美国R&D税收抵免制度

加拿大MDA公司收购r美国数字全球公司事件简析王聪;李云【期刊名称】《国际太空》【年(卷),期】2017(000)007【总页数】4页(P68-71)【作者】王聪;李云【作者单位】中国航天系统科学与工程研究院;中国航天系统科学与工程研究院【正文语种】中文2017年2月，加拿大麦克唐纳·德特威勒联合公司（MDA）提出将以24亿美元收购美国遥感卫星运营商数字全球公司（DigitalGlobe）并承担其12亿美元债务，创下全球卫星遥感市场商业收购最高金额记录。

数字全球公司是全球最大的高分辨率商业成像卫星运营商，其被MDA公司收购是近年商业卫星遥感领域深刻变革下的标志性事件，将对未来卫星遥感产业产生重要影响。

2017年2月24日，MDA公司宣布将采用现金加股票的方式，以每股35美元、总金额24亿美元的价格收购美国数字全球公司，此外MDA公司还将承担其12亿美元的净债务。

目前，该收购交易已经获得两家公司管理层的一致同意，正在等待美国和加拿大监管机构的批准，预计将在2017年下半年完成。

此次收购协议内容包括：①数字全球公司在收购完成后成为MDA美国分公司劳拉空间系统-MDA控股公司（SSL-MDA Holdings）的子公司，具备独立运营权，并由现任MDA公司总裁兼首席执行官（CEO）兼SSL-MDA控股公司CEO的霍华德·兰斯直接领导；②数字全球公司3名现任董事进入MDA公司董事会；③数字全球公司名称、品牌和位于美国科罗拉多州威斯敏斯特的总部保持不变。

此外，MDA公司还与数字全球公司签订协议，规定一旦收购交易无法顺利完成，数字全球公司将获得MDA公司1.5亿美元的补偿。

数字全球公司是美国主要的遥感卫星运营商，承担大量美国政府和军方业务。

为获得美国政府对此次收购的批准，MDA公司通过“美国访问计划”，在收购前展开了一系列准备工作，包括：①在2016年5月聘请美籍人员、美国哈里斯公司前总裁霍华德·兰斯作为公司总裁兼CEO；②重组MDA公司在美国的业务部门，将加拿大和美国业务运营权统一交由SSL-MDA控股公司管理；③计划在2019年前完成SSLMDA公司进一步重组，最终实现在纽约证券交易所上市，成为完全的美国本土公司。

r-value is a us 标准R-值是美国标准（U.S. Standard）中的一个重要概念，它被用来衡量建筑材料对热量传导的阻抗能力。

在建筑领域，热能的传导会导致能源的浪费，因此必须采取适当的措施来减少热能的损失。

R-值可以帮助我们评估材料的绝热性能，在建筑设计和能源节约方面具有重要意义。

R-值是热阻的度量单位，表示单位面积上构件能阻挡的热量传导。

它的计算公式为R = d/k，其中d表示构件的厚度，k表示构件的热导率。

R-值越高，表明材料的绝热性能越好，热量传导的阻力越大。

反之，R-值越低，则构件对热量传导的抵抗能力越弱。

R-值在建筑行业被广泛应用，特别是在选择建筑保温材料和节能建筑系统方面。

通过合理使用高R-值的材料和构件，可以减少建筑物对外界环境温度变化的敏感性，提高建筑物内部的舒适度，并减少空调和供暖系统的负荷，从而降低能源消耗和运营成本。

在美国，R-值是衡量建筑材料绝热性能的主要标准。

根据美国联邦贸易委员会（Federal Trade Commission, FTC）的要求，建筑材料必须在其产品标签上清晰地标明R-值，并且必须经过独立第三方实验室的测试和认证。

这样一来，消费者就可以比较不同材料的绝热性能，并做出更明智的购买决策，从而达到降低能源消耗和保护环境的目标。

R-值的应用不仅局限于建筑材料，还可以用于评估建筑系统和整个建筑物的绝热性能。

例如，在房屋建筑中，隔热板的R-值可以衡量墙体保温水平的高低；屋顶和地面的R-值可以评估建筑物顶部和底部的绝热性能。

此外，系统的R-值也可用于评估供暖、通风和空调（HVAC）系统的效率，以及建筑物整体能源消耗的节约和环保程度。

要注意的是，R-值并不是唯一的衡量绝热性能的指标，其他参数如U-值和λ（lambda）值也是常用的测量标准。

U-值是热传导率的倒数，表示单位面积上的热量流失量，U = 1/R。

而λ值则是热导率，用来衡量单位长度材料的导热性能，单位为热量在单位长度上的传导量。

美国的人力资源职业资格认证提升人力资源从业者的资信水平在美国，浏览分类招聘广告，你会发现一个很明显的趋势--雇主们越来越注重招聘那些持有更高级别人力资源职业资格证书的人力资源经理。

通过认证项目确认人力资源专业人员，不断更新人力资源从业者的知识和技能，从而提升人力资源从业者的资信水平，是各类不同的人力资源行业组织推出和发展不同级别与专业领域的人力资源职业资格认证项目的出发点。

你可以申请哪些人力资源职业资格证书？对于一位刚刚进入职场而又想从事人力资源管理和开发职业的你来说，面对这些由不同类别的人力资源行业组织提供的人力资源职业资格认证项目，你显然有些茫然无措--哪一个项目对目前的自己来说是最好的、为什么是最好的？相信这样的选择标准会对你有所助益--首先评价一下你在人力资源管理和开发方面的知识结构和能力水平，然后全面考虑一下你所在企业的行业特点、经营环境和人力资源开发方面所急需加强的工作，最后结合你自己的职业生涯发展的短期和长期目标综合考虑，值得一提的是，不要计较通过该认证项目所需花费的时间和金钱。

一、人力资源专业人员证书（PHR）和人力资源高级专业人员证书（SPHR）人力资源专业人员证书（PHR）和人力资源高级专业人员证书（SPHR）是由美国人力资源认证协会（HRCI）主持的认证项目，该认证项目赢得了业界的广泛信赖，成为人力资源从业者的首选证书。

人力资源认证协会（HRCI）隶属于美国人力资源管理协会（SHRM）。

由于HRCI创建于1976年，HRCI对许多人力资源职业有认证的资格。

为了评估从业者的专业知识和技能能够不断适应处于变革中的企业和各关组织，针对个人申请者的PHR和SPHR认证和再认证考试要求申请者掌握该领域的专业知识和由于科技变革与经营变化所要求的新的思想和技能。

该考试涵盖了如下的内容：管理实务，职业实践基础，人员配备，人力资源开发，薪酬和福利，员工和劳动关系，职业安全与健康等。

"通过参加资格认证考试和再认证考试，我的专业知识和技能总是保持在前沿状态，"姗德拉·德明（Sandra k. Deming）从1992年开始参加认证考试，她说，"资格证书使我不断地赢得雇主的高度评价与赞扬。

数据模型与决策分析案例一、问题提出美国R银行最近赢得了一份合同，为宾夕法尼亚的众多公司修建一个服务区，使得他们可以开启网上交易，便捷各自的生活。

R银行负责区域银行卡的网上注册，数据维护与测试。

为了完成这项工作，美国R银行的负责人兼总经理Bob xx估计，区域内所有员工银行卡的注册与网上注册所需要的总工期大约需要4个月，并且完成这项庞大的任务需要许多的云服务器支持，从各项数据，可以得知，从第1个月到第4个月需要的云服务器分别为10、12、14、8台云服务器。

虽然说到目前为止美国R银行已经有20台云服务器，但大部分的台云服务器都有任务，都要支持运行维护已经注册的人员的银行数据，因此，必须从从P xx云服务器租赁公司租借部分的云服务器。

并且Bob估计，虽然说本公司这些云服务器有其他的任务，但每个月任然有部分可以抽调出来供这一份项目使用，第1个月有1台云服务器可以用于服务区的网上注册，数据维护与测试任务，第2个月有2台云服务器可以用于服务区任务，第3个月有3台云服务器可以用于服务区任务，第4个月有1台云服务器可以用于服务区任务。

因此为了完成任务，美国R银行还需要租借更多的云服务器来完成这一份合同。

从P xx云服务器公司长期租用云服务器的费用是每台云服务器每月600美元。

云服务器的坐守监视工作人员的工资是每小时20美元，每台云服务器每天消耗流量电量等数据网络方面花费为100美元。

所有的云服务器维修费用由Pxx云服务器公司承担。

根据美国R银行工作计划，美国R银行每天工作8小时，每周5天，每月工作4周。

Bob认为现在的情况下，美国R银行如果长期租赁云服务器是不明智的。

在与P xx云服务器公司对短期租赁合同进行讨论后，Bob了解到他可以获得1-4个月的短期租赁。

短期云服务器租赁和坐守监视技术人员的工资的价格水平都与长期租赁不同。

P xx云服务器公司司同意支付短期租赁的成本。

以下是一台云服务器一个坐守监视技术人员的短期租赁费用。

H.R.2420的实施On May 14, 2009, Rep. Michael Burgess (R-TX) introduced the bill, H.R. 2420, which proposes to amend the Toxic Substances Control ActH.R.2420的实施This Act may be cited as the ‘‘Environmental Design ofH.R.2420的主要内容H.R.2420的主要内容豁免产品products or equipment designed for use with a voltage > 300 volt豁免产品并联电容器和串联电容器，(vii) electro-mechanical and solid state equipment and systems for 绝缘设备，产品和硬件豁免产品汽轮机发电机和机组(xii) electrical wire and cable products and accessories, not including铅的豁免部件(i) steel alloys containing up to 0.35 percent lead by weight, aluminumalloys containing up to 0.4 percent lead by weight and copper alloys铅的豁免部件the electrical connection within integrated-circuit flip-chip铅的豁免部件(iv) finishes of fine-pitch components other than connectors with a pitch of 0.65 millimeters or less with nickel-iron lead frames or copper-镉和六价铬的豁免部件electrical contacts, cadmium plating and switch contacts,including those used in thermal protectors in lighting ballasts,汞的豁免部件straight fluorescent lamps for general purposes, but not exceeding 10lamps, 5 milligrams in triphosphate lamps汞的豁免部件compact fluorescent lamps equal to or greater than 25 watts, not信测测试指引reference to IEC 62321-08, the first step is disassembling信测测试指引均质材料信测测试指引）：均质材料消解分析信测测试指引：信测测试指引：信测测试指引：。

H.R.2420的实施On May 14, 2009, Rep. Michael Burgess (R-TX) introduced the bill, H.R. 2420, which proposes to amend the Toxic Substances Control ActH.R.2420的实施This Act may be cited as the ‘‘Environmental Design ofH.R.2420的主要内容H.R.2420的主要内容豁免产品products or equipment designed for use with a voltage > 300 volt豁免产品并联电容器和串联电容器，(vii) electro-mechanical and solid state equipment and systems for 绝缘设备，产品和硬件豁免产品汽轮机发电机和机组(xii) electrical wire and cable products and accessories, not including铅的豁免部件(i) steel alloys containing up to 0.35 percent lead by weight, aluminumalloys containing up to 0.4 percent lead by weight and copper alloys铅的豁免部件the electrical connection within integrated-circuit flip-chip铅的豁免部件(iv) finishes of fine-pitch components other than connectors with a pitch of 0.65 millimeters or less with nickel-iron lead frames or copper-镉和六价铬的豁免部件electrical contacts, cadmium plating and switch contacts,including those used in thermal protectors in lighting ballasts,汞的豁免部件straight fluorescent lamps for general purposes, but not exceeding 10lamps, 5 milligrams in triphosphate lamps汞的豁免部件compact fluorescent lamps equal to or greater than 25 watts, not信测测试指引reference to IEC 62321-08, the first step is disassembling信测测试指引均质材料信测测试指引）：均质材料消解分析信测测试指引：信测测试指引：信测测试指引：。

多因素影响美国玉米价格国内r玉米价格走高新浪网【期刊名称】《江西饲料》【年(卷),期】2017(000)002【总页数】1页(P54)【作者】新浪网【作者单位】【正文语种】中文2月国际市场玉米价格企稳，国内市场期、现货价格走高。

随着3月1日南美玉米销售年度开启和国内市场随着天气情况好转，后期玉米产区售粮压力将集中释放，预计玉米价格将受到供应端的明显压制。

乙醇产量增加继续支撑玉米价格行情。

今年以来，乙醇产量数据持续走强，利好玉米市场行情。

美国能源资料协会（EIA）1月发布的数据显示，美国乙醇产量一度升至105万桶∕日，库存增至2016年7月以来最高。

进入2月，以玉米为原料的乙醇产量继续攀升至106万桶∕日，超过1月触及的峰值。

此外，因有消息称美国总统特朗普计划调整美国生物燃料计划，对乙醇和生物燃料生产提供新的支持，市场预期该举措将提振以玉米为原料的乙醇需求，刺激玉米买盘操作，从而对市场价格形成支撑。

出口数据继续利好玉米市场。

截至2月2日当周，美国农业部出口检验数据显示，自去年9月1日以来，共计约有2200万t玉米从美国港口输出，较上一产季同期增加近1000万t。

而本月第一、二、三周美国出口检验玉米数量分别为111.3万t、125.6万t和115.22万t，保持了较好的发展趋势，符合甚至高于市场预期。

民间出口商也报告有数十万t美国玉米销售日本等国，将于2017∕18年度交付。

此外，数据还显示，8月31日之前预定出口的美国玉米数量达22.25亿蒲式耳（5650万t），仅次于2007∕08、1979∕80、1980∕81以及1989∕90等产季，为美国玉米出口史上第五高，出口前景乐观。

美国玉米库存降幅大于预期对市场形成支撑。

美国农业部在2月供需报告中预计美国玉米结转库存为23.20亿蒲式耳，低于1月预估的23.55亿蒲式耳，下调幅度大于预期，刺激玉米价格走高。

数据公布次日，美湾2号黄玉米现货价格上涨1.22%，至163.77美元∕吨；芝加哥交易所玉米主力合约上涨1.35%，至147.43美元∕吨，为7个月以来最高位。

美国英语卷舌音的规则其实很简单，有字母R就卷舌，没有字母R就不卷舌。

比如说，famous，著名的，你就不要把它读成famours，因为它没有字母R，类似的单词还有Christmas，China，delicious等等，不要把它们分别读成Christmars, Chinar, 和deliciours。

大家同时也要注意，有两个单词例外，其中一个是一个缩写词，Mrs，也就是太太，女士，它含字母R，但是不卷舌，另外一个是colonel，上校，c-o-l-o-n-e-l，colonel，它没有字母R，但是要卷舌。

好，总结一下，在美国英语里面，有字母R就卷舌，没有就不卷，两个单词除外，Mrs和colonel.英语与美与存在着很大区别，今天来学一下发音上的不同。

一:字母r出现在元音组合时,北美英语卷舌音:[ar]_far car charge large smart[ir]_clear dear fear cheer here[3r]_air dare pear their where[ar]_for more door pour before[jur]_sure poor cure fewer[e;r]_her turn learn word first[air]_fine tired higher liar buyer[aur]_hour flour shower power tower[oir]_destroyer enjoyer二:英语中的元音a;在用于t;a;s或鼻音前时,英语发音为[ae]但在字母.lm.前发音不变仍为[a:] Half bath pass ask不变:calm palm三;元音区别英语o:变为美语aBought talk ball caught law saw四:元音区别英语o变为美语a eg:Brought talk ball saw五:与英语中e相比,美语中的e口型的两侧略大一些.bed dead egg guess neck red let1. 英语中派生词的重音和词根重音一致。

美国兰卡斯特市长,r为何给王传福鞠了一躬？佚名【期刊名称】《中国机电工业》【年(卷),期】2017(000)011【总页数】3页(P86-88)【正文语种】中文一年前，当美国众议院多数党领袖和国会议员Kevin McCarthy在南加州兰卡斯特小镇参观一家中国电动大巴工厂时，他为眼前所见的景象感到欣喜：宽阔明亮的厂房、整齐洁净的生产线、规整摆放的零部件、洋溢着幸福笑容的员工。

更重要的是，他深知这个工厂所生产的零排放电动大巴对整个美国的环保意味着什么。

“工厂够大吗？产能可以满足市场需求吗？” McCarthy似乎有点担心，要知道全美共有约4000台公交大巴，对于一个刚进入美国公交市场仅五年的中国公司而言，吃下这块蛋糕，无异于打一场硬仗。

而一年之后当他再次到访工厂时，惊喜地发现工厂面积已经扩大了3倍，达到惊人的4.1万平方米。

“工厂应该够大了吧？你们满足了吗？”“不，我们又在几公里外购买了超过150英亩（约60.7万平方米）土地，用于厂房扩建。

这个大巴厂仅仅是我们在北美的baby step。

”如此硬气的回答，来自李柯，比亚迪北美分公司总裁。

18年前，她只身一人带着一盒手机电池闯荡芝加哥，如今，经营着员工超过800人、投资约为2.3亿美金的比亚迪北美分公司，她是一个扩荒者，却更像一个战士，带领比亚迪征战美国市场，成为中国汽车征战世界的敢为人先者。

2017年10月6日，比亚迪位于南加州兰卡斯特市的电动大巴工厂完美竣工，这是目前北美最大的电动大巴工厂，年产1500台大巴，将创造近1500个优质就业岗位。

两党核心政要共同出席剪彩仪式，庆祝北美最大电动大巴工厂全面竣工并投产。

促进就业对任何政党来说都颇为重要。

“有时政治会将我们分开，但比亚迪却将所有人连接在一起。

”Kevin McCarthy表示，“无论你来自或支持什么政党，最终，优质的工作机会，共同的环保愿景，会将大家团结到一起。

”这或许解释了为何这家中国公司的竣工庆典上，会同时出现美国民主党和共和党的核心政要：美国众议院多数党领袖和国会议员Kevin McCarthy、加州参议院议长Kevin de Leon, 国会议员 Steve Knight, 洛杉矶郡长Kathryn Barger和兰卡斯特市长Rex Parris等近20位政要共同出席典礼。

SAE Technical Standards Board Rules provide that: “This report is published by SAE to advance the state of technical and engineering sciences. The use of this report is entirely voluntary, and its applicability and suitability for any particular use, including any patent infringement arising therefrom, is the sole responsibility of the user.”SAE reviews each technical report at least every five years at which time it may be reaffirmed, revised, or cancelled. SAE invites your written comments and suggestions. Copyright © 2007 SAE InternationalAll rights reserved. No part of this publication may be reproduced, stored in a retrieval system or transmitted, in any form or by any means, electronic, mechanical, photocopying, recording, or otherwise, without the prior written permission of SAE.TO PLACE A DOCUMENT ORDER:Tel: 877-606-7323 (inside USA and Canada)Tel: 724-776-4970 (outside USA)Fax: 724-776-0790Email: CustomerService@ SAE WEB ADDRESS: h ttp:// AMS 1424H AEROSPACE MATERIALSPECIFICATIONIssued JAN 1992 Revised JUL 2007 Superseding AMS 1424G(R) Deicing/Anti-Icing Fluid, AircraftSAE Type IRATIONALE This revision of the document reflects a number of changes agreed to at the last two G12 Fluids meetings in Lisbon and Montreal. Among the revisions are the addition of a warning statement about fluid compatibility with carbon brake material (1.3.8), changes to the fluid shearing procedure (3.3.4.1), insertion of a cold plate foam test (3.3.5), a change to the requirements for periodic testing (4.2.2), and new requirements for fluids containing recycled glycol (4.4.2.1). A number of other editorial revisions have also been incorporated into the document to improve clarity.TABLE OF CONTENTS1. SCOPE (3)1.1 Form (3)1.2 Application (3)1.3 Precautions (3)1.4 Safety - Hazardous Materials (4)2. APPLICABLE DOCUMENTS (4)2.1 SAE Publications (4)2.2 ASTM Publications (4)2.3 U.S. Government Publications (5)2.4 APHA Publications (5)2.5 Organization for Economic Cooperation and Development (OECD) Publications (5)3. TECHNICAL REQUIREMENTS (5)3.1 Material (5)3.2 Physical Properties (7)3.2.1 Flash Point (7)3.2.2 Specific Gravity (7)3.2.4 Refractive Index (7)3.2.5 Freezing Point (7)3.2.7 Viscosity (7)3.3 Fluid Stability (7)3.3.1 Storage Stability (7)3.3.2 Thermal Stability - Accelerated Aging for Concentrates and Ready-to-Use Fluids (7)3.3.3 Hard Water Stability (8)3.3.4 Shear Stability (8)3.4 Effect on Aircraft Materials (9)3.4.1 Sandwich Corrosion (9)3.4.2 Total Immersion Corrosion (9)3.4.3 Low Embrittling Cadmium Plate (10)3.4.4 Stress-Corrosion Resistance (10)3.4.4.1 Stress-Corrosion Resistance (10)3.4.5 Hydrogen Embrittlement (10)3.4.6Effect on Transparent Plastic (10)3.4.7Effect on Painted Surfaces (10)3.4.8Effect on Unpainted Surfaces (10)3.4.9Runway Concrete Scaling Resistance (10)3.5Performance Properties (11)3.5.1Freezing Point (11)3.5.2Anti-Icing Performance (11)3.5.3Aerodynamic Acceptance Test (11)4.QUALITY ASSURANCE PROVISIONS (12)4.1Responsibility for Inspection (12)4.2Classification of Tests (12)4.2.1Lot Acceptance Tests (12)4.2.2Periodic Tests (12)4.2.3Preproduction Tests (12)4.3Sampling and Testing (12)4.3.1Bulk Shipments (12)4.3.4Preproduction and Periodic Tests (12)4.4Approval (13)4.5Reports (13)4.6Resampling and Retesting (13)5.PREPARATION FOR DELIVERY (14)5.1Packaging and Identification (14)6.ACKNOWLEDGMENT (14)7.REJECTIONS (14)8.SIMILAR SPECIFICATIONS (14)9.NOTES (14)标准分享网 免费下载1. SCOPE1.1 FormThis specification covers a deicing/anti-icing material in the form of a fluid.A pplication1.2The fluid is generally used heated either diluted with water, or as supplied, for the removal of deposits of frost, ice, and snow on exterior aircraft surfaces prior to take off.1.2.1 Consult aircraft manufacturer's maintenance manual and service letters to determine any restrictions relating tothe use of deicing/anti-icing fluids for type and model of aircraft being treated. Refer also to ARP4737.T he manufacturer shall determine and report the Lowest Operational Use Temperature (LOUT) for the 1.2.2recommended dilutions of their fluid(s).1.2.2.1 The LOUT for an SAE Type I fluid is the lowest temperature at which the fluid has been tested and certified inaccordance with the appropriate aerodynamic acceptance tests (3.5.3) while maintaining the 10 °C (18 °F) freezing point buffer (see ARP4737).P recautions1.31.3.1 The deicing/anti-icing formulation may be mildly toxic and contact with human skin and eyes should be avoided.Prolonged exposure to concentrations of vapor and wind-borne mists should be avoided. Consult the manufacturer's Material Safety Data Sheet for further information.1.3.2 A fluid meeting all other requirements of this specification may not meet the aerodynamic acceptance test in theconcentrated form. This fluid shall only be used diluted to the ratios which meet the aerodynamic acceptance test criteria.1.3.3T he fluid shall have a minimum flash point of 100 °C (212 °F) and should be used with extreme care when applied in the immediate vicinity of heaters or engine exhausts.C aution should be exercised in the use of glycol-water deicing/anti-icing solutions in and around aircraft1.3.4electrical/electronic circuitry with noble metal (including silver) coated wiring or terminals which could come into contact with the fluid. Exothermic reactions, which may result in fire, have been reported. This may occur where defectively insulated wires, switches, or circuit breakers carrying direct current are encountered. Deicing/anti-icing fluids which are based on glycols shall contain an inhibitor to minimize this potential fire hazard (3.1).S lippery conditions may exist on the ground or on equipment following deicing/anti-icing procedures.1.3.51.3.6 A fluid meeting this specification is unique to the manufacturer and may be adversely affected by mixing withother aircraft deicing/anti-icing fluids.1.3.7 At the option of the user, the manufacturer shall demonstrate the fluid as supplied or at intended use dilution andheated to intended use temperature, applied through a commercial deicing/anti-icing vehicle system to an inclined flat or curved surface, preferably an aircraft wing or horizontal stabilizer, at pressures and flow rates normal for intended use, does not cause foam which does not rapidly collapse, and fluid surface shall not have the appearance of snow or slush. Observe fluid for wetting, film breaks, crawling or fisheyes. Observe how long the sprayed film is continuous and how long it remains on the aircraft wing leading edge without breaks.1.3.8 Deicing/anti-icing fluids should be compatible with carbon brake material. Refer to ARP 4737 and the airplanemanufacturer’s maintenance and service documents for further information on fluid use. An industry standard test method for compatibility is under development.S afety - Hazardous Materials1.4While the materials, methods, applications, and processes described or referenced in this specification may involve the use of hazardous materials, this specification does not address any hazards which may be involved in such use. It is the sole responsibility of the user to ensure familiarity with the safe and proper use of any hazardous materials and processes and to take necessary precautionary measures to ensure the health and safety of all personnel involved.2. APPLICABLE DOCUMENTSThe issue of the following documents in effect on the date of the purchase order forms a part of this specification to the extent specified herein. The supplier may work to a subsequent revision of a document unless a specific document issue is specified. When the referenced document has been cancelled and no superseding document has been specified, the last published issue of that document shall apply.S AE Publications2.1Available from SAE International, 400 Commonwealth Drive, Warrendale, PA 15096-0001, Tel: 877-606-7323 (inside USA and Canada) or 724-776-4970 (outside USA), .AMS 2470 Anodic Treatment of Aluminum Alloys, Chromic Acid ProcessAMS 2475 Protective Treatments, Magnesium AlloysAMS 2825 Material Safety Data SheetsAMS 4037 Aluminum Alloy Sheet and Plate, 4.4Cu - 1.5Mg - 0.60Mn(2024;-T3 Flat Sheet, -T351 Plate), Solution Heat TreatedAMS 4041 Aluminum Alloy Sheet and Plate, Alclad, 4.4Cu - 1.5Mg - 0.60Mn,(Alclad 2024 and 1-1/2% Alclad 2024-T3 Flat Sheet; 1-1/2% Alclad 2024-T351 Plate)AMS 4049 Aluminum Alloy Sheet and Plate, Alclad, 5.6Zn - 2.5Mg - 1.6Cu - 0.23Cr, (Alclad 7075 -T6 Sheet,-T651 Plate), Solution and Precipitation Heat TreatedAMS 4376 Magnesium Alloy Plate, 3.0Al - 1.0Zn, (AZ31B-H26), Cold Rolled and Partially AnnealedAMS 4911 Titanium Alloy Sheet, Strip, and Plate, 6A1 - 4V, AnnealedAMS 4916 Titanium Alloy Sheet, Strip, and Plate, 8Al - 1Mo - 1VAMS 5045 Steel Sheet and Strip, 0.25 Carbon, maximum, Hard TemperAMS 5886 Alloy, Corrosion and Heat-Resistant, Bars, Forgings and Rings, 50Ni - 20Cr - 20Co - 5.8Mo -2.2Ti - 0.45Al, Consumable Electrode or Vacuum Induction Melted 2100 °F (1149 °C) SolutionHeat TreatedAMS-P-83310 Plastic Sheet, Polycarbonate, TransparentAS 5900 Standard Test Method for Aerodynamic Acceptance of SAE AMS 1424 and SAE AMS 1428 Aircraft Ground Deicing/Anti-Icing FluidsAS 5901 Water Spray and High Humidity Endurance Time Test Methods for SAE AMS 1424 and SAE AMS 1428 Aircraft Ground Deicing/Anti-Icing FluidsARP 1917 Clarification of Terms Used in Aerospace Metals SpecificationsARP4737 Aircraft Deicing/Anti-icing Methods with FluidsA STM Publications2.2Available from ASTM International, 100 Barr Harbor Drive, P.O. Box C700, West Conshohocken, PA 19428-2959, Tel: 610-832-9585, .ASTM C 672 Scaling Resistance of Concrete Surfaces Exposed to Deicing ChemicalsASTM D 93 Flash Point by Pensky-Martens Closed TesterASTM D 445 Kinematic Viscosity of Transparent and Opaque Liquids (and the Calculation of Dynamic Viscosity)ASTM D 891 Specific Gravity of Liquid Industrial ChemicalsASTM D 1177 Freezing Point of Aqueous Engine CoolantsASTM D 1193 Reagent WaterASTM D 1331 Surface and Interfacial Tension of Solutions of Surface-Active AgentsASTM D 1568 Sampling and Chemical Analysis of Alkylbenzene SulfonatesASTM D 1747 Refractive Index of Viscous Materials标准分享网 免费下载ASTM D 3278 Flash Point of Liquids by Setaflash-Closed-Cup ApparatusASTM D 4052 Test Method for Density and Relative Density of Liquids by Digital Density MeterASTM D 4177 Automatic Sampling of Petroleum and Petroleum ProductsASTM E 70 pH of Aqueous Solutions with the Glass ElectrodeASTM F 483 Total Immersion Corrosion Test for Aircraft Maintenance ChemicalsASTM F 484 Stress Crazing of Acrylic Plastics in Contact with Liquid or Semi-Liquid CompoundsASTM F 485 Effects of Cleaners on Unpainted Aircraft SurfacesASTM F 502 Effects of Cleaning and Chemical Maintenance Materials on Painted Aircraft SurfacesASTM F 519 Mechanical Hydrogen Embrittlement Testing of Plating Processes and Aircraft Maintenance ChemicalsASTM F 945 Stress-Corrosion of Titanium Alloys by Aircraft Engine Cleaning MaterialsASTM F 1105 Preparing Aircraft Cleaning Compounds, Liquid Type, Solvent Based for Storage Stability Testing ASTM F 1110 Sandwich Corrosion TestASTM F 1111 Corrosion of Low-Embrittling Cadmium Plate by Aircraft Maintenance Chemicals2.3 U.S. Government PublicationsAvailable from the Document Automation and Production Service (DAPS), Building 4/D, 700 Robbins Avenue, Philadelphia, PA 19111-5094, Tel: 215-697-6257, /quicksearch/.MIL-STD-870 Cadmium Plating, Low Embrittlement, ElectrodepositedMIL-PRF-25690 Plastic, Sheets, and Formed Parts, Modified Acrylic Base, Monolithic, Crack Propigation ResistantPublications2.4 APHAAvailable from American Public Health Association, 800 I Street, NW, Washington, DC 20001, 202-777-2742 or .Standard Methods for the Examination of Water and Waste Water2.5 Organization for Economic Cooperation and Development (OECD) PublicationsAvailable from OECD: 2, rue André Pascal, Cedex 16, 75016 Paris, France, Tel: +33 1.45.24.82.00 or .OECD Environmental Data; Données OCDE sur l’environnement, Compendium (Contains OECD Methods 202 and 203).3. TECHNICAL REQUIREMENTSM aterial3.1The composition of the fluid shall be optional with the manufacturer; however the product shall be based on freezing point depressants, with additives, such that the finished product shall meet all requirements of this specification. If glycol-based, the fluid shall contain inhibitors to minimize the potential fire hazard resulting from interaction of aqueous glycol solutions and noble metal (including silver) electrodes impressed with direct current.3.1.1 Non-Glycol Based FluidsA fluid based on non-glycol freezing point depressants shall be tested as follows: Two pieces of AMS 5886 bar, 35 mm diameter and 15 mm long shall have one end of each machined flat. An 8.5 mm drill shall then be used to drill a centered hole 6.5 mm deep in one end to allow the milling of a cup-shaped depression. A 12.5 mm bull nosed end mill shall be used to open up the drilled hole to produce a 7 mm deep depression. The cup shall then be finished by improving the surface with 600, 180 and 6 micron diamond paste. The cups shall be cleaned and degreased using a suitable solvent and allowed to dry. One cup shall be filled with the candidate test fluid, the other with water conforming to ASTM D 1193 Type IV. Both test pieces shall then be placed in an oven at 105 °C ± 2°C (221 °F ± 5°F). The fluid shall then be allowed to evaporate by progressive increase in oven temperature at the rate of 10 °C (18 °F) degrees per minute to a final temperature of 250 °C ± 5°C (482 °F ± 10°F) where they shall be held at this temperature for 15 minutes ± 1 min. Test pieces shall then be transferred to an air furnace set at 1040 °C ± 10°C (1904 °F ± 25°F) and held at this temperature for 2 hours ± 5 minutes.Test pieces shall be removed and allowed to cool to ambient temperature. Microscopic examination of the polished cups at 500 magnification shall be undertaken-no corrosion worse than control shall be evident in the candidate test fluid cup.The report shall include photographs of both cups after testing and the candidate test fluid cup shall be identified.A ppearance3.1.2The fluid, as received by purchaser, shall be homogeneous, uniform in color, and free from skins, lumps and from foreign materials detrimental to usage of the product. If the fluid is colored, it shall be orange.T oxicity3.1.3The user shall ensure that the fluid meets all local, state, and federal toxicity regulations. The information to satisfy the federal, state and provincial requirements shall be provided by the manufacturer; and for local requirements upon request from the user.E nvironmental Information3.1.4Formulated fluid shall be tested in accordance with APHA "Standard Methods for Examination of Water and Waste Water" unless otherwise specified in Appendix A.The manufacturer shall supply not less than the following:3.1.4.1 Biochemical Oxygen Demand (BOD) of the fluid shall be determined at both 5 °C (41 °F) and 20 °C (68 °F).The test solutions shall be incubated at the designated temperatures for 5 and 28 days. The results shall be reported in terms of kilograms of oxygen per kilogram of concentrate and kilograms of oxygen per kilogram of mixture of fluid and water to formulate a freezing point of -26 °C (-15 °F).3.1.4.2 The Chemical Oxygen Demand (COD) of the fluid, expressed in kilograms of oxygen per kilogram of fluid andkilograms of oxygen per kilogram of mixture of fluid and water to formulate a freezing point of -26 °C (-15 °F).3.1.4.3 BiodegradabilityThis characteristic can be approximated by determining the ratio of the Biochemical Oxygen Demand (BOD) and Chemical Oxygen Demand (COD). The percent of fluid biodegraded can be calculated by dividing BOD by COD and shall be reported for all incubation time periods.Toxicity3.1.4.4 AquaticFormulated fluid shall be tested in accordance with EPA (40CFR 797.1300 and 797.1400, revised July 1, 1989 and 40 CFR 136.3) or OECD (Organization for Economic Cooperation and Development Guidelines for Testing of Chemicals, Methods 202 and 203) procedures using test species required by regulatory agencies for permitted discharges. Examples include: fathead minnows (96-hour LC50), Ceriodaphnia dubia (48-hour EC50), Daphnia magna (48-hour EC50) and rainbow trout (96-hour LC50). The LC50 (for fish) or EC50 (for invertebrates) concentration (the highest concentration at which 50% of the organisms do not survive the test period) shall be given in milligrams per liter. See Appendix A.Contaminants3.1.5 TraceReport the presence, in percentage by weight or ppm by weight, of sulfur, halogens, total phosphorus, nitrate, total kjeldahl nitrogen and metals (lead, chromium, cadmium, and mercury). Report the test method used and detection limits.标准分享网 免费下载3.2P hysical PropertiesThe fluid supplied by the vendor, unless specified otherwise, shall conform to the following requirements:Point3.2.1 FlashShall be not lower than 100 °C (212 °F), determined in accordance with ASTM D 93 or ASTM D 3278. In case of dispute, the flash point in accordance with ASTM D 93 shall apply.Gravity3.2.2 SpecificShall be within ±0.015 units of the preproduction value, determined in accordance with ASTM D 891 or ASTM D 4052.3.2.3 pHShall be within ±0.5 units of the preproduction value, determined in accordance with ASTM E 70.Index3.2.4 RefractiveShall be within ±0.0015 units of the preproduction value, determined in accordance with ASTM D 1747.Point3.2.5 FreezingShall be within ±3 °C (±5 °F) of the preproduction value, determined in accordance with ASTM D 1177.Note: I f the fluid supplied by the vendor is a concentrate intended to be diluted prior to use, the freezing point shall be determined after dilution 1:1 by volume with ASTM D1193, Type IV water. The refractive index of the diluted fluid that is tested shall also be reported.Tension3.2.6 SurfaceShall be within ±10% of the preproduction value.V iscosity3.2.7Shall be within ±5% of the preproduction value at +20, 0, -10, and -20 °C (68, 32, 14, and -4 °F)when determined in accordance with ASTM D445.F luid Stability3.3The fluid, as supplied by the vendor, shall conform to the following requirements:Stability3.3.1 StoragePrior to the start of this test, determine the viscosity at 20 °C (68 °F) in accordance with ASTM D 445. The fluid shall then be subjected to one complete cycle as outlined in ASTM F 1105. On completion of the cycle, the fluid shall be retested for viscosity as before and the result compared to the original values. These results shall not vary by more than +10% or -20%. The pH of the aged fluid, determined as in 3.2.3, shall be within ±0.5 units of the unaged sample. A portion of the fluid shall then be diluted 1:1 with ASTM D 1193, Type IV, water. There shall be no evidence of separation, precipitation or evidence of insoluble deposits in the fluid or in the 1:1 dilution.3.3.2 Thermal Stability - Accelerated Aging for Concentrates and Ready-to-Use Fluids (to simulate long term heatedstorage without water loss)Age sample as in 3.3.2.1 and examine as in 3.3.2.2.3.3.2.1 Transfer 800 mL ± 10 mL of fluid to a 1 liter borosilicate bottle (e.g., Pyrex® brand or equivalent) fitted with atight, heat-resistant plastic seal and tightly close. For the reference sample, also keep 800 mL ±10 mL of the fluid in an identical bottle and store at room temperature until the completion of 3.3.2.2. Transfer the other closed bottle containing the test fluid to a circulating-air oven or heated oil or water bath. Elevate the temperature to 80 °C ±2 °C (176 °F ±4 °F) and maintain the sample in this environment for 30 days.3.3.2.2 After 30 days, remove the test sample from the heated environment, and examine the contents for evidence ofseparation, precipitation, or insoluble deposits. Report any evidence of these factors. Allow the test sample to cool to 20 °C ± 2 °C (68 °F ± 4 °F). Turn the test sample bottle upside down and then right side up. Repeat this rotation procedure three additional times and then examine the contents for evidence of separation, precipitation, or insoluble deposits versus the unheated reference sample. Report findings. Determine the refractive index of the test and reference samples as in 3.2.4. If the test and reference samples have a refractive index difference of greater than 0.0020, the test is invalid. If the test is valid and t he fluid tested is a concentrate intended to be diluted, dilute both the test and reference fluids 50/50 by volume with ASTM D1193, Type IV water and measure the pH as in 3.2.3. If the test fluid is a ready-to-use fluid, no further dilution is necessary and the pH should be measured as in 3.2.3. The pH difference between the heat-aged test sample and the unheated reference sample shall not be greater than 1.0 unit. The heat-aged test sample shall be tested according to AS 5901 (WSET only) using one set of three plates. Report the results of the test.H ard Water Stability3.3.3Fluid supplied as concentrate and intended to be diluted with water before use shall be diluted 1:1 by volume with standard hard water made up as in 3.3.3.1. Determine the refractive index of the diluted fluid as in 3.2.4 and the pH as in 3.2.3. Age the diluted fluid as in 3.3.2.1 but at a storage temperature of 95 °C ±2 °C (203 °F ±4 °F). After 30 days, remove the bottle from the heated environment and examine the contents for evidence of separation or insoluble deposits. Report any evidence of these factors. Allow the sample to cool to 20 °C ± 2 °C (68 °F ± 4 °F). Turn the test sample bottle upside down and then right side up. Repeat this rotation procedure three additional times. Re-examine and report any evidence of separation or insoluble deposits. Retest for refractive index as before and record the result. If the refractive index of the aged fluid has increased by more than 0.0020 the test is invalid. If the refractive index is within limits, the pH of the aged fluid shall be determined as before and shall not vary by more than 0.5 units from the unaged value. The aged sample shall be tested according to AS5901 (WSET only) using one set of three plates. Report the results of the test.3.3.3.1 Composition of Hard WaterDissolve 400 mg ± 5 mg calcium acetate dihydrate (Ca(C2 H3O2 )2 • 2H2O) or 363 mg ± 5 mg calcium acetate monohydrate (Ca(C2H3O2)2 • H2O), and 280 mg ± 5 mg magnesium sulfate heptahydrate (MgSO4 • 7H2O), both of analytical reagent quality, in 1 liter of ASTM D 1193, Type IV, water.Stability3.3.4 ShearThe anti-icing performance tests as in 3.5.2 shall start within 2 hours after the product has been sheared, but not within the first 20 minutes after shearing, using the laboratory method as in 3.3.4.1.3.3.4.1 Run a laboratory blender (Waring model number 7012G, or equivalent) with the 1 liter glass mixing containerremoved for a 5 minute warming period at 3,000 rpm ± 100 rpm. Pour 500 mL ± 5 mL of fluid at 20 °C ± 2°C(68 °F ± 4°F) into the 1 liter mixing container. Mix for 10 minutes ±10 seconds at 3400 rpm ±100 rpm. Theblender shall be calibrated using a non-contact optical tachometer to provide a mix speed of 3400 rpm ±100 rpm using 500mL of water. This non-contact calibration can be performed by placing the blender on a stand and elongating the rotating shaft at the base to measure the rotation speed with the mixing container in place.Stability3.3.5 Foam3.3.5.1 The foaming tendency of the fluid is determined using a cold plate foam test which is conducted using a pre-cooled chiller unit (frosticator) inside a cold chamber. The cold chamber and the frosticator are described in detail in AS5901. Prior to application, the fluid is heated and foam is generated by subjecting the fluid to vigorous agitation using a high shear mixing device.标准分享网 免费下载3.3.5.2 Fluid supplied as a concentrate and intended to be diluted with water prior to use shall be diluted 1:1 by volumewith standard hard water made up as in 3.3.3.1 before testing. Ready-to-use fluid shall be tested as received if intended for use undiluted.3.3.5.3D uplicate tests shall be conducted at each of two temperatures, -10 °C ±0.5 °C (14 °F ±0.9 °F) and 0 °C ±0.5°C (32°F ±0.9°F). The cold chamber and the frosticator shall be maintained at the desired test temperature throughout the evaluation. Allow sufficient time for the frosticator to equilibrate to the desired test temperature before beginning the test. The slope of the frosticator test surfaces (slots) shall be 10° ±0.2° above the horizontal. Test surfaces shall be free of all visible contamination, smears, or stains. Between test runs using the same fluid, the frosticator test slots shall be thoroughly rinsed with water and dried. Between test runs using different fluids, test slots shall be thoroughly rinsed with water followed by an ethanol rinse and drying.3.3.5.4 Heat 800 mL ±5 mL of the test fluid to 60°C ±1°C (140°F ±2°F) in a 1,000 mL glass beaker with sufficientagitation to prevent fluid bumping. Alternate heating containers may also be employed. When the fluid has reached 60°C ±1°C (140°F ±2°F), transfer to a 1 liter Waring blender glass mixing container and shear as in3.3.4.1 for 15 seconds ± 1 sec. Immediately after shearing, pour the hot fluid evenly across the six frosticatorslots. This should be done in a uniform back-and-forth motion to distribute the foam and liquid as evenly as possible on the test surfaces. Keep temperature recovery time of the test surface after fluid application to a minimum by adjusting the temperature of the frosticator coolant as necessary. Allow the fluid to remain on the frosticator for 15 minutes while maintaining the cold chamber and frosticator surface at the desired test temperature. After 15 minutes, estimate and report the percent of the total test area covered by foam.Photographs should be taken at several points during the test and at the end of the 15 minute test period and should be included with the test report. Comments on foam behavior and coverage estimates at intervals during the test may also prove to be useful. A foam evaluation percentage chart may also provide an acceptable means of estimating the per cent foam coverage.3.4E ffect on Aircraft MaterialsWARNING: This document includes cadmium as a plating material. The use of cadmium has been restricted and/or banned for use in many countries due to environmental and health concerns. The user should consult with local officials on applicable health and environmental regulations regarding its use.The fluid shall conform to the following requirements in the form supplied by vendor and, if a concentrate intended to be diluted prior to use, diluted 1:1 by volume with ASTM D 1193, Type IV, water, except as noted.3.4.1 SandwichCorrosionSpecimens, after testing in accordance with ASTM F 1110, shall not show corrosion worse than control panels run using ASTM D 1193, Type IV, water.3.4.2 Total Immersion CorrosionThe fluid, tested in accordance with ASTM F 483, shall neither show evidence of corrosion of panels nor cause a weight change of any test panel greater than as shown in Table 1.TABLE 1 - TOTAL IMMERSION CORROSIONTest PanelWeight Change mg/ cm2 per 24 hoursAMS 4037 Aluminum Alloy, anodized as in AMS 2470 0.3 AMS 4041 Aluminum Alloy 0.3 AMS 4049 Aluminum Alloy 0.3 AMS 4376 Magnesium Alloy, dichromate treated as in AMS 2475 0.2 AMS 4911 Titanium Alloy 0.1 AMS 5045 Carbon Steel 0.8。

美国网件R9000值得买吗具体介绍网件R9000夜鹰X10路由器并不是一款取代R8500夜鹰X8的产品，而是与R8500夜鹰X8平行的另一个巅峰。

从外观上来说，R9000夜鹰X10的设计要更为传统，采用了常见的卧式设计，弧面外壳搭配全黑设计显得庄重而沉稳。

当然除了外观的稳重外，R9000夜鹰X10还拥有着机器强悍的内涵，其采用3频段设计，支持4x4 MU-MIMO技术和256-QAM调制模式，可提供1个5GHz和1个2.4GHz频段和1个60GHz频段，理论无线网络最高速率为800Mbps+1733Mbps+4600Mbps，属于AD7200级别的路由器产品，也是消费级市场的首款802.11ad级别路由器产品。

网件R9000夜鹰X10路由器与R8500夜鹰X8相同，网件R9000夜鹰X10路由器同样配置有4条外置有源主动天线。

据网件表示，有源主动天线的优势在于强大的接受能力，可以从外界的各种干扰中快速识别终端设备发射的微弱信号并进行放大，让发射功率较低的终端设备在距离路由器较远的情况下也能有流畅的网络体验。

而在有线网络部分，网件R9000夜鹰X10共计提供有7个千兆级网络接口，其中1个为千兆WAN，6个为千兆LAN。

值得一提的是，R9000的LAN1和LAN2接口还支持链路汇聚功能，可以将两条1Gbps线路整合为一条2Gbps线路，搭配支持链路聚合功能的产品如高端NAS使用时，可以让终端设备的网络性能得到完全的发挥。

此外R9000夜鹰X10还支持PLEX功能，可以通过远程网络访问连接在路由器上的所有多媒体资源，搭配网件自家的ReadyCloud和ReadyShare功能，完全可以在一台路由器上实现个人云存储系统的搭建。

另外为了完全发挥802.11ad网络的性能，网件R9000夜鹰X10还配置有一个万兆级光纤接口，支持扩展万兆网络，搭配802.11ad无线网络的共同使用时，可以让玩家感受到高速率、低延迟的极速快感。

aami tir30-2011-(r)2016 介绍AAMI TIR30-2011(R)2016，全称为美国医疗仪器协会（AAMI）制定的输血输液温度控制标准，是一个在医疗领域具有广泛影响力的标准。

该标准自2011年发布以来，经过数次的修订和更新，不断完善和进步。

作为一项行业公认的标准，AAMI TIR30-2011(R)2016旨在确保输血输液过程中的温度控制达到最佳效果，为医疗工作者提供科学的操作依据。

温度是影响输血输液安全和质量的重要因素。

AAMI TIR30-2011(R)2016对输血输液过程中的温度控制进行了明确的规定和指导。

通过规范操作流程、明确设备要求、提供科学监测方法等手段，该标准为医疗工作者提供了一套完整的、科学的、可操作性的方案。

这有助于确保病人在输血或输液过程中的安全与舒适，避免因温度不当而引起的各种问题。

为了确保标准的实施效果，AAMI TIR30-2011(R)2016还提供了详尽的验证与监测方案。

医疗机构需定期进行自我检查、设备校准以及操作培训，以确保所有相关人员都遵循标准操作。

此外，外部审计和评估也是确保标准执行的重要手段。

通过这些措施，可以及时发现和纠正不符合标准的行为，确保病人得到高质量的医疗服务。

在实施AAMI TIR30-2011(R)2016过程中，医疗机构面临着一些挑战。

例如，部分老旧设备可能无法满足新的标准要求，需要进行更新或替换。

此外，医护人员需要接受相关培训，以掌握标准的操作技巧和要求。

为了克服这些挑战，医疗机构需要加强与供应商的合作，及时获取符合标准的新设备和技术支持。

同时，开展内部培训和教育活动也是必不可少的。

AAMI TIR30-2011(R)2016的实施不仅提高了输血输液的温度控制水平，还带动了整个医疗行业的进步。

随着标准的推广和应用，越来越多的医疗机构开始重视温度控制对输血输液的影响，并采取措施加以改进。

这不仅提升了医疗服务的整体质量，还促进了医疗技术的创新和发展。

连读1. 同一意群内，前词的词尾辅音与后词的词首元音相拼，即连读，如look out。

2. 前词的词尾与后词的词首都是元音或辅音，则有时它们会互相影响，发生失爆，省音，加音等词音变化。

1）英音中，在以字母r结尾的单词，r不发音，但在后词的词首元音发生连读时发音，读/r/，如far away。

而美音中，无论是连读还是不连读，字母通常都会发音，类似汉语的儿化音。

只不过与儿化音相比，美音中的/r/舌头全部卷曲，而汉语一般只卷起舌尖。

2）在同一意群内，如果前词的词尾和后词的词首都是元音，口语中为了发音方便，有些情况下，两个元音中间会有一个微弱的加音。

这些加音主要为/r/和半元音/w/、/j/。

需要注意的是这些加音非常微弱，所以不用特意来读，它是口语中自然产生的效果。

a. 外加音/j/。

若前词以/i/或/i:/结尾，后词词首为元音，则两词连读时，两个元音中间会加一个轻微的/j/来过渡（因为/j/音的发音方式和/i/近似，都为舌部向上颚抬起），如copy it /'kopijit/。

b. 外加音/w/。

如果前词的词尾是/u/或/u:/，后词词首是元音，两词连读时，两个元音中间会产生一个轻微的/w/（因为/w/音的发音方式和/u/近似，都为舌部后缩，舌后抬起，嘴突出），如too easy /tu:'wi:zi/。

c. 外加音/r/。

如果前词以/ /结尾，后词以/ /起始，为了发音的方便，在美国东北部一些地方，会在两个/ /之间加上微弱的/r/来连接，如idea of it读为/ai’di r vit/。

3）在同一意群内，如果前词的词尾和后词的词首都为辅音，则在有些情况下会发生省音。

a. 同音合并。

在口语中，当前词的词尾辅音与后词的词首辅音相同，则常只读一个音，该音相对延长，如a fine name，则只读一个较长的/n/，省去一个/n/。

b. 省音。

如果前词以“辅音＋/t/或/d/”结尾，后词以辅音开头，/t/或/d/常在口语中省去，如eas(t ) coast ，省去/t/。