CFA 铜铁合金说明书

The Alphacool ES GPX Copper/Carbon water cooler with backplatewas developed for the Alphacool Enterprise Series. Due to thepositioning of the connections, the hosing of the cooler in the serverrack is significantly simplified. The top of the cooler is made of carbon.This makes the water cooler lighter compared to Alphacool's Eisblocks with acetal or acrylic tops. Thanks to the compact design, only 1 slot isneeded to mount the cooler in the server rack instead of 1.5 slots asbefore. This additional space saving is one more argument for usingthe ES GPX Copper/Carbon graphics card water cooler.•Fullcover water cooler •Nickel-plated copper radiator bottom •Noble material mix of carbon & copperV. 1.004 // 06.2022Alphacool ES GPX-A Radeon RX 6800/XT/6900 Reference Copper/Carbon with BackplateAlphacool article number: 13077- AMD Radeon 6800 Reference Design- AMD Radeon 6800 XT Reference Design - AMD Radeon 6900 XT Reference Design- AMD Radeon 6950 XT Reference Design3x 8x8x1mm thermal pad (7 W/mk) 1x 8x66x1mm thermal pad (7 W/mk) 2x 15x51x1mm thermal pad (7 W/mk) 2x 15x15x1mm thermal pad (7 W/mk) 1x 8x84x1mm thermal pad (7 W/mk) 1x 8x74x3mm thermal pad (3 W/mk) 2x 15x51x3mm thermal pad (3 W/mk) 2x 30x30x3mm thermal pad (3 W/mk)2x 15x15x3mm thermal pad (3 W/mk) 1x 8x84x3mm thermal pad (3 W/mk) 6x M2x5 screws6x M2x5 washers1x Thermal grease (Subzero 16 W/mk) 7x M2x11 screws1x backplateThe Alphacool ES GPX Copper/Carbon water cooler with backplate was developed for the Alphacool Enterprise Series. Due to the positioning of the connections, the hosing of the cooler in the server rack is significantly simplified. The top of the cooler is made of carbon. This makes the water cooler lighter compared to Alphacool's Eisblocks with acetal or acrylic tops. Thanks to the compact design, only 1 slot is needed to mount the cooler in the server rack instead of 1.5 slots as before. This additional space saving is one more argument for using the ES GPX Copper/Carbon graphics card water cooler.More performance!Alphacool manages to position the cooler as close as possible to the components to be cooled. For this purpose, the heat conducting pads used are reduced to a thickness of 1mm. The maximum possible reduction in the thickness of the copper block and the optimization of the water flow inside the cooler allow all important components such as GPU, voltage converters and VRAMs to be cooled by water much better and more effectively. All of this provides a significant increase in cooling performance.Connections on the back?In order to save space in the width and height during installation, the water input and output have been moved to the back of the cooling block. This positioning of the connections makes hosing much easier. It enables easy integration of the GPU cooler into the water circuit even in the tightest server housings.Copper or aluminum?Alphacool uses only copper for all water-bearing parts. Copper has almost twice the thermal conductivity of aluminum and is therefore clearly the better choice of material for water cooling. The nickel-plated copper base is highly resistant to acid, which means that chipping of the nickel plating can be ruled out.Thermal paste & thermal padsThe included thermal paste is Alphacool's Subzero with a thermal conductivity of 16 W/mk. The electrically non-conductive thermal paste is particularly well suited for high contact pressures, but can still be perfectly applied due to its viscosity of 850000 TF. For the thermal pads, Alphacool uses soft pads that fit perfectly to the components to be cooled and are very durable. The 2mm and 3mm thick pads have a thermal conductivity of 3 W/mk. The 1mm thick pads can dissipate 7 W/mk of heat.Discreet appearanceThe matte carbon finish gives the cooler a noble appearance. This makes it additionally interesting for private users who want to do without aRGB lighting.Drawing。

本文部分内容来自网络整理，本司不为其真实性负责，如有异议或侵权请及时联系，本司将立即删除！== 本文为word格式，下载后可方便编辑和修改！ ==铜熔炼作业指导书篇一：熔炼作业指导书篇二：铝硅铜合金熔炼作业指导书篇三：铜锭熔炼工艺作业指导书铜锭熔炼工艺作业指导书(201X-06-16 22:41:24)转载▼标签：篇四：电炉熔炼作业指导书电炉熔炼作业指导书编号：WI-J-002-A0版次：A0制作部门：技术部日期：201X-06-171．目的：规范熔炼操作，保证产品质量和生产的顺利进行。

2．范围：本公司的铸铁熔炼操作。

3．内容：3.1 生产准备：在炉料、工具、记录文件及人员的准备齐全后开始生产。

如果准备不齐全，应准备齐全后再开始生产。

3.1.1 炉料的准备：准备足够一个班次使用的炉料。

废钢、和回炉料不能潮湿，不能严重锈蚀；回炉料要求除净残砂。

铜、锡、锰铁、硅铁、增碳剂、孕育剂和除渣剂等，必须保持干燥无杂物。

3.1.2 工具、(来自:WwW. : 铜熔炼作业指导书 )记录的准备：检查电炉、加料天车、加料车、测温枪和其它称量仪器，确保它们能够正常工作。

准备足够一个班次使用的除渣工具、孕育剂处理工具等。

准备各种记录表格。

扒渣、挡渣、搅拌等工具必须干燥，残汤罐必须刷涂料并烘干后方可使用。

3.1.3 中间包的准备，确保其处于良好状态。

3.1.3.1 中间包可采用混制好的浇注耐火材料制作。

也可用与中频炉坩埚相同配比的石英砂和水玻璃制作，混制方法同炉衬耐火材料。

3.1.3.2 包底厚度约150－180mm，包壁厚度约50－80mm。

浇包内壁要轻轻打实、打平。

3.1.3.3 中间包制作完成后须用燃气烤包器彻底烘烤，或用木材、焦炭烘烤。

要确保烤干烤透。

任何时候禁止用潮湿的中间包装盛转运或浇注铁水。

3.1.3.4 中间包的预热：每次重新生产前或浇注过程停工1 小时以上时，应将中间包充分烘烤至暗红色状态（约600℃以上）后使用。

LEAD FREE 99C BARSOLDER 1KG LEADFREE SAC3 BARSOLDER 1KGMaterial Safety DatasheetHigh Purity Solder Products (Bar,Tinmans,Blowpipe, Ingot, Pellets, Chunks & Chips- all alloys) WARTON METALS LIMITEDSection 1. Identification of the substance / preparation and of the company / undertakingProduct Name: Manufactured By: Emergency Telephone: Emergency Fax:High Purity Solder Products (Bar, Tinmans, Blowpipe, Ingot, Pellets, Chunks & Chips) Warton Metals LimitedGrove Mill, Commerce Street. Haslingden. Lancashire. BB4 5JT. ENGLAND.+44 (0)1706 218888+44 (0)1706 221188Section 2. Composition / Information on IngredientsIngredientLead (dusts, heated vapours, fumes). R20/22 - Harmful by inhalation and if swallowedR33 - Danger of cumulative effects.R61 - May cause harm to unborn child. CAS No: Classification Symbol Risk phrases Safety Phrases % Present7439-92-1 T 20/22-33-61 See alloy table below Please use table below to determine the elements present in the alloy.Warton Part No Tin (Sn) % Lead (Pb) % Copper (Cu) % Silver (Ag) % Antimony (Sb) % 63/37 62.5-63.5 Rem - - - 60/40 59.5-60.5 Rem - - - 60/40 DIS* 59.5-60.5 Rem - - - 50/50 49.5-50.5 Rem - - - 45/55 44.5-45.5 Rem - - - 40/60 39.5-40.5 Rem - - - 35/65 34.5-35.5 Rem - - - 30/70 29.5-30.5 Rem - - - 20/80 19.0-20.0 Rem - - - 15/85 14.0-15.0 Rem - - - 99C Rem -.45 - .9 - - 97C Rem - 2.5-3.5 - - Alloy No 1 49.5-50.5 Rem 1.2-1.6 - - Alloy No 2 59.5-60.5 Rem 1.6-2.0- - HMP 5S 4.8 - 5.2 Rem- 1.2-1.8 - LMP 62S 61.5-62.5 Rem- 1.8-2.2 - 96S Rem -- 3.5-4.0 - TLS/5 4.8-5.2 Rem- 0.8-1.2 - 95A Rem -- - 4.5-5.5 TIN 100 - - - - TSC 95.5-96 - 0.5-1 3.3-4 - SAC3 Rem - 0.5-0.72.8-3.2 -SAC2 Rem - 0.5-0.71.8-2.2 -SAC1 Rem - 0.5-0.70.3-0.7 -*DIS Dross Inhibiting SolderSection 3. Hazards IdentificationSolder alloys containing lead give off negligible lead fume at soldering temperatures and at temperaturesup to 500ºC.Section 4. First Aid MeasuresInhalation: Skin Contact: Eye Contact: Ingestion: Burns:(Dust). Remove patient to fresh air and seek medical attention.Wash hands with soap and warm water after handling solder.(Dust) Irritating - Flush immediately with plenty of water, ensure that the eyeball and the inside of the eyelids are properly bathed by gently prising open the eyelids. Also make sure that the contaminated water runs off the face away from the eyes. Seek medical attention.Not applicableCool burn site immediately with clean cold water and seek medical attention.Section 5. Fire Fighting MeasuresSuitable extinguishing media: Do not use:Exposure hazards: Protective measures: Dry chemical, carbon dioxide, water spray or foam.Water in a jet.High temperatures (above 500ºC) may produce heavy metal dust, fumes and/or vapours. The medium will give rise to irritating fumes.Fire fighters should wear full protective clothing and breathing apparatus operated in positive pressure mode.Section 6. Accidental Release MeasuresPersonal precautions: Environmental precautions: Methods of clearing up:Refer to Section 8, Personal Protection.Refer to Section 13, Disposal.Place in closed container for subsequent disposal.Section 7. Handling & StorageHandling: Storage: Wash the hands with soap and warm water after handling soldering products, particularly before eating and drinking or smoking.These products should be stored in a cool dry area.Section 8. Exposure Controls & Personal ProtectionOccupational Exposure Limits:-Substance: Long Term Exposure Limits (8 Hour TWA) Short Term Exposure Limit (15 min) Lead *0.15 mg/m³ -Personal Protection:-Respiratory protection Eye Protection: Protective Clothing: Biological Standards:References: Not generally required unless there is inadequate extraction during reflow work.Use of safety glasses or goggles is recommended.When handling dross or molten metal the following clothing should be used: overalls, leather apron, heat resistant gloves.For blood lead monitoring and medical surveillance requirements, refer to the HSC Approved code of Practise supporting the Control of Lead at Work Regulations. Employees should be under medical surveillance if the risk assessment made under the Control of lead at Work regulations indicate they are likely to be exposed to significant concentration of lead, or if an employment medical adviser or appointed doctor certifies that an employee should be under medical surveillance.A woman employed on work which exposes her to lead should notify her employer as soon as possible if she becomes pregnant. The employment medical advisor/appointed doctor should be informed of the pregnancy. Under the Management of Health & Safety at Work (Amendment) Regulations 1994, employers should assess the risks at work to the health of pregnant workers and workers who have recently given birth or are breast feeding.EH40 Occupational Exposure Limits (published annually). * - From Appendix 1 of the HSC Approved Code of Practice Supporting The Control of Lead at Work Regulations.Section 9. Physical & Chemical Properties.Appearance / colour: Odour:Boiling point (Solvent)ºC: Flash point (Solvent) ºC: Explosive / oxidising: Viscosity:Vapour pressure: Evaporation rate: Flammability:Grey SolderN/AN/AN/AN/AN/DN/AN/AN/ApH/Concentration:Melting PointºC:Auto ignition temperature ºC:Explosive limits (% vol):Solubility/miscibility:Volatile content (V.O.C):Vapour density (air = 1):ConductivitySpecific Gravity:N/DSee table belowN/AN/AInsoluble in waterN/DN/AN/DN/AWarton Part No Melting range ºC Warton Part No Melting range ºC 63/37 183 99C 227 60/40/60/40 DIS 183-188 97C 230-250 50/50 183-212 Alloy No. 1 183-21545/55 183-224 Alloy No.2 183-19040/60 183-234 HMP5S 296-301 35/65 183-244 LMP62S 179 30/70 183-255 96S 22120/80 183-275 TLS/5 296-30115/85 227-288 95A 236-243TIN - TSC 217SAC3 217-219 SAC2 217-219SAC1 217-219 Section 10. Stability & ReactivityConditions to avoid: Materials to avoid: Reactivity:If solder is exposed to temperature over 500ºC lead dust, fume and /or vapours may be produced. Solder will react with concentrated acid to release poisonous fumes of nitric oxide. This will in turn oxidise to nitrogen dioxide, a red gas with a pungent odour. If personnel are extensively exposed to these gases then immediate medical attention should be sought, as symptoms can be delayed for a considerable time period and can be fatal. Solder may react with other strong acids to release highly flammable / explosive hydrogen gas.Do not place wet or damp metal into a molten bath of solder, this could cause an explosion.Section 11. Toxicological Information ( toxic effects arising from exposure based on experimental and non experimental data)Acute Toxicity: Chronic Toxicity: Lead can cause weakness, pains in the joints, vomiting, loss of appetite and stupor.Lead can cause weakness , insomnia, headache and possible paralysis. Chronic exposure to lead may result in damage to the blood forming, nervous, urinary and reproductive systems. Lead is classified as a 2B carcinogen by the IARC (1987) i.e. evidence for carcinogenity is a adequate in animals but inadequate for humans. Severe lead toxicity has long been known to cause sterility, abortion and neonatal mortality and morbidity.Section 12. Ecological Information(Possible environmental effects and behaviour /ODP/aquatic toxicity):Lead is not degradable and will persist in the environment. Lead is insoluble in water and is not attacked by most inorganic acids and bases. For this reason lead in small quantities is often disposed of in landfill sites, however this is not recommended. (See section 13. Disposal Considerations).Section 13. Disposal Considerations(Safe disposal of product, its residues and packaging materials):Waste solder should be placed in metals tins and returned to Warton for disposal. Disposal should be in accordance with the relevant local and national legislation. In the UK this is the Control Of Pollution Act 1974, the Environmental Protection Act 1990 and regulations made under them. See also Sections 7 & 8 for handling precautions and personal protection where applicable.Section 14. Transport InformationSolder is not classified as hazardous for transportation.Section 15. Regulatory InformationNot applicable Section 16. Other InformationRecommended uses and restrictions: Publications references: Use only as directed.Compiled in accordance with CHIP 2 Regulations 1994. HSE Approved Code Of Practise, document L62. Dangerous Substances Directive 57/548/EEC as amended by directive92/32/EEC. Dangerous Preparations Directive 88/379/EE as amended by Directive90/492/EEC Lead at Work Directive 82.605/EEC. The Health & Safety at Work Act 1974. The Control Of Lead at Work Regulations 1980. The Control of Substances Hazardous to Health Regulations 1994. The Management of Health and Safety at Work Regulations 1992. The Management of Health and Safety at Work (Amendment) Regulations 1994. HS (G) 37: An Introduction to Local Exhaust Ventilation. HS (G) 53: Respiratory Protective Equipment - A practical guide for users. HS (G) 65: Successful Health & Safety Management’s. HS (G) 97: A Step by step Guide to the Coshh Regulations. EH26: Occupational Skin Diseases: health and safety Precautions. EH40: Occupational exposure limits. Revised annually. MS24: Health Surveillance of Occupational Skin Disease. Health Surveillance under COSHH: Guidance for employers Approved Code of Practise - Management of Health & Safety at Work.Section 17. Revision DatesRevised Date / Initials: Replacing:Legend: October 2006 / VHMAll previous health and safety datasheetsN/A = Not applicable or available at time of printing. N/D = Not determined or not determinable.Est. = Estimated Rem= RemainderThe information and recommendations on this sheet relate to the specific material designated and may not be valid for such material used in combination with any other materials or in any process. The information is given in good faith and the best of Warton Metals Ltd knowledge, information and believed accurate and reliable at the time of preparation. Nothing herein is to be construed as a guarantee, express or implied in all cases it is the responsibility of the user to determine the applicability of this information or the suitability of the products for his own particular purposes.Sales & Technical Enquiries: Telephone: +44 (0)1706 218888 Fax: +44 (0)1706 221188LEAD FREE 99C BARSOLDER 1KG LEADFREE SAC3 BARSOLDER 1KG。

CFA ICS 77.080.10H 41中国铸造协会标准T/CFA 020******* -- 2018铸造用高纯生铁High purity pig iron for foundry（公告稿）2018 - 02 - 08 发布2018 - 05 - 01 实施中国铸造协会发布IT/CFA 020*******--2018目次前言 (Ⅱ)1范围 (1)2规范性引用文件 (1)3术语与定义 (1)4牌号 (2)5技术要求 (2)6试验方法 (3)7检验规则 (3)8运输和质量证明书 (4)IT/CFA 020*******--2018前言本标准按照GB/T 1.1《标准化工作导则第 1 部分：标准的结构和编写规则》的规定编写。

本标准由中国铸造协会铸造生铁分会提出。

本标准由中国铸造协会归口。

本标准所代替标准的历次版本发布情况为：——T/CFA 020*******—2011。

IIT/CFA 020*******—2018铸造用高纯生铁1范围本标准规定了铸造用高纯生铁的化学成分和牌号及相关技术要求、试验方法、检验规则、质量证明书及运输储存要求等。

本标准适用于铸造行业高纯生铁的生产与应用。

2规范性引用文件下列文件对于本文件的应用是必不可少的。

凡是注日期的引用文件，仅所注日期的版本适用于本文件。

凡是不注日期的引用文件，其最新版本（包括所有的修改单）适用于本文件。

GB/T 223.3 钢铁及合金化学分析方法二安替比林甲烷磷钼酸重量法测定磷量GB/T 223.17 钢铁及合金化学分析方法二安替比林甲烷光度法测定钛量GB/T 223.29 钢铁及合金铅含量的测定载体沉淀-二甲酚橙分光光度法GB/T 223.31 钢铁及合金砷含量的测定蒸馏分离-钼蓝分光光度法GB/T 223.47 钢铁及合金化学分析方法载体沉淀- 钼蓝光度法测定锑量GB/T 223.48 钢铁及合金化学分析方法半二甲酚橙光度法测定铋量GB/T 223.50 钢铁及合金化学分析方法苯基荧光酮－溴化十六烷基三甲基胺直接光度法测定锡量GB/T 223.55 钢铁及合金碲含量的测定示波极谱法（0.001-0.050 %）之二巯基棉分离-示波极谱法GB/T 223.5 钢铁酸溶硅和全硅含量的测定还原型硅钼酸盐分光光度法GB/T 223.61 钢铁及合金化学分析方法磷钼酸铵容量法测定磷量GB/T 223.63 钢铁及合金化学分析方法高碘酸钠（钾）光度法测定锰量GB/T 223.68 钢铁及合金化学分析方法管式炉内燃烧后碘酸钾滴定法测定硫含量GB/T 223.71 钢铁及合金化学分析方法管式炉内燃烧后重量法测定碳含量GB/T 223.75 钢铁及合金硼含量的测定甲醇蒸馏-姜黄素光度法GB/T 223.78 钢铁及合金化学分析方法姜黄素直接光度法测定硼含量GB/T 8170 数值修约规则与极限数值的表示和判定GB/T 20066 钢和铁化学成分测定用试样的取样和制样方法GB/T 20123 钢铁总碳硫含量的测定高频感应炉燃烧后红外吸收法(常规方法)GB/T 20127.2 钢铁及合金痕量元素的测定第2 部分：氢化物发生-原子荧光光谱法测定砷含量GB/T 223.79 钢铁多元素含量的测定X-射线荧光光谱法GB/T 20127.7 钢铁和合金痕量元素的测定第7 部分：示波极谱法测定铅含量GB/T 20127.8 钢铁和合金痕量元素的测定第8 部分：氢化物发生-原子荧光光谱法测定锑含量NACIS/CH 011：2005 ICP-AES法电感耦合等离子发射光谱法测定锰、铬、铝量NACIS/CH 083：2005 ICP-MS法电感耦合等离子质谱法测定铅、铋、锑、锡量3术语和定义1T/CFA 020*******--2018下列术语和定义适用于本标准。

china@亞洲:新加坡: +65 6268 8678 接反面—>特點• 在高溫時強度高、熔點高• 抗腐蝕• 與其他貴金屬兼容• 導熱性能優異 簡介Indalloy 182 (80Au/20Sn)的熔點為280°C (556°F)。

它可以做成焊膏的形式，滿足各種具體用途的需要。

金錫焊膏通常用在需要熔點高（超過150°C ）、熱疲勞特性好、在高溫下的強度高的情形。

它還用於需要高抗張強度、抗腐蝕的場合，或者在後續的低溫迴流焊製程中焊膏不會熔化的場合。

由於這些原因，Indalloy 182焊膏在軍事、航空航天、醫療等領域得到廣泛應用。

用於Au/Sn 焊膏的助焊劑• RMA-SMQ51AC• NC-SMQ51SC 按照用途和客戶產品使用要求，用於Indalloy 的熱穩定助焊劑有免洗型和RMA 型兩種。

這些助焊劑的產品說網址：techlibrary/pds.php 。

顆粒尺寸Indalloy 182用3號焊粉，這是標準產品。

如果用戶需要，金屬含量從91%到94%，決定於用途和顆粒的尺寸。

針對你的需要，如何確定產品的最適當規格，請與銦泰公司的應用工程師聯絡。

包裝Indalloy 182焊膏有罐裝和注射器包裝的產品。

用於塗佈的標準包裝有10cc 和30cc 的注射器包裝。

如果客戶需可以提供其他包裝的產品。

儲存和搬運方法為了達到最長的保質期，焊I ndalloy 182的保質期與使用的助焊劑有關。

注射器包裝或者筒裝的產品在存放時，防止助焊劑與焊重。

應當讓焊膏的溫度先達到工作環境的溫度，然後才使用。

應當把焊膏從冷藏環境取出來至少4小時之後再使用。

溫度穩定下來所需要的實際時間與包裝的尺寸有關。

在使用之前要檢查焊膏的溫度。

應當在注射器包裝Indalloy 182 金錫焊膏塗佈 是用高速、高可靠性的單點或者多點塗佈自動化設備進行塗佈，但是也可以用手持設備進行塗佈。

使用氣動或者正量裝置可以進行體積精確的塗佈。

MATERIAL SAFETY DATA SHEETHIGH PURITY SOLDER ALLOYS1. PRODUCT & COMPANY IDENTIFICATIONMULTICOMP Premier Farnell plc150 Armley RoadLEEDS LS12 2QQTel. : +44 (0) 870 129 8608FaxEmergency Telephone Number:+44 (0) 870 202530Product Identification : High Purity Tin/Lead Solder Alloys.Trade Name : Ingots, Solid Wire, Pellets, Tinmans & BlowpipeUses : Hand or Machine Soldering.2. COMPOSITION/INFORMATION ON INGREDIENTS.Note: Solder Wire and Bar is considered to be an article and is not subject to the Classification (Hazard Information and Packaging for Supply) Regulations 1994, because it is not hazardous as supplied. However, this product may become hazardous in use and the information included in this data sheet reflects the hazards associated with solder reflow operations.3. HAZARDS IDENTIFICATION.Solder alloys containing lead give off negligible lead fume at normal soldering temperatures and at temperatures up to 500°C. Lead is harmful if absorbed into the body and can cause lead poisoning, birth defects and other reproductive harm.4. FIRST AID MEASURESInhalation : Providing soldering temperature are kept below 500ºC these products will not give off harmful fumes. Any flux used with the products may generate irritating or harmful fumes. The safety data sheet for the flux should be read to ascertain health hazards and appropriate first aid measures.Ingestion : Seek Medical AdviceSkin contact : The constituents of the alloys are not absored through the skin. Contamination of the skin during handing should be removed by washing hands with soap and warm water particularly before eating, drinking or smoking.Eye contact : Fluxes used with these products may generate fumes which may irritate the eyes. Fluxes may spit during soldering. Contact with molton or hot solder will cause severe eye damage. Flush immediately with plenty of water. In cases where spitting flux has entered the eye seek medical attention.5. FIRE FIGHTINGExtinguishers Suitable:dry chemical, carbon dioxide, water spray or foamUnsuitable:water jetTemperatures over 500ºC may produce heavy metal dust, fumes and/or vapours. Fire fighters should wear full protective clothing and positive pressure breathing appartatus.6. ACCIDENTAL RELEASE MEASURES.Not applicable.7. HANDLING - STORAGEAvoid inhaling the fumes emitted by the fluxes used with these products. Ensure that the general area is well ventilated. Wash hands with soap and water after handling solder, particularly before eating, drinking or smoking. The products should be stored in a cool, dry area. Keep out of the reach of children and away from food and drink.8. EXPOSURE CONTROLS / PERSONAL PROTECTIONIn normal soldering operations where the temperature is below 500°C the exposure to lead will be minimal and the risks from the toxic effects of lead insignificant. (Ref: Approved Code of Practice supporting the Control of Lead at Work Regulations.) Extraction should be provided to control exposure to flux fumes. Suitable examples include bench top, soldering iron tip extraction or an extraction arm.Occupational Exposure LimitsSubstance Long term exposure limit Short term exposure limit(8 hour TWA) (15 minute)Lead * 0.15 mg/m³ (MEL) -* From appendix 1 of the Approved Code of Practice supporting the Control of Lead at Work Regulations. Employees should be under medical surveillance if the risk assesment made under the Control of Lead at Work Regulations indicates they are likely to be exposed to significant concentrations of lead, or if an Employment Medical Advisor or appointed doctor so certifies.A women employed on work which exposes her to lead should notify her employer as soon as possible if she becomes pregnant. The Employment Medical Advisor/Appointed Doctor should be informed of the pregnancy.Under the Management of Health and Safety at Work (Amendment) Regulations, employers are required to assess the particular risks to health at work of pregnant workers and workers who have recently given birth or who are breast feeding.Respiratory Protection : Necessary if there is a risk of exposure to flux fumes.Eye Protection : Operators should wear safety glasses or goggles to protect the eyesfrom spitting flux or if there is a risk of contact with molton or hot solder.Hand Protection : Heat resistance leather gloves should be worn if there ia a risk of contactwith molten or hot solder9. PHYSICAL AND CHEMICAL DATAAppearance : Silver-white to grey bars, anodes, sticks, pellets or solid wiresOdour : Odourless at ambient temperatures.Boiling range : The vapour pressure of lead may be significant above 500°C Solubility in Water : Insoluble.10. STABILITY - REACTIVITYConditions to AvoidIf solder is exposed to temperatures above 500°C then lead dust, fume and/or vapour may be produced. Contact of water with molton solder will cause molten metal to be violenty ejected.Materials to AvoidSolder will react with concentrated nitric acid to release toxic fumes of nitric oxide, which oxidises to nitrogen dioxide, a red gas with a pungent odour. If personnel are exposed to these gases then immediate medical attention should be sought, as symptoms can be delayed for a considerable time and can be fatal.Under reducing conditions antimony containing alloys may form the toxic gas stibline (antimony trihydride.)11. TOXICOLOGICAL INFORMATIONAcute ToxicityLead can cause weakness, pains in the joints, vomiting, loss of appetite and stupor.Chronic ToxicityLead can cause weakness, insomnia, headache and possible paralysis. Chronic overexposure to lead may result in damage to the blood forming, nervous, urinary and reproductive systems. Lead is classified as a 2B carcinogen by the IARC (1987), i.e. evidence of carcinogenicity is adequate in animals but inadequate for humans. Severe lead toxicity has long been known to cause sterility, abortion and neonatal mortality and morbidity.12. ECOLOGICAL INFORMATIONLead is not degradable and will persist in the environment. Lead is insoluble in water and is not attacked by most inorganic acids and bases.13. DISPOSAL CONSIDERATIONSWherever possible unwanted solder should be recycled for recovery of metal. Otherwise disposal should be in accordance with local and national legislation. In the UK this is the Control of Pollution Act 1974, the Environmental Protection Act 1990 and regulations made under them.14. TRANSPORT INFORMATIONSolder alloys are not classified as hazardous for transport.15. REGULATORY INFORMATIONClassification according to the Chemicals (Hazard information and Packaging for Supply) Regulations 1994:Tin/lead solder alloy is considered to be an article and is not subject to the above regulations. However, it is recommended that the following information be included on labels:Contains lead which may harm your health. Lead can cause birth defects and other reproductive harm. Regulations forbid the use of lead containing solder in any private or public drinking water supply system.After handling solder wash hands with soap and water before eating, drinking and smoking.Keep out of the reach of children.Applicable EC DirectivesDirective 82/605/EEC on the protection of workers from the risks related to the exposure to metallic lead and its ionic compounds at work.Directive 80/1107/EEC on the protection of workers from the risk related to physical, chemical and biological agents at work.Directive 92/85/EEC on the introduction of measures to encourage improvements in the safety and health at work of pregnant workers and workers who have recently given birth or are breastfeedingApplicable UK LegislationThe Health and Safety at Work etc Act 1974The Control of Lead at Work Regulation 1998The Control of Substances Hazardous to Health Regulations 1999The Management of Health and Safety at Work Regulations 1999.The information contained in this safety data sheet is accurate to the best of knowledge and belief.16. OTHER INFORMATIONRecommended UsesThis safety data sheet covers a range of alloys in the form of wire and bar. Reference should be made to the Further Detailed Guidance from the UK Health and Safety ExecutiveHS(G)37: An Introduction to local Exhaust VentilationHS(G)53: Respiratory Protective Equipment – a Practical Guide for UsersHS(G)97: A Step by Step Guide to the COSHH RegulationsApproved Code of Practice to the Control of Lead at Work RegulationsApproved Code of Practice – Management of Health and Safety at WorkGeneral Approved Code of Practice to the COSHH RegulationsEH40: Occupational Exposure Limits (revised annually)This safety data sheet is based on the requirement of the Chemicals (Hazard Information and Packaging for Supply) Regulations 1994, (Commission Directive 91/155/EEC, as amended by Directive 93/112/EEC)Issued September 2007 Issue 4Reason for revision: General Update of Health and Safety Data Sheet.。

Magnesium Alloy containing Aluminium, Zinc and ManganeseSafety Data SheetPrepared in accordance to UN GHS standards. Intended to comply with OSHA 29CFR1910.1200 ; EU REACH 453/2010, Canadian WHMIS, Japanese JIS Z7250.2009, Australian WorkSafe, Korean ISHA (Notice 2009-68), New Zealand HSNO Act, Mexican NOM-18-STPS-2000, and Singapore SS 586 Part 3 Revision date: 26/05/15Version: 1.026/05/15 EN (English) 1/71.1. Product identifier Product form P art Number: Massive metal alloy : ERAZ61A, ERAZ92A1.2. Relevant identified uses of the substance or mixture and uses advised againstUse of the substance/mixture: Industrial Fabrication, Casting, Welding1.3.Details of the supplier of the safety data sheetManufacturer/Supplier of the Safety Data Sheet: Welding Material Sales 1340 Reed Road Geneva, IL 60134Phone: 630-232-6421Fax: 888-733-1512E-mail:*****************************1.4. Emergency telephone numberEmergency number: 1-800-424-93002.1.Classification of the substance or mixtureClassification in accordance with the Globally Harmonized Standard and regulations referenced above. Not classified as hazardous as manufactured and shipped. Classification in accordance with EU Directive 1999/45/EC Not classified as hazardous as manufactured and shipped. Classification in accordance with New Zealand HSNO Act Not classified as hazardous as manufactured and shipped. Classification in accordance with Canadian WHMIS Not classified as hazardous as manufactured and shipped. 2.2. Label elementsGHS label Elements: applies to OSHA 29CFR1910.1200 ; EU REACH 453/2010, Canadian WHMIS, Japanese JIS Z7250.2009, Australian WorkSafe, Korean ISHA (Notice 2009-68), New Zealand HSNO Act, Mexican NOM-18-STPS-2000, and Singapore SS 586 Part 3SDS Number : 1901GHS labellingNo labelling applicableLabelling according to EU Directive 1999/45/ECNo labelling applicable.Labelling according to Canadian WHMISNo labelling applicable.hazards2.3. OtherPBT: not relevant – no registration requiredvPvB: not relevant – no registration required3.1. SubstancesNot applicable3.2. MixtureName CAS Number EINECS Number %Magnesium CAS No. 7439-95-4 231-104-6 87 - 98.5Aluminum CAS No. 7429-90-5 231-072-3 1.5 - 11Zinc CAS No. 7440-66-6 231-175-3 0 – 1.0Manganese CAS No. 7439-96-5 231-105-1 0 – 1.04.1. Description of first aid measuresFirst-aid measures after inhalation : Machining may result in release of dust. If inhaled and if breathing is difficult, remove victim tofresh air and keep at rest in a position comfortable for breathing. If dust are formed :First-aid measures after skin contact : Machining may result in release of dust. Gently wash with plenty of soap and water.First-aid measures after eye contact : Machining may result in release of dust. If in eyes: Rinse cautiously with water for severalminutes. Remove contact lenses, if present and easy to do. Continue rinsing. Obtain medicalattention if pain, blinking or redness persist.First-aid measures after ingestion : Not expected to present a significant ingestion hazard under anticipated conditions of normaluse.4.2. Most important symptoms and effects, both acute and delayedSymptoms/injuries : No significant signs or symptoms indicative of any health hazard are expected to occur. Symptoms/injuries after inhalation : Machining may result in release of dust. Inhalation may cause: irritation, coughing, shortness ofbreath.Symptoms/injuries after skin contact : Mechanical injury only. Molten material may burn skin.Symptoms/injuries after eye contact : Mechanical injury only. Metal dust or fume may be dangerous to eye and surrounding tissue. Symptoms/injuries after ingestion : Ingestion is unlikely due to physical state. No significant signs or symptoms indicative of anyadverse health hazard are expected to occur as a result of ingestion.4.3. Indication of any immediate medical attention and special treatment neededAll treatments should be based on observed signs and symptoms of distress in the patient.media5.1. ExtinguishingSuitable extinguishing media : Smother burning magnesium by covering with an extinguishing powder approved for use onmagnesium fires, such as Class D fire extinguisher, G1, METL-X, dry sand or other media formetal fires. Consult National Fire Protection Association standards for other extinguishing mediawhich may be applicable to certain operations such as foundries or heat-treat furnaces. Unsuitable extinguishing media : Do not use water.5.2. Special hazards arising from the substance or mixtureFire hazard : When heated in air to a temperature near its melting point, magnesium alloys ignite and burnwith a white flame.Finely divided magnesium will readily ignite in the presence of any spark or flame. It will alsoauto ignite when heated in air even below the melting point. The finer the particle size the morereadily the powder will ignite and the more intense the fire will be. As a dust magnesium has anExplosive Concentration of 20 mg/litre.Explosion hazard : Use of water on molten or burning magnesium will produce hydrogen gas and may cause anexplosion.Reactivity : Water and acids may react with magnesium releasing hydrogen.firefightersfor5.3. AdviceFirefighting instructions : Avoid contact with water. Use dry extinguishing materials (e.g. dry sand, fluxes, iron chips,cement, class D fire extinguisher or dry sand).Protection during firefighting : Do not enter fire area without proper protective equipment, including respiratory protection. Wearfire/flame resistant/retardant clothing. Use self-contained breathing apparatus.Magnesium burns with a bright white flame, tinted goggles should be used.6.1. Personal precautions, protective equipment and emergency proceduresGeneral measures : Collect all waste in suitable and labelled containers and dispose according to local legislation.Collect contaminated fire fighting water separately. It must not enter the sewage system.6.1.1. For non-emergency personnelProtective equipment : Machining may result in release of dust. If dust is formed : Dust impervious gloves.Emergency procedures : Machining may result in release of dust. If dust is formed : Avoid all unnecessary exposure.responders6.1.2. ForemergencyProtective equipment : Machining may result in release of dust. Where excessive dust may result, use approvedrespiratory protection equipment. Wear suitable protective clothing and eye/face protection. Dustimpervious gloves.Emergency procedures : 6.3. Methods and material for containment and cleaning up.precautions6.2. EnvironmentalMachining may result in release of dust. Prevent dispersion. This product contains hazardous components for the aquatic environment. Prevent entry to sewers and public waters.6.3. Methods and material for containment and cleaning upFor containment : Avoid generating dust. Contain and collect as any solid.Methods for cleaning up : Collect spillage. Minimize generation of dust. Large spills: scoop solid spill into closingcontainers.6.4. Reference to other sectionsSection 7: safe handling. Section 8: personal protective equipment. Section 13: disposal information.7.1. Precautions for safe handlingPrecautions for safe handling : Practice reasonable care in handling magnesium and magnesium alloy product forms to avoidproduct damage and/or personal injury. If operations involving this product, such as machining,produce fines, such as dust, powder, chips, or turnings, proper measures should be taken toprevent dust clouds around these operations. These fines should be collected frequently andshould be stored and disposed of in accordance with National Fire Protection Agency guidelines.If these fines should become ignited, they can be extinguished using procedures described inthis document.Hygiene measures : Always wash your hands immediately after handling this product, and once again before leavingthe workplace.7.2. Conditions for safe storage, including any incompatibilitiesTechnical measures : See National Fire Protection Association Bulletin NFPA 480, “Storage, Handling and Processingof Magnesium Solids and Powders”, for detailed storage information.Storage conditions : Store in dry protected location to prevent any moisture contact.Prohibitions on mixed storage : Store away from combustibles.7.3. Specific end use(s)Not Releventparameters8.1. ControlMagnesiumExposure Duration Effect ValueTarget ExposureRouteDNEL Workers Inhalation Long-term Systematic 10 mg Mg/m3DNEL General Population Inhalation Long-term Systematic 10 mg Mg/m3OSHA PEL (TWA) Workers inhalation Long-term Systematic 15 mg Mg/m3Aluminium USA OSHA OSHA PEL (TWA) (mg/m3)15 mg/m³ (total dust) 5 mg/m³ (respirable dust) USA NIOSH NIOSH REL (ceiling) (mg/m3)5 mg/m³United KingdomWEL TWA (mg/m³)10 mg/m³ (inhalable dust) 4 mg/m³ (respirable dust)Zinc (as oxide) USA OSHA OSHA PEL (TWA) (mg/m3)15 mg/m³ (total dust) 5 mg/m³ (respirable dust) USA NIOSH NIOSH REL (ceiling) (mg/m3)15 mg/m³ (dust)United Kingdom WEL TWA (mg/m³)5 mg/m³Manganese DNEL No hazard identifiedPNECNo hazard identified8.2. Exposure controls Appropriate engineering controls : Provide local exhaust or general room ventilation to minimize exposure to dust. Avoid dispersalof dust in the air (ie, clearing dust surfaces with compressed air). Materials for protective clothing : Machining may result in release of dust. No special clothing/skin protection equipment is recommended under normal conditions of use. Hand protection : If dust is formed: Wear dust impervious gloves. EN374.Eye protection : Safety glasses. In case of dust production: protective goggles. EN166.Respiratory protection : Machining may result in release of dust. In case of inadequate ventilation wear respiratoryprotection. Use air-purifying respirator equiped with particulate filtering cartridges. EN 136/140. Thermal hazard protection: Flame retardant clothing should be used when handling in molten state.9.1.Information on basic physical and chemical properties: Solid :Silver solid.:silver.:Odorless.: Not applicable :Not applicable : Not applicable : 450 - 650 °C : No data available : 1095 °C : Not applicable : Not applicable : Not applicable: Highly flammable as powder : Not applicable : Not applicable : 1.76 - 1.81 Physical state Appearance Color OdorOdor threshold pHRelative evaporation rate Melting point Freezing point Boiling point Flash pointSelf ignition temperature Decomposition temperature Flammability (solid, gas) Vapor pressureRelative vapor density at 20 °C Relative densityRelative density of saturated gas/air mixture : Not applicableSolubility : 6.7 mg/L (21°C, pH ca. 10.8) Log Pow : Not applicable Log Kow: Not applicable Viscosity, kinematic : Not applicable Viscosity, dynamic : Not applicable Explosive properties : Not applicable Oxidising properties : Not applicable Explosive limits: Not applicableinformation9.2. OtherNo additional information available10.1. ReactivityHazardous polymerization will not occur.stability10.2. ChemicalThe product is stable at normal handling and storage conditions.10.3. Possibility of hazardous reactionsNo additional information available.avoidto10.4. ConditionsExposure to extremely high temperatures. Build up of finely divided dust on surfaces.materials10.5. IncompatibleAcid. Reacts with acid to form hydrogen gas. In finely divided form, will react with water or acids to release hydrogen.products10.6. HazardousdecompositionSee incompatibility statement and fire and explosion hazard data for special situations.11.1 Likely Routes of ExposureMost likely routes of exposure: dermal.11.2 Symptoms Related to Physical, Chemical and Toxicological CharacteristicsSymptoms/injuries after inhalation : Machining may result in release of dust. Inhalation may cause: irritation, coughing, shortness ofbreath.Symptoms/injuries after skin contact : Mechanical injury only. Molten material may burn skin.Symptoms/injuries after eye contact : Mechanical injury only. Metal dust or fume may be dangerous to eye and surrounding tissue.11.3 Effects from ExposureNo significant signs or symptoms indicative of any health hazard are expected to occur.11.4. Information on toxicological effectsAcute toxicity : Not classified. Based on available data, the classification criteria are not met Magnesium (as Magnesium Oxide)LD50 oral rat 3990 mg/kgZinc (as Zinc Oxide)LD50 oral rat >5000 mg/kg no adverse signs of toxicityAluminiumLD50 oral rat >15900 mg/kg no adverse signs of toxicityManganeseLD50 oral rat Not DeterminedSkin corrosion/irritation : Not classified. Based on available data, the classification criteria are not metSerious eye damage/irritation : Not classified. Based on available data, the classification criteria are not metRespiratory or skin sensitisation : Not classified. Based on available data, the classification criteria are not metGerm cell mutagenicity : Not classified. Based on available data, the classification criteria are not met Carcinogenicity : Not classified. Based on available data, the classification criteria are not metReproductive toxicity : Not classified. Based on available data, the classification criteria are not metSpecific target organ toxicity (single exposure) : Not classified . Based on available data, the classification criteria are not metSpecific target organ toxicity (repeated: Not classified. Based on available data, the classification criteria are not metexposure)Aspiration hazard : Not classified. Based on available data, the classification criteria are not metLists11.5. CarcinogenicityNo components are found on OSHA, NTP or IARC lists.12.1. ToxicityMagnesium Magnesium is not hazardous to the aquatic environment as:-The lowest acute reference values for fish, invertebrates and algae are > 100 mg Mg/l.-The lowest aquatic NOEC for these three trophic levels is > 1 mg Mg/l (i.e., 41 mg Mg/l for Daphnia magna;no data are available for fish but based on the acute toxicity data, fish are less sensitive compared to aquaticinvertebrates).- There is no evidence for bioaccumulation or biomagnification in the environment.Zinc Effects on fish: Danio rerio LL50 (96 hrs) 1.793 mg/LAluminium >218.64 mg/l ASTM 2000; test material: aluminium chloride hexahydrate; Pimephales promelasManganese Not Determined12.2. Persistence and degradabilityMagnesium Magnesium is naturally occurring and ubiquitous in the environment. Upon contact with water, magnesiummetal dissolves and behaves as magnesium naturally present in the environment. Biodegradation is notrelevant for Mg metal, which is considered as not biodegradable.Zinc Not DeterminedAluminium Not DeterminedManganese Not Determinedpotential12.3. BioaccumulativeMagnesium Bioaccumulation of magnesium in aquatic/terrestrial organisms is considered to be of no concern sincemagnesium is an essential element for aquatic and terrestrial organisms. The uptake of essential elements isgenerally under strict homeostatic control. Under these conditions, the internal concentration of these elementsis maintained over a wide concentration range in the environment and rises only dramatically under conditionsthat are toxic for aquatic and terrestrial organismsZinc Not expected to bioaccumulate.Aluminium Not DeterminedManganese Not Determinedinsoil12.4. MobilityMagnesium Magnesium metal is soluble in water. A log Kd value of 2.82 l/kg dw has been determined for freshwater sediment and no data are available for soil. Based on this relatively low Kd value, the Mg2+ ions can leachthrough normal soil and are relatively mobile in sediment. Results of PBT and vPvB assessment Zinc Not DeterminedAluminium Not DeterminedManganese Not Determined12.5. Other adverse effectsNo additional information available13.1. Waste treatment methodsWaste treatment methods : Dispose in a safe manner in accordance with local/national regulations.Waste disposal recommendations : Depending on the local regulations it may be disposed of as solid waste or incinerated in asuitable installation.EURLW code : For disposal within the EC, the appropriate code according to the European Waste Catalogue(EWC) should be used.In accordance with DOT / ADR / RID / ADNR / IMDG / ICAO / IATAnumber14.1. UNNot a dangerous good for transport regulations14.2. UN proper shipping nameNot applicable14.2 Additional informationOverland transportNo additional information availableTransport by seaNo additional information availableAir transportNo additional information availableUSA RegulationsSECTION 313 SUPPLIER NOTIFICATION This product contains no chemicals in concentrations subject to the requirements of section313 of the Emergency Planning and Community Right-To-Know Act of 1986 (Title III ofSARA) and of 40 CFR 372EU ClassificationWARNING SYMBOL NoneWARNING WORD NoneRISK PHRASES NoneSAFETY PHRASES NoneIndication of changes : Revised format. GHS classification information.Data sources : Chemical Inspection & Regulation Service; accessed at: http://www.cirs-/Inventory/Global_Chemical_Inventories.html.European Chemicals Agency (ECHA) C&L Inventory database. Accessed athttp://echa.europa.eu/web/guest/information-on-chemicals/cl-inventory-database.European Chemicals Agency (ECHA) Registered Substances list. Accessed athttp://echa.europa.eu/ .Ind. Exposure & Control Techn. for OSHA Regulated Substances - MgO (fume), March, 1989,pp. 1181-1184.Krister Forsberg and S.Z. Mansdorf, "Quick Selection Guide to Chemical Protective Clothing",Fifth Edition.New Zealand GovernmentInformation Sheet: Correlation between GHS and New ZealandHSNO Hazard Classes and Categories .REGULATION (EC) No 1272/2008 OF THE EUROPEAN PARLIAMENT AND OF THECOUNCIL of 16 December 2008 on classification, labelling and packaging of substances andmixtures, amending and repealing Directives 67/548/EEC and 1999/45/EC, and amendingRegulation (EC) No 1907/2006.TSCA Chemical Substance Inventory. Accessed at/oppt/existingchemicals/pubs/tscainventory/howto.html.US National Library of Medicine National Institutes of Health Haz-Map. Accessed at.Abbreviations and acronyms : ACGIH (American Conference of Government Industrial Hygienists).ATE: Acute Toxicity Estimate.CAS (Chemical Abstracts Service) number.EC50: Environmental Concentration associated with a response by 50% of the test population.GHS: Globally Harmonized System (of Classification and Labeling of Chemicals .LD50: Lethal Dose for 50% of the test population.NOEC: No Observable Effect Concentration.OSHA: Occupational Safety & Health Administration.PBT: Persistent, Bioaccumulative, Toxic .STEL: Short Term Exposure Limits.TSCA: Toxic Substances Control Act.TWA: Time Weighted Average.This information is based on our current knowledge and is intended to describe the product for the purposes of health, safety and environmental requirements only. It should not therefore be construed as guaranteeing any specific property of the product.。

USER GUIDEBlackwire ™C420Registering Your Product OnlineVisit /productregistration to register your product online so we can provide you with the best possible service and technical support.Technical AssistanceVisit our Web site at /support for technical support including frequently asked questions, compatibility and accessibility information. The Plantronics Technical Assistance Center (TAC) is also ready to assist you. Dial (800) 789-4971.Table of ContentsWelcomeWelcome to the Plantronics family of headset products. Plantronics provides a wide range of products from mission-critical and business-critical applications to personal communications and entertainment. For additional information visit our web site at where you can visit our 24/7 support, browse through our knowledge base, chat live or ask a question. We also feature a variety of installation tutorials to make set up quick and easy. Please refer to the safety information found in the Quick Start Guide for important product safety information prior to installation or use of the product.FeaturesPackage ContentsWARNING Do not use headphones/headsets at high volumes for an extended/healthandsafety for more information on headsets and hearing.Registering your Product Online 2Technical Assistance 2Package Contents 3Features 3Powering On4Installing Plantronics Software 4Headset Features 5Using the Headset 6Media Manager 7Troubleshooting8with your Unified Communications application from the inline control. Go to/software and click the Software Downloads tab. Follow the instructions to download and install the software.CaseInstalling Plantronics softwareFor the ability to remotely detect and answer/end a call from your softphone application via the headset call control button install Plantronics Unified Runtime Engine provided with the Plantronics product or download from a convenient web site.1. If a Plantronics CD is provided, insert the CD and follow the installation instructions.2. Or, you may download the latest version of this software from the/software page.3. Your softphone may require you to choose which audio device you wish to use.Please refer to softphone documentation for details.Configuration and statusThe Plantronics Control Panel is included in a Typical Install option. Start the Plantronics Control Panel from the Windows Start Programs menu. The Plantronics Control Panel screen will let you view status, change device parameters, set preferences, etc.Software Update ManagerAll software for your Plantronics device can be remotely updated if and when updates are available. Start Plantronics Update Manager from Windows Start Programs menu to change settings such as automatic or manual check for updates.Powering OnPowering on the Blackwire C420The USB headset is automatically powered on upon inserting into the USB port of thecomputer.Headset Features12.1 2.2 Lengthen or shorten the headband until it fits comfortably. The foamcushions should sit comfortably over the center of your ears.2Microphone2.23.1 3.2 Fold the ear cushions flat as shown.3.3 Place in case.3If your softphone supports this feature, holding down the answer/end button for 2 seconds will place the call on hold. Refer to your softphone’s user guide for additionalfeatures available while on hold. Pressing the answer/end button again will take the call off hold.Media ManagerPlantronics software provides user selectable options to manage the output to your headset from supported media players when a call comes in and when it ends. The Media Player feature is in the Preferences tab of the Plantronics Control Panel. Select Start Menu> Programs>Plantronics>Plantronics Control Panel.Using Your HeadsetAnswering/Ending/Making CallsTo make a call , simply dial the number via your softphone application.To answer or end a call, Check the Plantronics softphone compatibility list at for the most current information.If your softphone is not currently supported by Plantronics software, remote detection and answer/end via the headset does not function. Pressing the call control button on the headset will not function; you must answer the call from the softphone.ProblemSolutionI cannot hear caller.• The USB headset is not set as the default audio device. Use the Audio settings in Windows under Sounds and Audio Devices to select “Blackwire C420” as the audio device.• Listening volume is too low. Press the volume up button on the headset.Callers cannot hear me.• Headset is muted. Press the mute button on headset to unmute the microphone. • Headset microphone boom alignedincorrectly. Align the headset boom with your mouth.• The USB headset is not set as the default Voice device. Use the Voice settings in Windows under Sounds and Audio Devices to select “Blackwire C420” as the voice device.Sound in headset is distorted. I can hear echo in headset.• Lower the listen volume on yoursoftphone until the distortion disappears.• Adjust volume on headset.The other headset I was using to listen to music does not work any more.• The USB headset will set itself as the default audio device in Windows. Use the Audio settings in Windows under Sounds and Audio Devices to change the device used for audio.My headset stops responding to button presses.• When a PC goes into standby orhibernation, the USB headset no longer is powered on. Be sure your PC is in an active state.My headset does not work with the headset I am using on my PC. (I cannot answer or disconnect from the headset call button).• Check compatibility list on/software to ensure your softphone is compatible for remote answer and disconnect.• When a PC goes into standby or hibernation, the USB headset is no longer powered on. Be sure your PC is in an active state.• Be sure Plantronics software is installed and running.Troubleshooting©2010 Plantronics, Inc. All rights reserved. Plantronics, the logo design, Blackwire, and Sound Innovation aretrademarks or registered trademarks of Plantronics, Inc. Windows is a registered trademark of Microsoft Corporation in the United States and other countries. All other trademarks are the property of their respective owners.82873-16 (03.10)Plantronics, Inc.345 Encinal Street Santa Cruz, CA 95060United States Tel: For product support contact us at /support.。

CINDAS LCC材料金屬結構合金資料庫-操作手冊【2009】【目 次】【目 次】出版社介紹 (3)資料庫介紹...............................................................................................................錯誤! 尚未定義書籤。

首頁. (3)Browse(瀏覽)功能 (4)Browse by Material Group (瀏覽材料群組) (4)Browse by Property Group (瀏覽特性群組) (5)Search(檢索)功能 (6)　Search by Material Name (檢索材料) (6)　Search by Property Name (檢索特性) (7)結果呈現方式（圖表or 文字） (8)　圖表方式呈現 (8)　文字方式呈現 (9)Material Cross Index(材料名稱對照索引) (9)PDF資訊 (10)出版社介紹CINDAS LCC設於美國普渡大學的資訊數據分析與綜合中心，出版多種材料資料庫，較早被大家知道的有材料的物理特性資料庫Thermophysical Properties of Matter Database (TPMD)以及電子封裝材料資料庫Microelectrinic Packaging Materials Database (MPMD)，今年CINDAS LCC更推出了和美國空軍共同研發出版的資料庫－航太結構金屬合金資料庫Aerospace Structural Metals Database (ASMD)。

此外，CINDAS也是美國國防部眾多主要資訊分析中心的運轉中心，負責更新並提供重要的航太結構金屬合金手冊給美國空軍。

首頁https:///Applications/請輸入帳密選擇資料庫Browse(瀏覽)功能利用下拉選單瀏覽資料庫提供的材料群組及特性群組Material Group(材料群組)：選擇材料群組。

QFe2.5铁青铜板棒
康1 53 - 16- 2 0 - 5 8 - 86
铁青铜是以铁为主要元素的青铜。

以C19400合金(美国)为代表的铜铁合金(铁青铜)(铁青铜化学成分含量见附表)。

由于热处理时有铁的析出，从而提升合金的强度和耐热性，硬态下抗拉强度可达415~485MPa，电导率可达60%IACS，广泛用于集成电路的引线框架材料，并已列入美国的ASTMB465-85标准之中。

QFe2.5铁青铜
化学成分:
锌Zn:0.05-0.20
铁Fe:2.1-2.6
铅Pb:0.03
磷P:0.015-0.15
Cu:97.0
QFe2.5铁青铜高强度、高导电、高精度和高的抗软化温度，又兼具适宜的加工性能，电镀钎焊性能。

主要用于集成电路和电子分立器件的制作,电子工业接插件及大规模集成电路引线框架材料等。

广泛用于电子工业、计算机通讯设备等领域，使用情况较好。

带材精度高、板型良好、无残余应力。

产品替代进口，随着高科技事业的发展，该精密铜带的用量逐渐增加。