Phase identification, semi-quantitative phase analysis, and pattern treatment.
X Pert Highscore Plus Software Software Package ContainsThis software package contains many supporting functions to display, manipulate and to evaluate your diffraction data.HighScore can handle all PANalytical XRD data formats and additionally most of the diffraction patterns from other suppliers.
It is a combat game where your goal is to kill as many enemies and survive. Quick Calculate helps to develop interest in solving mathematical equations. This program has the ability to use any images in the score pages. This is the software for the MCP3909 3-Phase Energy Meter Reference Design. X Pert Highscore Plus Software Full Chapter URLView chapter Purchase book Read full chapter URL: Crystallization Behavior of Semicrystalline Polymers in the Presence of Nucleation Agent Zhiyong Wei, Ping Song, in Crystallization in Multiphase Polymer Systems, 2018 2.2.2 Wide-Angle X-Ray Diffraction WAXD analysis was carried out on a Rigaku DMax-Ultima X-ray diffractometer with Ni-filtered Cu K radiation ( 0.15,418 nm). The operating target voltage was 40 kV, and the tube current was 10 mA. X Pert Highscore Plus Software Download As PDFFrom: Physical Fundamentals of Nanomaterials, 2018 Related terms: X-Ray Diffraction Diffraction Pattern Nanoparticles Crystalline Material Crystallization Thin Films View all Topics Download as PDF Set alert About this page Rare-Earth Magnetocaloric Thin Films Ravi L. XPERT HIGHSCORE PLUS software was used to identify and match the peaks. Any XRD analysis of phase compositions can have large errors. Olivato et al. 64 prepared starchpolyester nanobiocomposites based on sepiolite clay, and from wide-angle XRD they showed no significant alteration of the crystalline structures of PBAT and starch induced by the sepiolite clay. Scaffaro et al. 155 added OMM to HDPEPA-6 blends using a co-rotating TSE and characterized by SEM, TEM, and XRD analyses. They found out that the presence of OMM affects the dimensions of the polymeric phases in the blend but not their reciprocal adhesion, privileged only by the compatibilizers. TEM, SEM, and XRD analyses indicated that there is a strict correlation between the compatibilization level and the final interlayer distance achieved by OMM. A stabilizing system was added to the nanocomposite blends for the improvement of mechanical properties. Najafi et al. 185 prepared composites based on PP, reed fiber, coupling agent maleated polypropylene (MAPP), and nanoclay by melt compounding and then injection molding. The mass ratio of reed fiber to PP was controlled at 6040 for all blends. The concentration was varied and set to 0, 2, and 4r per 100 compounds (phc) for nanoclay and 0 and 2 phc for MAPP. The morphology of the nanocomposites has been examined by using XRD. Dayma and Satapathys 81 XRD studies of ternary nanocomposites based on impact modified LDPE-g-MA blend composition with varied concentration (06 wt) of organoclay, Cloisite 30B, have revealed that the crystallinity of the nanocomposites remained inappreciably affected. Ratnayake et al. 118 investigated the effect of short-chain amide (AM) molecules on the intercalation of MMT clay by the melt blending of PP with clay in the presence of AM molecules of 3- cis -docosenamide (erueamide). Polypropylene-clay nanocomposites (PPCNs) were prepared by the co-intercalation of maleic anhydride-grafted polypropylene (PP-MA) and an AM compound. XRD results showed that the AM molecules intercalated into clay galleries and increased the interlayer spacing, a result confirmed by surface energy (contact angle) and melt flow index measurements. This additive allowed the formation of an intercalated nanocomposite structure, but an exfoliated PPCN structure was also formed with the use of AM with a PP-MA-based compatibilizer. Therefore a new preparation method for PPCNs was developed by the co-intercalation of AM and PP-MA; this resulted in a significantly improved degree of intercalation and dispersion. The enhanced thermal stability of PPCN, relative to pure PP, further demonstrated the improved clay dispersion in the nanocomposite structures prepared by this method. A possible mechanism for the co-intercalation of AM and PP-MA into the clay galleries is proposed based on hydrogen bonding between these additives and the silicate layers. Kuila et al. 186 prepared nanocomposites of EVA-28LDPE blend (1:1 by weight) with varying amounts of organomodified layered double hydroxide (DS-LDH) by solution blending. View chapter Purchase book Read full chapter URL: Crystallization Behavior of Semicrystalline Polymers in the Presence of Nucleation Agent Zhiyong Wei, Ping Song, in Crystallization in Multiphase Polymer Systems, 2018 2.2.2 Wide-Angle X-Ray Diffraction WAXD analysis was carried out on a Rigaku DMax-Ultima X-ray diffractometer with Ni-filtered Cu K radiation ( 0.15,418 nm). The operating target voltage was 40 kV, and the tube current was 10 mA.
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