SDLOI2000 thermal ignition reduction analyzer Introduction: Applicable scope
① Analysis of loss on ignition (loss on ignition) of substances such as alumina, aluminum fluoride, and cryolite; ② Analysis of the reduction in ignition (loss on ignition) of metal minerals such as iron ore and laterite nickel ore; ③ Analysis of cement loss on ignition; ④ Analysis of ignition reduction (loss on ignition) of materials such as limestone and dolomite. Compliant with standards GB/T 6609.2 2009 "Method for Determination of Mass Loss of Alumina at 300 ℃ and 1000 ℃" GB/T 6730.68-2009 "Iron ores - Determination of loss on ignition - Gravimetric method" GB/T 176-2017 "Methods for Chemical Analysis of Cement - Determination of Loss on Ignition" YS/T 820.26-2012 "Determination of ignition loss of laterite nickel ore - Gravimetric method" GB/T 3286.8-1998 "Methods for Chemical Analysis of Limestone and Dolomite - Determination of Loss on Ignition" Features: 1. High degree of automation, the experimental process is fully automated and does not require manual operation. Automatic lid opening/closing, automatic weighing, and automatic analysis of sample moisture content and heat reduction rate after one-time batch sampling. 2. Flexible selection and configuration of measurement indicators to meet various user needs. Users can choose different configurations (such as constant temperature, constant temperature time, etc.) based on different experimental needs to achieve ignition reduction analysis of different samples, with a wide range of applications. 3. The form of process analysis can be freely set. Support national standard testing methods to directly obtain test results, or support customized testing to achieve thermogravimetric analysis of sample process thermal testing; Support intelligent thermogravimetric analysis judgment, which can intelligently complete sample analysis through changes in sample weight during the testing process, shorten analysis time, and improve work efficiency. 4. Humanized design, easy to operate, and high efficiency. The upper cover can be automatically opened, and when a batch of samples is tested, it can automatically open the cover and dissipate heat, facilitating the instrument to cool down as soon as possible for the next batch of samples to be tested; The equipment is equipped with an external display screen of an electronic balance in front of it, which displays the sample weight in real-time. Technical parameters: Sample mass: 0.1g~10g (customizable) Number of samples: 20 Maximum power: 4kW Furnace temperature range: room temperature~1050 ℃ Temperature control accuracy: ± 2 ℃ Resolution: 0.1 ℃ Analytical balance weighing accuracy: 0.0001g Power supply voltage: 220V ± 10%, 50/60Hz Size: 550mm long × Width 590mm × 530mm high Weight: approximately 70kg
Introduction: Applicable scope
① Analysis of loss on ignition (loss on ignition) of substances such as alumina, aluminum fluoride, and cryolite; ② Analysis of the reduction in ignition (loss on ignition) of metal minerals such as iron ore and laterite nickel ore; ③ Analysis of cement loss on ignition; ④ Analysis of ignition reduction (loss on ignition) of materials such as limestone and dolomite. Compliant with standards GB/T 6609.2 2009 "Method for Determination of Mass Loss of Alumina at 300 ℃ and 1000 ℃" GB/T 6730.68-2009 "Iron ores - Determination of loss on ignition - Gravimetric method" GB/T 176-2017 "Methods for Chemical Analysis of Cement - Determination of Loss on Ignition" YS/T 820.26-2012 "Determination of ignition loss of laterite nickel ore - Gravimetric method" GB/T 3286.8-1998 "Methods for Chemical Analysis of Limestone and Dolomite - Determination of Loss on Ignition"
