Deconvolution of the particle size distribution of ProRoot MTA and MTA Angelus.

William Nguyen Ha, Fardad Shakibaie, Bill Kahler, Laurence James Walsh
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引用次数: 14

Abstract

Objective Mineral trioxide aggregate (MTA) cements contain two types of particles, namely Portland cement (PC) (nominally 80% w/w) and bismuth oxide (BO) (20%). This study aims to determine the particle size distribution (PSD) of PC and BO found in MTA. Materials and methods The PSDs of ProRoot MTA (MTA-P) and MTA Angelus (MTA-A) powder were determined using laser diffraction, and compared to samples of PC (at three different particle sizes) and BO. The non-linear least squares method was used to deconvolute the PSDs into the constituents. MTA-P and MTA-A powders were also assessed with scanning electron microscopy. Results BO showed a near Gaussian distribution for particle size, with a mode distribution peak at 10.48 μm. PC samples milled to differing degrees of fineness had mode distribution peaks from 19.31 down to 4.88 μm. MTA-P had a complex PSD composed of both fine and large PC particles, with BO at an intermediate size, whereas MTA-A had only small BO particles and large PC particles. Conclusions The PSD of MTA cement products is bimodal or more complex, which has implications for understanding how particle size influences the overall properties of the material. Smaller particles may be reactive PC or unreactive radiopaque agent. Manufacturers should disclose particle size information for PC and radiopaque agents to prevent simplistic conclusions being drawn from statements of average particle size for MTA materials.

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Abstract Image

prooroot MTA和MTA Angelus粒度分布的反卷积。
矿物三氧化物骨料(MTA)水泥含有两种颗粒,即波特兰水泥(PC)(名义上为80% w/w)和氧化铋(BO)(20%)。本研究旨在确定MTA中PC和BO的粒径分布(PSD)。材料与方法采用激光衍射法测定了prooroot MTA (MTA- p)和MTA Angelus (MTA- a)粉末的psd,并与PC(三种不同粒径)和BO样品进行了比较。采用非线性最小二乘法将psd解卷积为各分量。用扫描电镜对MTA-P和MTA-A粉末进行评价。结果BO粒径呈近高斯分布,在10.48 μm处有一个模态分布峰。不同细度PC样品的模态分布峰范围为19.31 ~ 4.88 μm。MTA-P具有由细颗粒和大颗粒PC组成的复杂PSD, BO处于中等大小,而MTA-A只有小颗粒BO和大颗粒PC。结论MTA水泥制品的PSD是双峰或更复杂的,这对理解粒径如何影响材料的整体性能具有重要意义。较小的颗粒可能是活性PC或非活性不透射线剂。制造商应披露PC和不透射线剂的粒径信息,以防止从MTA材料的平均粒径声明中得出简单化的结论。
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