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哪里购买SafeAir化学检测徽章化学医用卡化学指示牌徽章价格多少操作流程

日期:2019-08-23 04:12
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摘要:SafeAir化学检测徽章化学医用卡化学指示牌徽章 SafeAir化学检测徽章化学医用卡化学指示牌徽章382060-50哪里购买 化学检测徽章哪里购买 化学医用卡价格 化学指示牌徽章安装操作使用流程 如何怎么使用 欢迎您的来电咨询与洽谈 北京瑞亿斯科技有限公司 SafeAir®化学检测徽章 当有化学危害的威胁时,立即检测是至关重要的。SafeAir系统立即可视化确认特定的化学危害。 SafeAir化学检测徽章可用于许多不同的有毒工业化学品。 SafeAir徽章中高灵敏度和选择性的传感器设计用于显示均匀和稳定的颜色变化,当特定化学品存在时,它将显示为感叹号。不需要校准或实验室分析,使徽章有效,易于使用和便宜。

SafeAir化学检测徽章化学医用卡化学指示牌徽章

SafeAir化学检测徽章化学医用卡化学指示牌徽章382060-50哪里购买

化学检测徽章哪里购买  化学医用卡价格  化学指示牌徽章安装操作使用流程

如何怎么使用  欢迎您的来电咨询与洽谈  北京瑞亿斯科技有限公司


SafeAir®化学检测徽章

当有化学危害的威胁时,立即检测是至关重要的。SafeAir系统立即可视化确认特定的化学危害。 SafeAir化学检测徽章可用于许多不同的有毒工业化学品。

SafeAir徽章中高灵敏度和选择性的传感器设计用于显示均匀和稳定的颜色变化,当特定化学品存在时,它将显示为感叹号。不需要校准或实验室分析,使徽章有效,易于使用和便宜。

对于许多SafeAir徽章,可以使用颜色比较器来确定有毒化学品的曝光量。这些特别设计的彩**表具有徽章插槽。一旦插入了徽章,用户可以转动轮来匹配颜色。曝光剂量在曝光剂量窗口中显示。有关更多信息,请参阅我们的SafeAir系统手册。

SafeAir化学检测徽章

SafeAir化学检测徽章可用于表中所含的每种有毒化学品。

关于光气检测和SafeAir®光气徽章

如何使用光气?

光气在工业中被用作许多日常产品的前体化学品。光气*常见的用途是产生异氰酸酯,它们又用来制造家具,汽车和其他产品的聚氨酯泡沫。光气也是各种塑料和**的前身。

光气的健康影响是什么?

光气毒性高。在**次世界大战中,光气被用作化学战剂。由于其高毒性,大多数光气被转化为另一种化学物质,例如异氰酸酯,在其产生的相同位置。结果,通常只传输少量的光气。工作人员接触光气是危险的,必须用光气检测器密切监测。吸入光气可能导致窒息,咳嗽,呼吸困难,肺炎或严重的肺水肿(肺部异常液体积聚)。适用的工程程序,保护设备和光气检测功能应在可能存在光气的地方使用。


工业与光气安全有何关系?

工业界非常重视通过国际异氰酸酯研究所(III)和美国化学理事会光气小组组织安全使用光气。光气制造商通过分享安全和健康信息来促进光气和所产生的异氰酸酯生产的安全。有效的光气检测是光气安全的基石。大多数光气制造商实施了一个全球*佳实践,所有光气设施的工作人员都应该佩戴光气徽章。世界上大多数光气生产设施都使用大型光气检测器进行广域监测,还有光气指示牌用于个人监测。

光气检测徽章是做什么的?

Morphix是光气检测徽章的****者,也被称为光气指示牌或光气监控徽章。我们与光气业有着密切的关系,并与他们紧密合作,提供*适合行业需求的光气指示牌。世界各地的光气生产商在其光气生产设施中为工人使用SafeAir光气徽章。 Morphix以多种语言生产SafeAir光气徽章,以满足全球需求。

工作人员在他/她的呼吸区域(例如夹在衬衫领上)戴上SafeAir光气徽章,以监测光气。徽章也可用于通过将徽章悬挂在可疑区域附近来监视光气泄漏。指示牌上的颜色变化,以感叹号的形式,提醒用户接触光气。 Morphix还提供SafeAir光气彩色比较器,可用于通过将光气徽章上的颜色与光气比较器中的颜色相匹配来读取曝光剂量水平。 Morphix提供各种SafeAir光气检测徽章,以满足行业的各种需求,如表中所述。单击表中的徽章名称,以打开该徽章的操作说明。使用SafeAir光气徽章,光气检测从未如此简单。

徽章名称

零件号

使用寿命

检测限(ppm分)

颜色比较器零件号

SafeAir光气钻石30.5 383016

SafeAir光气MediBadge

(又名Medic徽章)510 383020

SafeAir光气DuraBadge  51.2 383022

关于异氰酸酯检测和SafeAir®芳香族异氰酸酯徽章

如何使用异氰酸酯?

异氰酸酯在工业中广泛应用。两种*常见的形式是甲苯二异氰酸酯(TDI)和亚甲基二苯基二异氰酸酯(MDI),其主要用于聚氨酯制造中用于诸如绝缘,床垫,家具和汽车座椅的产品。它们也用于喷涂保护涂料,粘合剂,油漆和清漆。虽然使用异氰酸酯是常见的,但是工作人员接触异氰酸酯可能是危险的。只要使用这些化学品,TDI检测能力和MDI检测能力都应该到位。

异氰酸酯的健康影响是什么?

暴露于异氰酸酯可引起职业性**,刺激皮肤,眼睛,鼻子和喉咙以及癌症。死亡是从高剂量暴露于异氰酸酯而发生的。呼吸系统**也可能由异氰酸酯暴露于皮肤引起。鉴于健康影响,使用异氰酸酯的所有设施应具有异氰酸酯安全计划,包括适当的工程程序,防护设备和异氰酸酯监测。

OSHA和工业如何与异氰酸酯安全相关?

美国职业安全与健康管理局(OSHA)已经实施了一项国家重点计划,以保护工人不受职业暴露于异氰酸酯的严重健康影响。 OSHA制定国家重点项目,重点开展工业和对行业特定危害的检查。通过这个国家重点项目,OSHA专注于使用异氰酸酯化合物的工作场所,以减少职业病和死亡。这种工作场所通常同时使用固定式异氰酸酯监测器进行广域异氰酸酯监测,以及用于个别异氰酸酯监测的异氰酸酯监测徽章。例如,使用MDI的设施将使用固定式MDI监视器以及MDI监控徽章。

 

许多异氰酸酯生产者是国际异氰酸酯研究所(III)的成员。 III网站表明,研究所的主要目标是在工作场所,社区和环境方面促进对MDITDI的安全处理。

许多异氰酸酯生产商建议,具有接触潜力的员工应将TDI徽章和/MDI徽章作为综合异氰酸酯监测计划的一部分。这种徽章被称为异氰酸酯检测徽章,异氰酸酯指示牌或异氰酸酯监控徽章。 Morphix与异氰酸酯行业有着很强的关系,并在过去承包了许多行业参与者进行环境和暴露测试。制造和使用全球异氰酸酯的许多公司在其生产设施中为工人使用SafeAir芳香族异氰酸酯指示牌。

 

异氰酸酯检测徽章是做什么的?

SafeAir芳香族异氰酸酯徽章(部件号)以十亿分之一(ppb)水平检测TDIMDI。为了监测芳族异氰酸酯(即TDIMDI),工作人员将呼吸区域(例如夹在衬衫领)上的这种易于使用的徽章穿上。检测徽章也可用于通过将徽章悬挂在可疑区域附近来监视TDIMDI泄漏。徽章上的颜色变化,以惊叹号的形状,提醒用户暴露于芳香族异氰酸酯。 Morphix还提供SafeAir TDI颜色比较器(部件号),可用于通过将异氰酸酯监测标志上的颜色与TDI比较器中的颜色相匹配来读取曝光剂量水平。 SafeAir徽章和比较系统提供了具有成本效益的异氰酸酯检测手段。他们帮助确保工人知道他们接触到芳族异氰酸酯。

 

有关更多技术和使用信息,请参阅SafeAir芳香族异氰酸酯徽章操作说明。

使用SafeAir®徽章

在制造和工业环境中,实时检测化学品威胁和水平是安全工作环境和持续运行时间的基石。事实上,化学检测徽章有时是强制性的,以符合行业*佳做法,OSHA法规或劳工协议。

凭借其简单的设计,SafeAir徽章是许多工业环境中的日常工具。使用易于阅读的颜色变化指示器,即使是*忙碌的员工也可以定期检查他们呼吸的空气是否安全。不需要液体,校准,实验室分析或电源,夹子可以免受监控。 SafeAir徽章可以检测各种各样的化学物质,并在许多应用中使用。这里有几个例子。

SafeAir徽章

化工厂:即使具有*佳安全措施的化工厂也可能会遇到泄漏。SafeAir提供实时信息,以保障员工的安全。

 

食品设施:化学品,如氯,用于保持食品设施的清洁和安全,但高水平对工人来说可能是危险的。SafeAir徽章用于检测潜在员工接触有毒化学物质。

 

石油:钻井和加工石油可能是不可预测的,员工可以接触化学物质,如汞或二氧化硫。SafeAir提供了一种经济实惠的方法来检测何时出现不需要的化学物质。

 

保健:化学品用于保持医疗设施的清洁,医疗设备的**。SafeAir提供了一个简单的工具,以确保使用化学品的工人不会暴露在危险的水平。

 

采矿:在采矿作业中使用了许多从氰化物到异氰酸酯的不同化学物质。SafeAir徽章让工人知道有毒化学物质是否在空气中。

SafeAir® Chemical Detection Badges

When there's a threat of chemical hazard, immediate detection is paramount. The SafeAir System offers immediate visual confirmation of a specific chemical hazard. SafeAir chemical detection badges are available for many different toxic industrial chemicals.

 

The highly sensitive and selective sensor in the SafeAir badge is designed to show a homogeneous and stable color change, which appears as an exclamation point when a particular chemical is present. No calibration or laboratory analysis is needed, making the badges effective, easy-to-use and inexpensive.

 

For many SafeAir badges, a color comparator is available to pinpoint the exposure dose of a toxic chemical. These specially designed color charts feature a slot for the badges. Once the badge is inserted, the user can turn a wheel to match the colors. The exposure dose is indicated in the exposure dose window. For more information, see our SafeAir System brochure.

 

SafeAir Chemical Detection Badges

SafeAir chemical detection badges are available for each of the toxic chemicals included in the table.

About Phosgene Detection & SafeAir® Phosgene Badges

How Is Phosgene Used?

Phosgene is used in industry as a precursor chemical to many everyday products. The most common use of phosgene is to create isocyanates, which in turn are used to create polyurethane foams for furniture, cars and other products. Phosgene is also a precursor to a variety of plastics and pharmaceuticals.

 

What Are The Health Effects Of Phosgene?

Phosgene is highly toxic. Phosgene gas was used as a chemical warfare agent in World War I. Because of its high toxicity, most phosgene is converted to another chemical, for instance an isocyanate, at the same site where it is generated. As a result, typically only small amounts of phosgene are transported. Worker exposure to phosgene is dangerous, and must be closely monitored with a phosgene detector.  Inhalation of phosgene gas may cause choking, coughing, painful breathing, pneumonia, or severe pulmonary edema (abnormal fluid build-up in the lungs). Proper engineering procedures, protective equipment, and phosgene detection capabilities should be in place wherever phosgene is potentially present.

How Is Industry Involved With Phosgene Safety?

Industry has shown a strong emphasis on the safe use of phosgene through organizations such as the International Isocyanate Institute (III) and the Phosgene Panel of the American Chemistry Council. Phosgene manufacturers promote safety in the production of phosgene and resulting isocyanates by sharing safety and health information. Effective phosgene detection is the cornerstone of phosgene safety. Most phosgene manufacturers have implemented a "global best practice" that all workers in a phosgene facility should wear a phosgene badge. Most phosgene-producing facilities worldwide utilize both large phosgene detectors for wide-area monitoring, and phosgene indicator badges for individual monitoring.

 

What Do Phosgene Detection Badges Do?

Morphix is the world leader in phosgene detection badges, also known as phosgene indicator badges or phosgene monitoring badges. We have a strong relationship with the phosgene industry, and have worked closely with them to provide phosgene indicator badges that best meet the needs of industry. Phosgene producers throughout the world use SafeAir phosgene badges for workers in their phosgene production facilities. Morphix produces SafeAir phosgene badges in multiple languages to meet global demand.

 

A worker wears a SafeAir phosgene badge in his/her breathing zone (e.g. clipped to a shirt collar) in order to monitor for phosgene. The badge can also be used to monitor for phosgene leaks by hanging the badge near a suspect area. A change in color on the indicator badge, in the shape of an exclamation mark, alerts the user to exposure to phosgene. Morphix also offers SafeAir phosgene color comparators, which can be used to read exposure dose levels by matching the color on the phosgene badge to the color in the phosgene comparator. Morphix offers a variety of SafeAir phosgene detection badges to meet the various needs of industry, as described in the table. Click on the badge name in the table in order to open the Operating Instructions for that badge.

 

With the SafeAir phosgene badge, phosgene detection has never been easier.

Badge Name

 

About Isocyanate Detection & SafeAir® Aromatic Isocyanates Badges

How Are Isocyanates Used?

Isocyanates are widely used in industry. The two most common forms are toluene diisocyanate (TDI) and methylene diphenyl diisocyanate (MDI), which are used primarily in polyurethane manufacturing for products such as insulation, mattresses, furniture and car seats. They are also used in spray-on protective coatings, adhesives, paints, and varnishes. While the use of isocyanates is common, worker exposure to isocyanates can be hazardous. TDI detection capability and MDI detection capability should be in place whenever these chemicals are in use.

 

What Are The Health Effects Of Isocyanates?

Exposure to isocyanates can cause occupational asthma, irritation of the skin, eyes, nose and throat, and cancer. Deaths have occurred from high dose exposures to isocyanates. Respiratory illnesses also can be caused by isocyanate exposure to the skin. Given the health effects, all facilities using isocyanates should have an isocyanate safety program which includes proper engineering procedures, protective equipment, and isocyanate monitoring.

How Are OSHA And Industry Involved With Isocyanate Safety?

The Occupational Safety and Health Administration (OSHA) in the United States has implemented a National Emphasis Program to protect workers from the serious health effects from occupational exposure to isocyanates. OSHA develops national emphasis programs to focus outreach efforts and inspections on specific hazards in an industry. Through this National Emphasis Program, OSHA is focusing on workplaces that use isocyanate compounds in an effort to reduce occupational illnesses and deaths. Such workplaces often utilize both a stationary isocyanate monitor for wide-area isocyanate monitoring, and isocyanate monitoring badges for individual isocyanate monitoring. For instance, a facility which utilizes MDI will use a stationary MDI monitor as well as MDI monitoring badges.

 

Many isocyanate producers are members of the International Isocyanate Institute (III). The III website indicates that the principal aim of the Institute is to promote the safe handling of MDI and TDI, with respect to the workplace, the community and the environment.

 

Many isocyanate producers recommend that employees with exposure potential should wear TDI badges and/or MDI badges as part of a comprehensive isocyanates monitoring program. Such badges are known as isocyanate detection badges, isocyanate indicator badges or isocyanate monitoring badges. Morphix has a strong relationship with the isocyanate industry, and has been contracted in the past to perform environmental and exposure testing for numerous industry participants. Many companies that make and use isocyanates throughout the world use SafeAir Aromatic Isocyanates indicator badges for workers in their production facilities.

 

What Does An Isocyanate Detection Badge Do?

The SafeAir Aromatic Isocyanates badge (part number 382001) detects both TDI and MDI at parts per billion (ppb) levels. A worker wears this easy-to-use badge in the breathing zone (e.g. clipped to a shirt collar) in order to monitor for aromatic isocyanates (i.e. TDI and MDI). The detection badge can also be used to monitor for TDI or MDI leaks by hanging the badge near a suspect area. A change in color on the badge, in the shape of an exclamation mark, alerts the user to exposure to an aromatic isocyanate. Morphix also offers a SafeAir TDI color comparator (part number 383005), which can be used to read exposure dose levels by matching the color on the isocyanate monitoring badge to the color in the TDI comparator. The SafeAir badge and comparator system provides a cost-effective means of isocyanate detection. They help ensure that workers are aware of their exposure to aromatic isocyanates.

 

For more technical and use information, see the SafeAir Aromatic Isocyanates badge Operating Instructions.

Uses of SafeAir® Badges

In manufacturing and industrial settings, real-time detection of chemical threats and levels is the cornerstone to a safe working environment and consistent uptime. In fact, chemical detection badges are sometimes mandatory in order to meet industry best practices, OSHA regulations or labor agreements.

 

With its simple design, SafeAir badges are an everyday tool in many industrial settings.  With easy-to-read color-change indicators, even the busiest employees can regularly check that the air they are breathing is safe.  No liquids, calibration, laboratory analysis or power source is necessary, and clips make monitoring hands free.  SafeAir badges can detect a wide range of chemicals, and are used in a many applications. Here are a few examples.

 

SafeAir Badge

Chemical Plants: Even chemical plants with the best safety practices can sometimes experience a leak. SafeAir provides real-time information to keep workers safe.

Food Facilities: Chemicals, like chlorine, are used to keep food facilities clean and safe, but high levels can be dangerous to workers. SafeAir badges are used to detect potential employee exposure to toxic chemicals.

Petroleum: Drilling and processing petroleum can be unpredictable, and employees can be exposed to chemicals such as mercury or sulfur dioxide. SafeAir provides an affordable and easy way to detect when unwanted chemicals are present.

 

Health Care: Chemicals are used to keep health care facilities clean, and medical equipment sterilized. SafeAir provides an easy tool to make sure that workers using chemicals are not exposed to a dangerous level.

Mining: Many different chemicals from cyanides to isocyanates are used in mining operations. SafeAir badges let workers know if toxic chemicals are in the air.

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