Combustion method (improved Dumas method) nitrogen (protein) analysis device FP928
CHN828,FP828
Carbon/Nitrogen analysis device using combustion method, capable of sampling up to a maximum of 3g.
The 928 series is a device that measures a wide range of applications, including food, feed, fertilizers, and soil, using the combustion method (improved Dumas method) with a mounted touchscreen monitor featuring the latest hardware, allowing for easy operation. The fundamental analysis principles and performance follow those of traditional LECO macro combustion devices, with further improvements in throughput, downtime reduction, and reliability. It has a combustion capacity of up to 3g (for the FP928 model), rapid analysis time, and low running costs, designed to deliver maximum performance. For more details, please contact us or download the catalog.
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basic information
【Main Features】 ○ High-throughput analysis with minimal downtime - Achieves a cycle time of 5.3 minutes with the FP928 - Extends reagent lifespan, allowing for continuous analysis of 4,000 samples with reduced copper - Standard equipped with a 100-position auto-loader ○ Versatile and durable design suitable for a wide range of applications ○ Low running costs ◆◆ We offer a lineup of CHN928 and FP928. ◆◆ ● For more details, please contact us or download the catalog.
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Company information
LECO Corporation in the United States has been meeting the expectations of the development of materials and quality control analysis in various industrial products since 1936. In particular, in the field of carbon, sulfur, oxygen, nitrogen, and hydrogen analysis in metallic materials, it holds an overwhelming market share and can provide analytical values that ensure sufficient reliability for global transactions. Additionally, the application of these analytical techniques has been recognized in various fields, such as elemental analysis of organic substances and nutritional component analysis in food, as convenient, safe, and more accurate methods. Furthermore, in the field of mass spectrometry, as a pioneer of time-of-flight mass spectrometry (TOF-MS), it has contributed to the accumulation of data that serves as a foothold for cutting-edge research in Europe and the United States. Moving forward, we will continue to strive to contribute to the development of new technologies, productivity, and quality improvement in various fields based on accurate analytical results.
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