,應對客戶高品質的刀具需求,我們可以協助客戶滿足您對產業的不同要求,我們有能力達到非常卓越的客戶需求品質,這是現有相關技術無法比擬的,我們成功的滿足了各行各業的要求,包括:精密HSS DIN切削刀具協助客戶設計刀具流程DIN or JIS 鎢鋼切削刀具設計NAS986 NAS965 NAS897 NAS937orNAS907 航太切削刀具,NAS航太刀具設計超高硬度的切削刀具醫療配件刀具設計複合式再研磨機PCD地板專用企口鑽石組合刀具粉末造粒成型機主機版專用頂級電桿PCD V-Cut捨棄式圓鋸片組粉末成型機航空機械鉸刀主機版專用頂級電汽車業刀具設計電子產業鑽石刀具木工產業鑽石刀具銑刀與切斷複合再研磨機銑刀與鑽頭複合再研磨機銑刀與螺絲攻複合再研磨機等等。我們的產品涵蓋了從民生刀具到工業級的刀具設計;從微細刀具到大型刀具;從小型生產到大型量產;全自動整合;我們的技術可提供您連續生產的效能,我們整體的服務及卓越的技術,恭迎您親自體驗!!  

BW Bewise Inc. Willy Chen willy@tool-tool.com  bw@tool-tool.com  www.tool-tool.com skype:willy_chen_bw mobile:0937-618-190 Head &Administration Office No.13,Shiang Shang 2nd St., West Chiu Taichung,Taiwan 40356 http://www.tool-tool.com/ / FAX:+886 4 2471 4839 N.Branch 5F,No.460,Fu Shin North Rd.,Taipei,Taiwan S.Branch No.24,Sec.1,Chia Pu East Rd.,Taipao City,Chiayi Hsien,Taiwan

Welcome to BW tool world! We are an experienced tool maker specialized in cutting tools. We focus on what you need and endeavor to research the best cutter to satisfy users demand. Our customers involve wide range of industries, like mold & die, aerospace, electronic, machinery, etc. We are professional expert in cutting field. We would like to solve every problem from you. Please feel free to contact us, its our pleasure to serve for you. BW product including: cutting toolaerospace tool .HSS  DIN Cutting toolCarbide end millsCarbide cutting toolNAS Cutting toolNAS986 NAS965 NAS897 NAS937orNAS907 Cutting Tools,Carbide end milldisc milling cutter,Aerospace cutting toolhss drillФрезерыCarbide drillHigh speed steelCompound SharpenerMilling cutterINDUCTORS FOR PCD’CVDD(Chemical Vapor Deposition Diamond )’PCBN (Polycrystalline Cubic Boron Nitride) Core drillTapered end millsCVD Diamond Tools Inserts’PCD Edge-Beveling Cutter(Golden FingerPCD V-CutterPCD Wood toolsPCD Cutting toolsPCD Circular Saw BladePVDD End Millsdiamond tool. INDUCTORS FOR PCD . POWDER FORMING MACHINE Single Crystal Diamond Metric end millsMiniature end millsСпециальные режущие инструменты Пустотелое сверло Pilot reamerFraisesFresas con mango PCD (Polycrystalline diamond) ‘FresePOWDER FORMING MACHINEElectronics cutterStep drillMetal cutting sawDouble margin drillGun barrelAngle milling cutterCarbide burrsCarbide tipped cutterChamfering toolIC card engraving cutterSide cutterStaple CutterPCD diamond cutter specialized in grooving floorsV-Cut PCD Circular Diamond Tipped Saw Blade with Indexable Insert PCD Diamond Tool Saw Blade with Indexable InsertNAS toolDIN or JIS toolSpecial toolMetal slitting sawsShell end millsSide and face milling cuttersSide chip clearance sawsLong end millsend mill grinderdrill grindersharpenerStub roughing end millsDovetail milling cuttersCarbide slot drillsCarbide torus cuttersAngel carbide end millsCarbide torus cuttersCarbide ball-nosed slot drillsMould cutterTool manufacturer.

Bewise Inc.  www.tool-tool.com

ようこそBewise Inc.の世界へお越し下さいませ、先ず御目出度たいのは新たな

情報を受け取って頂き、もっと各産業に競争力プラス展開。

弊社は専門なエンドミルの製造メーカーで、客先に色んな分野のニーズ

豊富なパリエーションを満足させ、特にハイテク品質要求にサポート致します。

弊社は各領域に供給できる内容は:

(1)精密HSSエンドミルのR&D

(2)Carbide Cutting tools設計

(3)鎢鋼エンドミル設計

(4)航空エンドミル設計

(5)超高硬度エンドミル

(6)ダイヤモンドエンドミル

(7)医療用品エンドミル設計

(8)自動車部品&材料加工向けエンドミル設計

弊社の製品の供給調達機能は:

(1)生活産業~ハイテク工業までのエンドミル設計

(2)ミクロエンドミル~大型エンドミル供給

(3)小Lot生産~大量発注対応供給

(4)オートメーション整備調達

(5)スポット対応~流れ生産対応

弊社の全般供給体制及び技術自慢の総合専門製造メーカーに貴方のご体験を御待ちしております。   

Bewise Inc. talaşlı imalat sanayinde en fazla kullanılan ve üç eksende (x,y,z) talaş kaldırabilen freze takımlarından olan Parmak Freze imalatçısıdır. Çok geniş ürün yelpazesine sahip olan firmanın başlıca ürünlerini Karbür Parmak Frezeler, Kalıpçı Frezeleri, Kaba Talaş Frezeleri, Konik Alın Frezeler, Köşe Radyüs Frezeler, İki Ağızlı Kısa ve Uzun Küresel Frezeler, İç Bükey Frezeler vb. şeklinde sıralayabiliriz.

BW специализируется в научных исследованиях и разработках, и снабжаем самым высокотехнологичным карбидовым материалом для поставки режущих / фрезеровочных инструментов для почвы, воздушного пространства и электронной индустрии. В нашу основную продукцию входит твердый карбид / быстрорежущая сталь, а также двигатели, микроэлектрические дрели, IC картонорезальные машины, фрезы для гравирования, режущие пилы, фрезеры-расширители, фрезеры-расширители с резцом, дрели, резаки форм для шлицевого вала / звездочки роликовой цепи, и специальные нано инструменты. Пожалуйста, посетите сайт  www.tool-tool.com  для получения большей информации.

BW is specialized in R&D and sourcing the most advanced carbide material with high-tech coating to supply cutting / milling tool for mould & die, aero space and electronic industry. Our main products include solid carbide / HSS end mills, micro electronic drill, IC card cutter, engraving cutter, shell end mills, cutting saw, reamer, thread reamer, leading drill, involute gear cutter for spur wheel, rack and worm milling cutter, thread milling cutter, form cutters for spline shaft/roller chain sprocket, and special tool, with nano grade. Please visit our web  www.tool-tool.com  for more info.

 

beeway 發表在 痞客邦 留言(0) 人氣()

BW公司最近開發新式鑽石刀具應用與產品、鑽石特性等相關研究~~

随着工业技术演进,各种科技产品以及日常用品走向多样化的趋势,因此对于精密加工的精度要求也不断提升,同时也必须降低成本,以创造更多的利润。

本 车刀片创作之主要目的在于提供一种具多元高性能合金氮化物被覆层之车刀片,昔往的车刀片依其厚度以及锐利度差异改善,往往仅具有切削或研磨特定材料之功 能,且于其模具设计完成后即定型,仅能藉由改变其材料,生产具不同物理性质之车刀片,却无法改变其切削或研磨之功能,亦无法使用于其它材料之切削或研磨等 缺点。

可以在以下網址下載。 

下載網頁:http://tw.tool-tool.com/diamond.html

歡迎來到Bewise Inc.的世界,首先恭喜您來到這接受新的資訊讓產業更有競爭力,我們是提供專業刀具製造商,應對客戶高品質的刀具需求,我們可以協助客戶滿足您對產業的不同要求,我們有能力達到非常卓越的客戶需求品質,這是現有相關技術無法比擬的,我們成功的滿足了各行各業的要求,包括:精密HSS DIN切削刀具協助客戶設計刀具流程DIN or JIS 鎢鋼切削刀具設計NAS986 NAS965 NAS897 NAS937orNAS907 航太切削刀具,NAS航太刀具設計超高硬度的切削刀具醫療配件刀具設計複合式再研磨機PCD地板專用企口鑽石組合刀具粉末造粒成型機主機版專用頂級電桿PCD V-Cut捨棄式圓鋸片組粉末成型機航空機械鉸刀主機版專用頂級電汽車業刀具設計電子產業鑽石刀具木工產業鑽石刀具銑刀與切斷複合再研磨機銑刀與鑽頭複合再研磨機銑刀與螺絲攻複合再研磨機等等。我們的產品涵蓋了從民生刀具到工業級的刀具設計;從微細刀具到大型刀具;從小型生產到大型量產;全自動整合;我們的技術可提供您連續生產的效能,我們整體的服務及卓越的技術,恭迎您親自體驗!!

BW Bewise Inc. Willy Chen willy@tool-tool.com  bw@tool-tool.com  www.tool-tool.com skype:willy_chen_bw mobile:0937-618-190 Head &Administration Office No.13,Shiang Shang 2nd St., West Chiu Taichung,Taiwan 40356 http://www.tool-tool.com/ / FAX:+886 4 2471 4839 N.Branch 5F,No.460,Fu Shin North Rd.,Taipei,Taiwan S.Branch No.24,Sec.1,Chia Pu East Rd.,Taipao City,Chiayi Hsien,Taiwan

Welcome to BW tool world! We are an experienced tool maker specialized in cutting tools. We focus on what you need and endeavor to research the best cutter to satisfy users demand. Our customers involve wide range of industries, like mold & die, aerospace, electronic, machinery, etc. We are professional expert in cutting field. We would like to solve every problem from you. Please feel free to contact us, its our pleasure to serve for you. BW product including: cutting toolaerospace tool .HSS  DIN Cutting toolCarbide end millsCarbide cutting toolNAS Cutting toolNAS986 NAS965 NAS897 NAS937orNAS907 Cutting Tools,Carbide end milldisc milling cutter,Aerospace cutting toolhss drillФрезерыCarbide drillHigh speed steelCompound SharpenerMilling cutterINDUCTORS FOR PCD’CVDD(Chemical Vapor Deposition Diamond )’PCBN (Polycrystalline Cubic Boron Nitride) Core drill、Tapered end millsCVD Diamond Tools Inserts’PCD Edge-Beveling Cutter(Golden FingerPCD V-CutterPCD Wood toolsPCD Cutting toolsPCD Circular Saw BladePVDD End Millsdiamond tool. INDUCTORS FOR PCD . POWDER FORMING MACHINE Single Crystal Diamond Metric end millsMiniature end millsСпециальные режущие инструменты Пустотелое сверло Pilot reamerFraisesFresas con mango PCD (Polycrystalline diamond) ‘FresePOWDER FORMING MACHINEElectronics cutterStep drillMetal cutting sawDouble margin drillGun barrelAngle milling cutterCarbide burrsCarbide tipped cutterChamfering toolIC card engraving cutterSide cutterStaple CutterPCD diamond cutter specialized in grooving floorsV-Cut PCD Circular Diamond Tipped Saw Blade with Indexable Insert PCD Diamond Tool Saw Blade with Indexable InsertNAS toolDIN or JIS toolSpecial toolMetal slitting sawsShell end millsSide and face milling cuttersSide chip clearance sawsLong end millsend mill grinderdrill grindersharpenerStub roughing end millsDovetail milling cuttersCarbide slot drillsCarbide torus cuttersAngel carbide end millsCarbide torus cuttersCarbide ball-nosed slot drillsMould cutterTool manufacturer.

Bewise Inc.  www.tool-tool.com

ようこそBewise Inc.の世界へお越し下さいませ、先ず御目出度たいのは新たな

情報を受け取って頂き、もっと各産業に競争力プラス展開。

弊社は専門なエンドミルの製造メーカーで、客先に色んな分野のニーズ

豊富なパリエーションを満足させ、特にハイテク品質要求にサポート致します。

弊社は各領域に供給できる内容は:

(1)精密HSSエンドミルのR&D

(2)Carbide Cutting tools設計

(3)鎢鋼エンドミル設計

(4)航空エンドミル設計

(5)超高硬度エンドミル

(6)ダイヤモンドエンドミル

(7)医療用品エンドミル設計

(8)自動車部品&材料加工向けエンドミル設計

弊社の製品の供給調達機能は:

(1)生活産業~ハイテク工業までのエンドミル設計

(2)ミクロエンドミル~大型エンドミル供給

(3)小Lot生産~大量発注対応供給

(4)オートメーション整備調達

(5)スポット対応~流れ生産対応

弊社の全般供給体制及び技術自慢の総合専門製造メーカーに貴方のご体験を御待ちしております。   

Bewise Inc. talaşlı imalat sanayinde en fazla kullanılan ve üç eksende (x,y,z) talaş kaldırabilen freze takımlarından olan Parmak Freze imalatçısıdır. Çok geniş ürün yelpazesine sahip olan firmanın başlıca ürünlerini Karbür Parmak Frezeler, Kalıpçı Frezeleri, Kaba Talaş Frezeleri, Konik Alın Frezeler, Köşe Radyüs Frezeler, İki Ağızlı Kısa ve Uzun Küresel Frezeler, İç Bükey Frezeler vb. şeklinde sıralayabiliriz.

BW специализируется в научных исследованиях и разработках, и снабжаем самым высокотехнологичным карбидовым материалом для поставки режущих / фрезеровочных инструментов для почвы, воздушного пространства и электронной индустрии. В нашу основную продукцию входит твердый карбид / быстрорежущая сталь, а также двигатели, микроэлектрические дрели, IC картонорезальные машины, фрезы для гравирования, режущие пилы, фрезеры-расширители, фрезеры-расширители с резцом, дрели, резаки форм для шлицевого вала / звездочки роликовой цепи, и специальные нано инструменты. Пожалуйста, посетите сайт  www.tool-tool.com  для получения большей информации.

BW is specialized in R&D and sourcing the most advanced carbide material with high-tech coating to supply cutting / milling tool for mould & die, aero space and electronic industry. Our main products include solid carbide / HSS end mills, micro electronic drill, IC card cutter, engraving cutter, shell end mills, cutting saw, reamer, thread reamer, leading drill, involute gear cutter for spur wheel, rack and worm milling cutter, thread milling cutter, form cutters for spline shaft/roller chain sprocket, and special tool, with nano grade. Please visit our web  www.tool-tool.com  for more info.

 

beeway 發表在 痞客邦 留言(0) 人氣()

技術與商業的創新浪潮將為智慧型手機市場帶來怎樣的下一波衝擊?以下是三個值得注意的可能答案。

 

1. 更多智慧型手機

 

第一個答案是,智慧型手機市場規模將會不斷擴大,目前該市場的成長力道將保持強勁;越來越多人將開始使用智慧型手機,並下載更多的應用程式。驅動市場成長的因素包括:

 

˙智慧型手機產品價格下滑;

˙網路連結性的改善;

˙前所未有之內容豐富的各種應用程式,可因應每個手機使用者的個人需求;

˙因為廠商競爭而激勵的應用程式、網路與智慧手機本身的品質改進;

˙由體驗過令人印象深刻之行動服務的消費者迅速傳播開來的口碑推薦。

 

也許很快地在某一天,全球將有超過五成以上的手機屬於智慧型機種。

 

2. 超級手機

 

第二個答案是,智慧手機將變得更聰明、功能更多;而其進化的程度可能會高到已經無法再適用「智慧型手機」這個名詞。Google在推出其Nexus One 手機時,曾用了「超級手機(superphone)」這個新名詞,當時該公司的宣傳內容是:

 

Nexus One是採用Android之行動裝置的典範──超酷的應用程式搭配速度快、聰明、具備上網功能、還可放進口袋的電腦。Nexus One是屬於我們稱之為「超級手機」的新一類裝置,是我們期望有一整個系列的首款產品,將與通訊服務業者、硬體合作夥伴共同推出市場,並透過我們的網路商 店販售。

 

更新一代的智慧型手機──無論我們叫它們什麼──通常代表內含了更多功能的運算科技,包括更強大的應用程式陣容,以及更具實用性的功能。

 

3. 次手機

 

前面所列的第一個答案,是智慧型手機將變得更加普遍,第二個答案則是智慧型手機會變得更強大;筆者認為這兩個答案的可能性都很高,也很容易被接受,但是還有第三個可能的答案,與前兩個一樣合理,甚至或許值得更加注意。

 

由 於智慧型手機技術也越來越被廣泛應用在各種看起來並不像智慧型手機的、型態各異的裝置中,這些裝置不只尺寸比智慧型手機大,在各方面也都與智慧型手機不 同。如果以「全都是智慧型手機」來形容2000至2010年的手機產業,也許「無所不在的智慧型手機技術」會是對未來十年的最佳形容。

 

這 句話描繪了嵌入式軟體技術的新浪潮;傳統上,嵌入式軟體是用在那些外型不像是電腦的運算裝置中,但新一代的嵌入式軟體,則是內含在那些看起來不是智慧型手 機、卻運用了智慧型手機技術的裝置中。如果硬要創一個更切合的名詞,也許可以把這些裝置稱為「次手機(subphones),因為手機的基本功能已經被淹 沒(或嵌入)其中。

 

無所不在的智慧型手機技術

 

所謂的「智慧型手機技術(smartphone technology)」,指的是那些在智慧型手機蓬勃商機驅動下所產生的(包括軟硬體)技術進展。市場競爭壓力帶來的價格下滑、品質升級以及更多的新功能,所衍生的產物包括:

 

˙各種無線通訊晶片與相關軟體;

˙能在不同無線網路間無縫漫遊的軟體;

˙大規模的資料儲存與資訊管理──透過單一裝置、雲端技術來進行;

˙透過小尺寸、精緻的高解析度圖形顯示器所展現的、具吸引力的使用者介面;

˙串流行動多媒體。

 

這 些衍生的進展讓那些個別零組件能被重組成不同的「次手機」裝置,例如:平板裝置(tablets and slates)、連網消費性電子裝置(包括攝影機、PND等)、智慧衣物(smart clothing,或稱可穿戴式電腦)──或是新的個人區域網路(PAN)。

 

這類「次手機」裝置的數量,可能會在短短幾年 內就達到幾千億台(甚至以上),並將開啟一個機器對機器(M2M)無線通訊、多過於牽涉人類直接通訊的新時代;我們所生活的世界,不只將充滿各種智慧型裝 置,還將被所謂的「物聯網(Internet of Things)」所包圍。

 

取得利益之前得克服的障礙

 

智 慧型手機技術將帶來許多商機,但這些商機本身隱含許多風險與爭議;有部分大型手機廠商,已經在智慧型手機浪潮中敗陣,接下來還會有手機廠商在過渡到「超級 手機」的路途中掙扎生存──在邁向「次手機」的過程中也一樣,那遠比所想像得更艱難,需要全新的思維,而且要能充分發揮那些新思維。

 

要想透過顛覆性的技術整合來創造成功產品,通常需要遠超過原始技術專長的能力,還得加上更多其他方面的專長,例如:

 

˙商業模式的創新──以一套創新模式吸引新廠商,並扮演全新角色(通常是互補性的);

˙生態系統的管理──激勵不同類型的開發商以具建設性的模式共同合作;

˙系統整合與最佳化──所以各種零組件技術能整合成穩定、強韌且實用的整體;

˙強調使用者體驗的設計──才能吸引使用者投入並忠於新的使用模式。

 

軟體的演進意味著某些問題會比過去來得容易解決,新一代的設計工具能將很多以往非常複雜、令人卻步的工作自動化;但是,隨著軟體以新穎的姿態與來自不同領域的技術共同合作,也會產生一些無法預料的新問題,也帶來新的障礙。

 

舉例來說,形態互異的「次手機」之間可能會產生一些意想不到的互動,導致在社交網路、商業應用或是技術方面的一些應用瑕疵。因此,儘管在智慧型手機之後,可能會衍生各種各樣美好的商機,但想取得這些商機,必須更小心謹慎。

 

要知道,擅長於某一個時代之行動技術的廠商(例如傳統手機),有時候在邁向下一個時代(例如超級手機)的過程中,也是會跌一大跤的。

 

(參考原文: What comes next after smartphones?,by David Wood;本文作者為Accenture顧問公司的嵌入式軟體服務技術長)

 

歡迎來到Bewise Inc.的世界,首先恭喜您來到這接受新的資訊讓產業更有競爭力,我們是提供專業刀具製造商,應對客戶高品質的刀具需求,我們可以協助客戶滿足您對產業的不同要求,我們有能力達到非常卓越的客戶需求品質,這是現有相關技術無法比擬的,我們成功的滿足了各行各業的要求,包括:精密HSS DIN切削刀具協助客戶設計刀具流程DIN or JIS 鎢鋼切削刀具設計NAS986 NAS965 NAS897 NAS937orNAS907 航太切削刀具,NAS航太刀具設計超高硬度的切削刀具醫療配件刀具設計複合式再研磨機PCD地板專用企口鑽石組合刀具粉末造粒成型機主機版專用頂級電桿PCD V-Cut捨棄式圓鋸片組粉末成型機航空機械鉸刀主機版專用頂級電汽車業刀具設計電子產業鑽石刀具木工產業鑽石刀具銑刀與切斷複合再研磨機銑刀與鑽頭複合再研磨機銑刀與螺絲攻複合再研磨機等等。我們的產品涵蓋了從民生刀具到工業級的刀具設計;從微細刀具到大型刀具;從小型生產到大型量產;全自動整合;我們的技術可提供您連續生產的效能,我們整體的服務及卓越的技術,恭迎您親自體驗!!  

BW Bewise Inc. Willy Chen willy@tool-tool.com  bw@tool-tool.com  www.tool-tool.com skype:willy_chen_bw mobile:0937-618-190 Head &Administration Office No.13,Shiang Shang 2nd St., West Chiu Taichung,Taiwan 40356 http://www.tool-tool.com/ / FAX:+886 4 2471 4839 N.Branch 5F,No.460,Fu Shin North Rd.,Taipei,Taiwan S.Branch No.24,Sec.1,Chia Pu East Rd.,Taipao City,Chiayi Hsien,Taiwan

Welcome to BW tool world! We are an experienced tool maker specialized in cutting tools. We focus on what you need and endeavor to research the best cutter to satisfy users demand. Our customers involve wide range of industries, like mold & die, aerospace, electronic, machinery, etc. We are professional expert in cutting field. We would like to solve every problem from you. Please feel free to contact us, its our pleasure to serve for you. BW product including: cutting toolaerospace tool .HSS  DIN Cutting toolCarbide end millsCarbide cutting toolNAS Cutting toolNAS986 NAS965 NAS897 NAS937orNAS907 Cutting Tools,Carbide end milldisc milling cutter,Aerospace cutting toolhss drillФрезерыCarbide drillHigh speed steelCompound SharpenerMilling cutterINDUCTORS FOR PCD’CVDD(Chemical Vapor Deposition Diamond )’PCBN (Polycrystalline Cubic Boron Nitride) Core drill、Tapered end millsCVD Diamond Tools Inserts’PCD Edge-Beveling Cutter(Golden FingerPCD V-CutterPCD Wood toolsPCD Cutting toolsPCD Circular Saw BladePVDD End Millsdiamond tool. INDUCTORS FOR PCD . POWDER FORMING MACHINE Single Crystal Diamond Metric end millsMiniature end millsСпециальные режущие инструменты Пустотелое сверло Pilot reamerFraisesFresas con mango PCD (Polycrystalline diamond) ‘FresePOWDER FORMING MACHINEElectronics cutterStep drillMetal cutting sawDouble margin drillGun barrelAngle milling cutterCarbide burrsCarbide tipped cutterChamfering toolIC card engraving cutterSide cutterStaple CutterPCD diamond cutter specialized in grooving floorsV-Cut PCD Circular Diamond Tipped Saw Blade with Indexable Insert PCD Diamond Tool Saw Blade with Indexable InsertNAS toolDIN or JIS toolSpecial toolMetal slitting sawsShell end millsSide and face milling cuttersSide chip clearance sawsLong end millsend mill grinderdrill grindersharpenerStub roughing end millsDovetail milling cuttersCarbide slot drillsCarbide torus cuttersAngel carbide end millsCarbide torus cuttersCarbide ball-nosed slot drillsMould cutterTool manufacturer.

Bewise Inc.  www.tool-tool.com

ようこそBewise Inc.の世界へお越し下さいませ、先ず御目出度たいのは新たな

情報を受け取って頂き、もっと各産業に競争力プラス展開。

弊社は専門なエンドミルの製造メーカーで、客先に色んな分野のニーズ

豊富なパリエーションを満足させ、特にハイテク品質要求にサポート致します。

弊社は各領域に供給できる内容は:

(1)精密HSSエンドミルのR&D

(2)Carbide Cutting tools設計

(3)鎢鋼エンドミル設計

(4)航空エンドミル設計

(5)超高硬度エンドミル

(6)ダイヤモンドエンドミル

(7)医療用品エンドミル設計

(8)自動車部品&材料加工向けエンドミル設計

弊社の製品の供給調達機能は:

(1)生活産業~ハイテク工業までのエンドミル設計

(2)ミクロエンドミル~大型エンドミル供給

(3)小Lot生産~大量発注対応供給

(4)オートメーション整備調達

(5)スポット対応~流れ生産対応

弊社の全般供給体制及び技術自慢の総合専門製造メーカーに貴方のご体験を御待ちしております。   

Bewise Inc. talaşlı imalat sanayinde en fazla kullanılan ve üç eksende (x,y,z) talaş kaldırabilen freze takımlarından olan Parmak Freze imalatçısıdır. Çok geniş ürün yelpazesine sahip olan firmanın başlıca ürünlerini Karbür Parmak Frezeler, Kalıpçı Frezeleri, Kaba Talaş Frezeleri, Konik Alın Frezeler, Köşe Radyüs Frezeler, İki Ağızlı Kısa ve Uzun Küresel Frezeler, İç Bükey Frezeler vb. şeklinde sıralayabiliriz.

BW специализируется в научных исследованиях и разработках, и снабжаем самым высокотехнологичным карбидовым материалом для поставки режущих / фрезеровочных инструментов для почвы, воздушного пространства и электронной индустрии. В нашу основную продукцию входит твердый карбид / быстрорежущая сталь, а также двигатели, микроэлектрические дрели, IC картонорезальные машины, фрезы для гравирования, режущие пилы, фрезеры-расширители, фрезеры-расширители с резцом, дрели, резаки форм для шлицевого вала / звездочки роликовой цепи, и специальные нано инструменты. Пожалуйста, посетите сайт  www.tool-tool.com  для получения большей информации.

BW is specialized in R&D and sourcing the most advanced carbide material with high-tech coating to supply cutting / milling tool for mould & die, aero space and electronic industry. Our main products include solid carbide / HSS end mills, micro electronic drill, IC card cutter, engraving cutter, shell end mills, cutting saw, reamer, thread reamer, leading drill, involute gear cutter for spur wheel, rack and worm milling cutter, thread milling cutter, form cutters for spline shaft/roller chain sprocket, and special tool, with nano grade. Please visit our web  www.tool-tool.com  for more info.

 

beeway 發表在 痞客邦 留言(1) 人氣()