粉体行业在线展览
RT 100 XL
1-5万元
Retsch
RT 100 XL
8035
无
实验室与现场均可使用
高度精确的人工分样工艺
optimized splitting process by evenly spreading the sample over the hopper
variable slot widths permit splitting of coarse bulk material
分样工艺根据DIN 51701
农业, 化学 / 合成材料, 医药品, 地质 / 冶金, 工程/电子, 建筑原料, 环境 / 资源回收利用, 玻璃/ 陶瓷, 生物, 食物
化学制品, 咖啡, 土壤, 坚果, 填充物, 建筑原料, 水泥熔渣, 沙子, 洗衣粉, 矿物, 种子, 肥料, 谷物, 金属粉末, 面粉, ...
faultless and comparable analysis is closely linked to an accurate sample handling. Only a sample representative of the initial material can provide meaningful analysis results. Sample splitters ensure the representativeness of a sample and thus the reproducibility of the analysis.
The RT 100 XL is equipped with a feed hopper with closed outlet. Thus, up to 30 l sample material
may be evenly spread over the entire width of the hopper. The outlet is
opened manually by moving a lever and the sample is splitted. The slots
of the dividing head can be adjusted to a maximum width of 108 mm.
The
sample splitters RT are ideal for the on-site reduction of sample
material. They are easy to use, easy to clean and do not need an
electrical power supply.
化学制品, 咖啡, 土壤, 坚果, 填充物, 建筑原料, 水泥熔渣, 沙子, 洗衣粉, 矿物, 种子, 肥料, 谷物, 金属粉末, 面粉, ...
实验室与现场均可使用
高度精确的人工分样工艺
optimized splitting process by evenly spreading the sample over the hopper
variable slot widths permit splitting of coarse bulk material
分样工艺根据DIN 51701
应用 | 分样 |
应用领域 | 农业, 化学 / 合成材料, 医药品, 地质 / 冶金, 工程/电子, 建筑原料, 环境 / 资源回收利用, 玻璃/ 陶瓷, 生物, 食物 |
样品特征 | 散装疏松材料 |
进料粒度* | Slot width adjustable 12 / 24 / 36 / 48 / 60 / 72 / 84 / 96 / 108 mm |
批次加料量* | ≤ 30 l |
分样份数 | 2 |
机体尺寸 (宽x高x纵深) | 72 x 70 x 46 cm |
净重 | ~ 55 kg |
Please note:
受样品材料性质和仪器配置/设定的影响
With sample splitters, one of the receptacles is used to pour a well mixed sample evenly into the dividing head. The material runs through the alternately arranged passages in the opposite direction into the two collecting receptacles under the dividing head outlets. With every operation the feed sample is halved. This can be repeated as many times as necessary until the required dividing quantity has been obtained.
根据技术改造和误差调整