Al3Ti/ADC12 Composite Synthesized by Ultrasonic Chemistry in Situ Reaction

AbstractAl3Ti/ADC12 composite was synthesized in situ using Al-fluoride potassium titanate (K2TiF6) as the reaction system and an ultrasonic assisted direct melt reaction. Results indicate ultrasonic chemistry reactions are both accelerated and more complete compared to traditional in situ reactions. Al3Ti reinforced particles with a regular shape and size of 1-2 μm were well distributed and as-cast microstructures of composites were superior. Composite particles under ultrasonic assistance were also refined to a greater extent. Tensile strength and elongation rate of the composites reached 255 MPa and 2.2%, an increase of 19.1% and 37.5% respectively to those without ultrasonic aid. Cleavage surface of the composite declined and the number of dimples increased while dimples became smaller and deeper, showing obvious ductile fracture.

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SREM observation of the interaction between the in-situ deposited Pd small particles and MgO cleavage surface

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100143523 ◽

1986 ◽

Vol 44 ◽

pp. 382-383

Author(s):

H.-J. Ou

Keyword(s):

Electron Microscopy ◽

Small Particle ◽

Small Particles ◽

Cleavage Surface ◽

Metallic Particles ◽

Microscopy Technique ◽

Ceramic Surfaces ◽

Reflection Electron Microscopy ◽

New Perspective

The understanding of the interactions between the small metallic particles and ceramic surfaces has been studied by many catalyst scientists. We had developed Scanning Reflection Electron Microscopy technique to study surface structure of MgO hulk cleaved surface and the interaction with the small particle of metals. Resolutions of 10Å has shown the periodic array of surface atomic steps on MgO. The SREM observation of the interaction between the metallic particles and the surface may provide a new perspective on such processes.

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In-situ reactions and mechanical properties of 6061 aluminum alloy weld joint with SiCp by laser melting injection

Materials & Design ◽

10.1016/j.matdes.2021.109538 ◽

2021 ◽

Vol 203 ◽

pp. 109538

Author(s):

Boan Xu ◽

Ping Jiang ◽

Shaoning Geng ◽

Yilin Wang ◽

Jintian Zhao ◽

...

Keyword(s):

Mechanical Properties ◽

Aluminum Alloy ◽

Weld Joint ◽

Laser Melting ◽

6061 Aluminum Alloy ◽

In Situ Reactions ◽

Alloy Weld

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Au Modified F-TiO2 for Efficient Photocatalytic Synthesis of Hydrogen Peroxide

Molecules ◽

10.3390/molecules26133844 ◽

2021 ◽

Vol 26 (13) ◽

pp. 3844

Author(s):

Lijuan Li ◽

Bingdong Li ◽

Liwei Feng ◽

Xiaoqiu Zhang ◽

Yuqian Zhang ◽

...

Keyword(s):

Hydrogen Peroxide ◽

Reaction System ◽

Reaction Medium ◽

Pure Tio2 ◽

H2o2 Production ◽

Tio2 Photocatalyst ◽

H2o2 Decomposition ◽

Spin Resonance ◽

Photocatalytic Synthesis

In this work, Au-modified F-TiO2 is developed as a simple and efficient photocatalyst for H2O2 production under ultraviolet light. The Au/F-TiO2 photocatalyst avoids the necessity of adding fluoride into the reaction medium for enhancing H2O2 synthesis, as in a pure TiO2 reaction system. The F− modification inhibits the H2O2 decomposition through the formation of the ≡Ti–F complex. Au is an active cocatalyst for photocatalytic H2O2 production. We compared the activity of TiO2 with F− modification and without F− modification in the presence of Au, and found that the H2O2 production rate over Au/F-TiO2 reaches four times that of Au/TiO2. In situ electron spin resonance studies have shown that H2O2 is produced by stepwise single-electron oxygen reduction on the Au/F-TiO2 photocatalyst.

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Patch shape and size effect on performance of in-situ scarf patch repair in aircraft panel

IOP Conference Series Materials Science and Engineering ◽

10.1088/1757-899x/1004/1/012002 ◽

2020 ◽

Vol 1004 ◽

pp. 012002

Author(s):

Kishan Dwivedi ◽

Himanshu Pathak

Keyword(s):

Size Effect ◽

Patch Repair ◽

Patch Shape ◽

Shape And Size

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Room-temperature wear resistance of tungsten carbide composite layers produced on gray cast iron by diffusion-controlled in situ reactions

Surface and Coatings Technology ◽

10.1016/j.surfcoat.2021.127649 ◽

2021 ◽

pp. 127649

Author(s):

Xiaolong Cai ◽

Huanxi Wang ◽

Yunhua Xu ◽

Baowei Cao ◽

Mingxin Liu ◽

...

Keyword(s):

Wear Resistance ◽

Cast Iron ◽

Tungsten Carbide ◽

Room Temperature ◽

Gray Cast Iron ◽

Composite Layers ◽

Diffusion Controlled ◽

In Situ Reactions ◽

Tungsten Carbide Composite

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Effects of Nano-CaCO3/Limestone Composite Particles on the Hydration Products and Pore Structure of Cementitious Materials

Advances in Materials Science and Engineering ◽

10.1155/2018/5732352 ◽

2018 ◽

Vol 2018 ◽

pp. 1-8 ◽

Cited By ~ 8

Author(s):

Huashan Yang ◽

Yujun Che

Keyword(s):

Mechanical Properties ◽

Pore Structure ◽

Reaction System ◽

Cementitious Materials ◽

Limestone Powder ◽

Composite Particles ◽

Gravimetric Analysis ◽

Hydration Products ◽

Scanning Calorimetry ◽

Necked Flask

The agglomeration of nano-CaCO3 (NC) is the largest bottleneck in applications in cementitious materials. If nano-CaCO3 modifies the surface of micron-scale limestone powder (LS), then it will form nano-CaCO3/limestone composite particles (NC/LS). It is known that micron-scale limestone is easily dispersed, and the “dispersion” of NC is governed by that of LS. Therefore, the dispersion of nano-CaCO3 can be improved by the NC/LS in cementitious materials. In this work, the preparation of NC/LS was carried out in a three-necked flask using the Ca(OH)2-H2O-CO2 reaction system. The morphology of NC/LS was observed by a field emission scanning electron microscope (FE-SEM). The effects of NC/LS on the hydration products and pore structure of cementitious materials are proposed. 5% NC/LS was added into cement paste and mortar, and the mechanical properties of the specimens were measured at a certain age. Differential scanning calorimetry (DSC), thermal gravimetric analysis (TG), and backscattered electron imaging (BSE) were conducted on the specimens to investigate the hydration products and pore structure. The properties of specimens with NC/LS were compared to that of control specimens (without NC/LS). The results revealed that NC/LS reduced the porosity and improved the mechanical properties of the cementitious materials.

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Monitoring the Interfacial Polymerization of Piperazine and Trimesoyl Chloride with Hydrophilic Interlayer or Macromolecular Additive by in-situ FT-IR Spectroscopy

10.20944/preprints201911.0012.v1 ◽

2019 ◽

Author(s):

Xi Yang

Keyword(s):

Ir Spectroscopy ◽

Reaction Rate ◽

Interfacial Polymerization ◽

Reaction System ◽

Reaction Rates ◽

Water Permeation ◽

Ft Ir ◽

Trimesoyl Chloride ◽

Ft Ir Spectroscopy

The interfacial polymerization (IP) of piperazine (PIP) and trimesoyl chloride (TMC) has been extensively utilized to synthesize the nanofiltration (NF) membrane. However, it is still a huge challenge to monitor the IP reaction, because of the fast reaction rate and the formed ultra-thin film. Herein, two effective strategies are applied to reduce the IP reaction rate: (1) the introduction of hydrophilic interlayers between the porous substrate and the formed polyamide layer; (2) the addition of macromolecular additives in the aqueous solution of PIP. As a result, in-situ FT-IR spectroscopy was firstly used to monitor the IP reaction of PIP/TMC reaction system, with hydrophilic interlayers or macromolecular additives. Moreover, we study the formed polyamide layer growth on the substrate, in a real-time manner. The in-situ FT-IR experimental results confirm that the IP reaction rates are effectively suppressed and the formed polyamide thickness reduces from 138±24 nm to 46±2 nm. Furthermore, the optimized NF membrane with excellent performance are consequently obtained, which include the boosted water permeation flux about 141~238 (L·m2·h/MPa) and superior salt rejection of Na2SO4 > 98.4%.

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In-situ Complex and Sb-N Bond Formation in an Antimonato Polyoxovanadate Reaction System

Zeitschrift für anorganische und allgemeine Chemie ◽

10.1002/zaac.201800187 ◽

2018 ◽

Vol 644 (22) ◽

pp. 1508-1512

Author(s):

Michael Wendt ◽

Christian Näther ◽

Jan van Leusen ◽

Paul Kögerler ◽

Wolfgang Bensch

Keyword(s):

Bond Formation ◽

Reaction System

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Effect of In-Situ Synthesized Boride Phases on the Impact Behavior of Iron-Based Composites Reinforced by B4C Particles

Metals ◽

10.3390/met10050554 ◽

2020 ◽

Vol 10 (5) ◽

pp. 554

Author(s):

Fehmi Nair ◽

Mustafa Hamamcı

Keyword(s):

Contact Forces ◽

Impact Behavior ◽

Iron Matrix ◽

Impact Tests ◽

B4c Particles ◽

Iron Based ◽

In Situ Reactions ◽

Boride Phases ◽

The Impact

The objective of this study is to investigate the impact behavior of iron-based composites reinforced with boron carbide (B4C) particles and in-situ synthesized iron borides (Fe2B/FeB). The composite specimens (Fe/B4C) were fabricated by hot-pressing under a pressure of 250 MPa at 500 °C, and sintered at a temperature of 1000 °C. The effects of the reinforcement ratio on the formation of in-situ borides and impact behavior were investigated by means of different volume fractions of B4C inside the iron matrix: 0% (un-reinforced), 5%, 10%, 20%, and 30%. Drop-weight impact tests were performed by an instrumented Charpy impactor on reinforced and un-reinforced test specimens. The results of the impact tests were supported with microstructural and fractographical analysis. As a result of in-situ reactions between the Fe matrix and B4C particles, Fe2B phases were formed in the iron matrix. The iron borides, formed in the iron matrix during sintering, heavily affected the hardness and the morphology of the fractured surface. Due to the high amount of B4C (over 10%), porosity played a major role in decreasing the contact forces and fracture energy. The results showed that the in-situ synthesized iron boride phases affect the impact properties of the Fe/B4C composites.

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