安东帕康塔振实密度计

Autotap和Dual Autotap测试研磨咖啡粉 的振实密度和流动性

根据USP <616>使用Autotap分析了几种烘培后的咖啡粉的振实密度，根据USP <1174>的卡尔指数和豪斯纳比分析了咖啡粉的流动性信息。

无汞测试固体材料几何密度

测定固体材料包裹层内的几何空间，包括内部空隙、裂缝或者孔隙，经过计算可以得到材料的几何密度，又称为包裹密度或者容积密度。

安东帕康塔泥浆密度表征

应用在不同工业方向上的泥浆差异很大，需要一种可靠的表征方法来测量这类混合物的密度。安东帕康塔的Ultrapyc系列固体真密度分析仪可以精准的测试泥浆的真实密度，而且还可以确定泥浆中固体含量的百分比。

安东帕康塔_影响真密度测试结果的因素

真密度是粉体材料最基本物理参数，也是测定微粉颗粒分布等其他物理性质必须用到的参数。真密度数值大小决定于材料化学组成及纯度，其值直接影响材料质量、性能及用途，对其测定有重要意义。真密度的概念已广泛应用于塑料、碳素材料、电池等粉体的特征评价。

Advantages of QSDFT for Pore Size Analysis of Carbons

Quenched solid density functional theory methods that take into account the heterogeneity / surface roughness of carbons were developed and validated and are available in the Anton Paar software for pore size analysis. Methods exist for varying pore geometry and examples for activated carbons, templated mesoporous carbons, and hierarchical carbons are given.

Graphene Characterization

Graphene and graphene-related materials have revolutionized numerous areas of materials science and technology. Their massive technological success is related to their unique structural and chemical properties. Graphene structure and key fundamental properties such as surface area, pore size, and density are examined.

Catalyst Characterization: From Fresh to Spent

Characterization of catalysts, both prior to reaction and in their spent form, can provide valuable information about the efficiency of the catalytic process and guide future design of new catalysts. Through determination of the pore size, pore volume, active surface area, particle size, surface acidity, fluidization behavior, cohesion strength and elutriation rate with Anton Paar instruments, insights can be derived that contribute to catalyst development and quality control.