Wastewaters Following EPA 200.7
The prevention and control of water pollution is critically important to protecting both human and environmental health. This work focuses on the analysis of wastewaters following the guidelines of EPA Method 200.7 using the Avio^® 500 ICP-OES. ... Read more

Meeting the Challenges of Soil Analysis Using ICP-OES
Micronutrients contained within soil are the building blocks for the crops we eat, process, or feed to livestock. This work demonstrates the ability of the Avio^® 200 ICP-OES to reliably and effectively analyze a variety of soil samples for an array of elements over a wide range of concentrations. ... Read more

Trace Elements in Fertilizer Using ICP-OES
Fertilizer production is important to a country’s agricultural sector, with the main benefit of increasing crop productivity. This work demonstrates the ability of the Avio^® 200 ICP-OES to meet Thai regulatory limits for trace elements in fertilizers. ... Read more

Micronutrients in Fruit Juice Using ICP-OES
Fruit juices are refreshing and popular and can be a better nutritional alternative than carbonated beverages. This work demonstrates the ability of the Avio^® 200 ICP-OES to reliably and effectively analyze a variety of fruit juice samples for an array of elements over a wide range of concentrations. ... Read more

In-Service Oils Following ASTM D5185
With heavy machinery, it’s important to monitor its status to prevent breakdowns and costly repairs. This work demonstrates the ability of the Avio^® 500 ICP-OES system to analyze in-service oil samples following a common implementation of ASTM method D5185 in a high-throughput environment. ... Read more

Oil Additives Following ASTM D49511
To ensure optimal performance and longer engine life, it’s critical to know and control concentrations of certain elements. This work demonstrates the ability of the Avio^® 200 ICP-OES to accurately and rapidly analyze additives in lubricating oils following ASTM method D4951. ... Read more

Metallurgical: Resolving Difficult Interferences Using ICP-OES
ICP-OES is commonly used for the determination of trace elements in metallurgical matrices. This work describes the analysis of a challenging metallurgical sample with the Avio^® 500 ICP-OES leveraging MSF to obtain accurate results. ... Read more

Metallurgical: Impurities in Nickel Using ICP-OES
Nickel is one of the most widely used metals due to its corrosion resistance and strength at high and low temperatures. This work demonstrates the ability to measure contaminants in nickel using the Avio^® 500 ICP-OES to comply with London Metal Exchange requirements. ... Read more

Metallurgical: Impurities in Lead Using ICP-OES
Although lead is highly toxic and has been phased out of a wide variety of products, it is still commonly used in a number of applications. This work demonstrates the ability of the Avio^® 500 ICP-OES to measure impurities in lead to comply with London Metal Exchange requirements. ... Read more

Meeting RoHS Directive Using Microwave Digestion and ICP-OES
With the increasing use of electronics, manufacturers continue to develop new products. This work demonstrates the ability of the Titan™ MPS digestion system and Avio^® 200 ICP-OES to rapidly and accurately measure elements in a variety of samples that fall under the RoHS directive. ... Read more